TWI765848B - Crystalline forms of quinolone analogs and their salts - Google Patents

Crystalline forms of quinolone analogs and their salts Download PDF

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TWI765848B
TWI765848B TW104141965A TW104141965A TWI765848B TW I765848 B TWI765848 B TW I765848B TW 104141965 A TW104141965 A TW 104141965A TW 104141965 A TW104141965 A TW 104141965A TW I765848 B TWI765848 B TW I765848B
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TW201720832A (en
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戴維 雷克曼
怡靜 余
筱亭 劉
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生華生物科技股份有限公司
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Abstract

The present invention includes crystalline forms of 2-(4-Methyl-[1,4]diazepan-1-yl)-5-oxo-5H-7-thia-1,11b-diaza-benzo[c]fluorene-6-carboxylic acid (5-methyl-pyrazin-2-ylmethyl)-amide and crystalline forms of salts and/or solvates of 2-(4-Methyl-[1,4]diazepan-1-yl)-5-oxo-5H-7-thia-1,11b-diaza-benzo[c]fluorene-6-carbox ylic acid (5-methyl-pyrazin-2-ylmethyl)-amide. Furthermore, the present invention provides compositions comprising the crystalline forms and therapeutic use of the crystalline forms and the compositions thereof.

Description

喹諾酮類似物及其鹽的結晶形式 Crystalline forms of quinolone analogs and their salts

本發明係有關於一種四環喹諾酮化合物或四環喹諾酮化合物的鹽及/或溶劑合物之結晶形式、包含這些結晶形式之醫藥組合物以及使用這些結晶形式之方法。 The present invention relates to crystalline forms of tetracyclic quinolone compounds or salts and/or solvates of tetracyclic quinolone compounds, pharmaceutical compositions comprising these crystalline forms, and methods of using these crystalline forms.

各種四環喹諾酮化合物已被提出可藉由下列產生功能:與核酸的四聯體形成區域交互作用以及調節核糖體RNA轉錄。參見,例如,美國第7,928,100及8,853,234號專利。具體而言,四環喹諾酮化合物可以在腫瘤細胞中穩定DNA的G-四聯體(G4s),藉此在癌細胞中誘導合成致死。由於以G4穩定劑治療細胞可導致DNA雙股斷裂(DSBs)的形成,藉由G4穩定配體/藥劑(如四環喹諾酮)誘導DSB的形成之治療對下列細胞會更為顯著:在包括非同源性末端接合(NHEJ)及同源性重組修復(HRR)兩者的修復途徑,具有遺傳地缺陷或化學地抑制者。此外,四環喹諾酮化合物選擇性地抑制聚合酶I在核仁的rRNA合成,但不抑制RNA聚合酶II(Pol II)的mRNA合成,並且不抑制DNA的複製或蛋白質合成。已提出通過核仁壓力路徑靶向RNA聚合酶I(Pol I)以活化p53可導致p53在腫瘤細胞中選擇性活化。藉由使癌細胞自我毀滅,p53蛋白的通 常功能為抑制腫瘤。活化p53蛋白以殺死癌細胞是一個已被充分驗證的抗癌策略,且很多方法被採用來開發此路徑。在治療、控制、緩解腫瘤細胞而不影響正常的健康細胞,p53在腫瘤細胞中選擇性活化會是一個引人注意的方法。前述四環喹諾酮係揭示於美國第7,928,100及8,853,234號專利,針對所有意欲目的,其公開的內容在此以其整體併入本文作為參考資料。 Various tetracyclic quinolone compounds have been proposed to function by interacting with quadruplex-forming regions of nucleic acids and regulating ribosomal RNA transcription. See, eg, US Pat. Nos. 7,928,100 and 8,853,234. Specifically, tetracyclic quinolone compounds can stabilize G-quadruplexes (G4s) of DNA in tumor cells, thereby inducing synthetic lethality in cancer cells. Since treatment of cells with G4 stabilizers can lead to the formation of DNA double-strand breaks (DSBs), treatment with G4 stabilizing ligands/agents (eg, tetracyclic quinolones) to induce DSB formation is more pronounced for cells that include non- Both the homologous end joining (NHEJ) and homologous recombination repair (HRR) repair pathways are either genetically deficient or chemically inhibited. In addition, tetracyclic quinolone compounds selectively inhibit rRNA synthesis of polymerase I in the nucleolus, but not mRNA synthesis of RNA polymerase II (Pol II), and do not inhibit DNA replication or protein synthesis. Targeting RNA polymerase I (Pol I) to activate p53 through the nucleolar stress pathway has been proposed to result in selective p53 activation in tumor cells. By causing cancer cells to self-destruct, the p53 protein The usual function is to suppress tumors. Activation of p53 protein to kill cancer cells is a well-validated anticancer strategy, and many approaches have been employed to exploit this pathway. The selective activation of p53 in tumor cells would be an interesting approach in the treatment, control, and remission of tumor cells without affecting normal healthy cells. The aforementioned tetracyclic quinolones are disclosed in US Pat. Nos. 7,928,100 and 8,853,234, the disclosures of which are hereby incorporated by reference in their entirety for all intended purposes.

熟習醫藥技藝者可以理解活性藥物成分的結晶是提供控制重要生化性質(諸如,穩定性、溶解度、生物利用率、粒徑、容積密度、流動性、多晶型物含量以及其它特性)的最佳方法。因此,需要四環喹諾酮之結晶形式以及製造該形式之方法。這些結晶形式應可適用於醫藥用途。 Those skilled in the art of medicine will understand that crystallization of an active pharmaceutical ingredient provides the best control over important biochemical properties such as stability, solubility, bioavailability, particle size, bulk density, fluidity, polymorph content, and other properties. method. Accordingly, there is a need for crystalline forms of tetracyclic quinolones and methods of making such forms. These crystalline forms should be suitable for medicinal use.

在一具體實施例中,本發明提供一種四環喹諾酮化合物之結晶形式或其在醫藥上可接受的鹽、酯及/或溶劑合物。在一具體實施例中,四環喹諾酮化合物之結晶形式是化合物I:

Figure 104141965-A0305-02-0004-1
或其在醫藥上可接受的鹽、酯及/或溶劑合物。在一具體實施例中,化合物I之結晶形式是化合物I之游離鹼。在另一具體實施例中,化合物I之結晶形式是化合物 I的鹽及/或溶劑合物。在一具體實施例中,化合物I之結晶形式是化合物I之酸式鹽。 In a specific embodiment, the present invention provides a crystalline form of a tetracyclic quinolone compound or a pharmaceutically acceptable salt, ester and/or solvate thereof. In a specific embodiment, the crystalline form of the tetracyclic quinolone compound is Compound I:
Figure 104141965-A0305-02-0004-1
or a pharmaceutically acceptable salt, ester and/or solvate thereof. In a specific embodiment, the crystalline form of Compound 1 is the free base of Compound 1. In another specific embodiment, the crystalline form of Compound 1 is a salt and/or solvate of Compound 1. In a specific embodiment, the crystalline form of Compound 1 is an acid salt of Compound 1.

在部分具體實施例中,化合物I的結晶形式顯示出的X光粉末繞射(XRPD)圖譜包含峰值於2θ約7.730±0.3、22.050±0.3及24.550±0.3度。在又一具體實施例中,化合物I之結晶形式進一步顯示出XRPD峰值於2θ約9.410±0.3及27.700±0.3度。在另一具體實施例中,化合物I之結晶形式進一步顯示出XRPD峰值於2θ約17.950±0.3及25.400±0.3度。在一具體實施例中,化合物I之結晶形式進一步顯示至少一XRPD峰值於2θ約11.230±0.3、11.630±0.3、16.900±0.3、18.580±0.3、23.300±0.3及26.700±0.3度。在一具體實施例中,化合物I之結晶形式顯示出的XRPD圖譜包含選自於由下列所組成之群組的三個或更多峰值:峰值於2θ約7.730±0.3、9.410±0.3、11.230±0.3、11.630±0.3、16.900±0.3、17.950±0.3、18.580±0.3、22.050±0.3、23.300±0.3、24.550±0.3、25.400±0.3、26.700±0.3及27.700±0.3度。在另一具體實施例中,化合物I之結晶形式顯示出的XRPD圖譜實質上相似於圖1。在一具體實施例中,化合物I之結晶形式顯示出的示差掃描熱分析(DSC)圖譜於約215.41±2.0℃具有峰特徵值。 In some embodiments, the crystalline form of Compound I exhibits an X-ray powder diffraction (XRPD) pattern comprising peaks at about 7.730±0.3, 22.050±0.3, and 24.550±0.3 degrees 2Θ. In yet another embodiment, the crystalline form of Compound I further exhibits XRPD peaks at about 9.410 ± 0.3 and 27.700 ± 0.3 degrees 2Θ. In another embodiment, the crystalline form of Compound I further exhibits XRPD peaks at about 17.950 ± 0.3 and 25.400 ± 0.3 degrees 2Θ. In one embodiment, the crystalline form of Compound I further exhibits at least one XRPD peak at about 11.230±0.3, 11.630±0.3, 16.900±0.3, 18.580±0.3, 23.300±0.3, and 26.700±0.3 degrees 2Θ. In a specific embodiment, the crystalline form of Compound 1 exhibits an XRPD pattern comprising three or more peaks selected from the group consisting of: peaks at about 7.730±0.3, 9.410±0.3, 11.230±2Θ 0.3, 11.630±0.3, 16.900±0.3, 17.950±0.3, 18.580±0.3, 22.050±0.3, 23.300±0.3, 24.550±0.3, 25.400±0.3, 26.700±0.3 and 27.700±0.3 degrees. In another embodiment, the crystalline form of Compound 1 exhibits an XRPD pattern substantially similar to Figure 1 . In a specific embodiment, the crystalline form of Compound I exhibits a differential scanning calorimetry (DSC) pattern with peak characteristic values at about 215.41±2.0°C.

在一具體實施例中,化合物I之結晶形式為多晶型物A。在部分具體實施例中,化合物I之結晶形式及/或化合物I之多晶型物A的結晶形式具有約95%、約97%、約99%、約99.5%或更高的純度。 In a specific embodiment, the crystalline form of Compound I is Polymorph A. In some embodiments, the crystalline form of Compound 1 and/or the crystalline form of Polymorph A of Compound 1 has a purity of about 95%, about 97%, about 99%, about 99.5% or higher.

在另一具體實施例中,化合物I之結晶形式顯示出的XRPD圖譜包含峰值於2θ約5.720±0.3度。在另一具體實施例中,化合物I之結晶形式顯示的XRPD圖譜實質上相似於圖7。在一具體實施例中,化合物I之結晶形式顯示出的DSC圖譜於約246.47±2.0℃具有峰特徵值。 In another embodiment, the crystalline form of Compound I exhibits an XRPD pattern comprising a peak at about 5.720 ± 0.3 degrees 2Θ. In another embodiment, the crystalline form of Compound 1 exhibits an XRPD pattern substantially similar to FIG. 7 . In a specific embodiment, the crystalline form of Compound I exhibits a DSC pattern with a peak characteristic value at about 246.47±2.0°C.

在一具體實施例中,化合物I之結晶形式為多晶型物C。在部分具體實施例中,化合物I之結晶形式及/或化合物I之多晶型物C的結晶形式具有約95%、約97%、約99%、約99.5%或更高的純度。 In a specific embodiment, the crystalline form of Compound I is polymorph C. In some embodiments, the crystalline form of Compound 1 and/or the crystalline form of Polymorph C of Compound 1 has a purity of about 95%, about 97%, about 99%, about 99.5% or higher.

在部分具體實施例中,化合物I之結晶形式顯示出的XRPD圖譜包含峰值於2θ約5.680±0.2度。在一具體實施例中,化合物I之結晶形式進一步顯示出XRPD峰值於2θ約12.200±0.2、12.600±0.3、25.360±0.3及27.560±0.3度。在一具體實施例中,化合物I之結晶形式顯示出的XRPD圖譜包含選自於由下列所組成之群組的二個或更多峰值:峰值於2θ約5.680±0.2、12.200±0.2、12.600±0.3、25.360±0.3及27.560±0.3。在另一具體實施例中,化合物I之結晶形式顯示的XRPD圖譜實質上相似於圖11。在一具體實施例中,化合物I之結晶形式顯示出的DSC圖譜於約231.99±2.0℃具有峰特徵值。 In some embodiments, the crystalline form of Compound I exhibits an XRPD pattern comprising a peak at about 5.680 ± 0.2 degrees 2Θ. In a specific embodiment, the crystalline form of Compound I further exhibits XRPD peaks at about 12.200±0.2, 12.600±0.3, 25.360±0.3, and 27.560±0.3 degrees 2Θ. In a specific embodiment, the crystalline form of Compound 1 exhibits an XRPD pattern comprising two or more peaks selected from the group consisting of: peaks at about 5.680±0.2, 12.200±0.2, 12.600±2Θ 0.3, 25.360±0.3 and 27.560±0.3. In another embodiment, the crystalline form of Compound 1 shows an XRPD pattern substantially similar to Figure 11 . In a specific embodiment, the crystalline form of Compound I exhibits a DSC pattern with peak characteristic values at about 231.99±2.0°C.

在一具體實施例中,化合物I之結晶形式為多晶型物E。在部分具體實施例中,化合物I之結晶形式及/或化合物I之多晶型物E的結晶形式具有約95%、約97%、約99%、約99.5%或更高的純度。 In a specific embodiment, the crystalline form of Compound I is polymorph E. In some embodiments, the crystalline form of Compound 1 and/or the crystalline form of Polymorph E of Compound 1 has a purity of about 95%, about 97%, about 99%, about 99.5% or higher.

在一具體實施例中,化合物I之結晶形式顯示出的XRPD圖譜包含峰值於2θ約5.000±0.3及6.060±0.4度。在另一具體實施例中,化合物I之結晶形式顯示的XRPD圖譜實質上相似於圖16。在另一具體實施例中,化合物I之結晶形式顯示出的DSC圖譜於約222.11±2.0℃具有峰特徵值。 In one embodiment, the crystalline form of Compound I exhibits an XRPD pattern comprising peaks at about 5.000±0.3 and 6.060±0.4 degrees 2Θ. In another embodiment, the crystalline form of Compound 1 shows an XRPD pattern substantially similar to Figure 16 . In another specific embodiment, the crystalline form of Compound I exhibits a DSC pattern with a peak characteristic value at about 222.11±2.0°C.

在一具體實施例中,化合物I之結晶形式為多晶型物G。在部分具體實施例中,化合物I之結晶形式及/或化合物I之多晶型物G的結晶形式具有約95%、約97%、約99%、約99.5%或更高的純度。 In a specific embodiment, the crystalline form of Compound I is polymorph G. In some embodiments, the crystalline form of Compound 1 and/or the crystalline form of Polymorph G of Compound 1 has a purity of about 95%, about 97%, about 99%, about 99.5% or higher.

在一具體實施例中,化合物I之結晶形式顯示出高於約90%、95%、97%、98%、99%或95%的化合物I純度。 In a specific embodiment, the crystalline form of Compound 1 exhibits a purity of Compound 1 greater than about 90%, 95%, 97%, 98%, 99%, or 95%.

在一具體實施例中,化合物I之結晶形式是化合物I的選自於下列所組成之群組的酸式鹽:鹽酸鹽、馬來酸鹽、富馬酸鹽、檸檬酸鹽、蘋果酸鹽、醋酸鹽、硫酸鹽、磷酸鹽、L-(+)-酒石酸鹽、D-葡糖醛酸鹽、苯甲酸鹽、琥珀酸鹽、乙烷磺酸鹽、甲磺酸鹽、對甲苯磺酸鹽、丙酸鹽、苯磺酸鹽以及1-羥基-2-萘甲酸鹽。在另一具體實施例中,化合物I之鹽的結晶形式是選自於由下列所組成之群組:鹽酸鹽、馬來酸鹽、富馬酸鹽、檸檬酸鹽及L-蘋果酸鹽。 In a specific embodiment, the crystalline form of Compound 1 is an acid salt of Compound 1 selected from the group consisting of: hydrochloride, maleate, fumarate, citrate, malic acid Salt, acetate, sulfate, phosphate, L-(+)-tartrate, D-glucuronate, benzoate, succinate, ethanesulfonate, mesylate, p-toluene Sulfonate, propionate, benzenesulfonate and 1-hydroxy-2-naphthoate. In another embodiment, the crystalline form of the salt of Compound I is selected from the group consisting of hydrochloride, maleate, fumarate, citrate and L-malate .

在一具體實施例中,化合物I之結晶形式是化合物I的溶劑合物。在部分具體實施例中,化合物I之結晶形式是化合物I的NMP(N-甲基吡咯啶酮)溶劑合物。 In a specific embodiment, the crystalline form of Compound 1 is a solvate of Compound 1. In some embodiments, the crystalline form of Compound 1 is a NMP (N-methylpyrrolidone) solvate of Compound 1.

在一具體實施例中,化合物I之結晶形式是化合物I之鹽酸鹽的結晶形式。在部分具體實施例中,化合物I之鹽酸鹽的結晶形式顯示出的X光粉末繞射(XRPD)圖譜包含峰值於2θ約4.660±0.3及24.540±0.3度。在一具體實施例中,化合物I之鹽酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約19.260±0.4、20.160±0.4、24.920±0.3及26.360±0.5度。在另一具體實施例中,化合物I之鹽酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約13.980±0.4、14.540±0.3、25.380±0.3及28.940±0.3度。在另一具體實施例中,化合物I之鹽酸鹽的結晶形式顯示出的XRPD圖譜實質上相似於圖21。在另一具體實施例中,化合物I之鹽酸鹽的結晶形式顯示出的DSC圖譜於約266.27±2.0℃具有峰特徵值。 In a specific embodiment, the crystalline form of Compound 1 is the crystalline form of the hydrochloride salt of Compound 1. In some embodiments, the crystalline form of the hydrochloride salt of Compound I exhibits an X-ray powder diffraction (XRPD) pattern comprising peaks at about 4.660±0.3 and 24.540±0.3 degrees 2Θ. In a specific embodiment, the crystalline form of the hydrochloride salt of Compound I further exhibits one or more XRPD peaks at about 19.260±0.4, 20.160±0.4, 24.920±0.3, and 26.360±0.5 degrees 2Θ. In another embodiment, the crystalline form of the hydrochloride salt of Compound I further exhibits one or more XRPD peaks at about 13.980±0.4, 14.540±0.3, 25.380±0.3, and 28.940±0.3 degrees 2Θ. In another embodiment, the crystalline form of the hydrochloride salt of Compound I exhibits an XRPD pattern substantially similar to Figure 21 . In another specific embodiment, the crystalline form of the hydrochloride salt of Compound I exhibits a DSC pattern with a peak characteristic value at about 266.27±2.0°C.

在一具體實施例中,化合物I之結晶形式是化合物I之馬來酸鹽的結晶形式。在部分具體實施例中,化合物I之馬來酸鹽的結晶形式顯示出的X光粉末繞射(XRPD)圖譜包含峰值於2θ約7.400±0.3、18.440±0.5及26.500±0.4度。在另一具體實施例中,化合物I之馬來酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約22.320±0.4、23.920±0.3、24.300±0.4及25.240±0.7度。在另一具體實施例中,化合物I之馬來酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約5.040±0.3、15.080±0.3、15.880±0.4、20.860±0.4及28.540±0.3度。在另一具體實施例中,化合物I之馬來酸鹽的結晶形式顯示出的XRPD圖譜實質上相似於圖26。在另一具體實施例中,化合物I之馬來酸鹽的結晶形式顯示出的DSC圖譜於約217.32±2.0℃具有峰特徵值。 In a specific embodiment, the crystalline form of Compound 1 is the crystalline form of the maleate salt of Compound 1. In some embodiments, the crystalline form of the maleate salt of Compound I exhibits an X-ray powder diffraction (XRPD) pattern comprising peaks at about 7.400±0.3, 18.440±0.5 and 26.500±0.4 degrees 2Θ. In another embodiment, the crystalline form of the maleate salt of Compound I further exhibits one or more XRPD peaks at about 22.320±0.4, 23.920±0.3, 24.300±0.4, and 25.240±0.7 degrees 2Θ. In another embodiment, the crystalline form of the maleate salt of Compound I further exhibits one or more XRPD peaks at about 5.040±0.3, 15.080±0.3, 15.880±0.4, 20.860±0.4, and 28.540±0.3 degrees 2Θ . In another embodiment, the crystalline form of the maleate salt of Compound 1 exhibits an XRPD pattern substantially similar to FIG. 26 . In another specific embodiment, the crystalline form of the maleate salt of Compound I exhibits a DSC pattern with a peak characteristic value at about 217.32±2.0°C.

在一具體實施例中,化合物I之結晶形式是化合物I之富馬酸鹽的結晶形式。在部分具體實施例中,化合物I之富馬酸鹽的結晶形式顯示出的X光粉末繞射(XRPD)圖譜包含峰值於2θ約6.360±0.3及24.800±0.3度。在另一具體實施例中,化合物I之富馬酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約19.660±0.3、20.420±0.3及26.860±0.3度。在另一具體實施例中,化合物I之富馬酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約12.680±0.3、17.020±0.2、25.180±0.2及28.280±0.3度。在另一具體實施例中,化合物I之富馬酸鹽的結晶形式顯示出的XRPD圖譜實質上相似於圖31。在另一具體實施例中,化合物I之富馬酸鹽的結晶形式顯示出的DSC圖譜於約222.40±2.0℃具有峰特徵值。 In a specific embodiment, the crystalline form of Compound 1 is the crystalline form of the fumarate salt of Compound 1. In some embodiments, the crystalline form of the fumarate salt of Compound I exhibits an X-ray powder diffraction (XRPD) pattern comprising peaks at about 6.360±0.3 and 24.800±0.3 degrees 2Θ. In another embodiment, the crystalline form of the fumarate salt of Compound I further exhibits one or more XRPD peaks at about 19.660±0.3, 20.420±0.3, and 26.860±0.3 degrees 2Θ. In another embodiment, the crystalline form of the fumarate salt of Compound I further exhibits one or more XRPD peaks at about 12.680±0.3, 17.020±0.2, 25.180±0.2, and 28.280±0.3 degrees 2Θ. In another embodiment, the crystalline form of the fumarate salt of Compound 1 exhibits an XRPD pattern substantially similar to FIG. 31 . In another specific embodiment, the crystalline form of the fumarate salt of Compound I exhibits a DSC pattern with a peak characteristic value at about 222.40±2.0°C.

在一具體實施例中,化合物I之結晶形式是化合物I之檸檬酸鹽的結晶形式。在部分具體實施例中,化合物I之檸檬酸鹽的結晶形式顯示出的X光 粉末繞射(XRPD)圖譜包含峰值於2θ約4.900±0.3、25.380±0.3及27.500±0.4度。在另一具體實施例中,化合物I之檸檬酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約15.360±0.3、18.100±0.3、19.300±0.3及26.140±0.4度。在另一具體實施例中,化合物I之檸檬酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約17.400±0.3、18.680±0.4、24.040±0.4及26.740±0.3度。在另一具體實施例中,化合物I之檸檬酸鹽的結晶形式顯示出的XRPD圖譜實質上相似於圖36。在另一具體實施例中,化合物I之檸檬酸鹽的結晶形式顯示出的DSC圖譜於約196.86±2.0℃具有峰特徵值。 In a specific embodiment, the crystalline form of Compound 1 is the crystalline form of Compound 1 citrate salt. In some of the embodiments, the crystalline form of the citrate salt of Compound 1 shows an X-ray The powder diffraction (XRPD) pattern contained peaks at about 4.900±0.3, 25.380±0.3 and 27.500±0.4 degrees 2Θ. In another embodiment, the crystalline form of the citrate salt of Compound I further exhibits one or more XRPD peaks at about 15.360±0.3, 18.100±0.3, 19.300±0.3, and 26.140±0.4 degrees 2Θ. In another embodiment, the crystalline form of the citrate salt of Compound I further exhibits one or more XRPD peaks at about 17.400±0.3, 18.680±0.4, 24.040±0.4, and 26.740±0.3 degrees 2Θ. In another embodiment, the crystalline form of the citrate salt of Compound 1 exhibits an XRPD pattern substantially similar to FIG. 36 . In another specific embodiment, the crystalline form of the citrate salt of Compound I exhibits a DSC pattern with peak characteristic values at about 196.86±2.0°C.

在一具體實施例中,化合物I之結晶形式是化合物I之L-蘋果酸鹽的結晶形式。在部分具體實施例中,化合物I之L-蘋果酸鹽的結晶形式顯示出的X光粉末繞射(XRPD)圖譜包含峰值於2θ約6.580±0.2、6.780±0.3及25.560±0.4度。在另一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約19.560±0.4、23.660±0.4、26.060±0.7及26.960±0.7度。在另一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式進一步顯示出一或多個XRPD峰值於2θ約8.800±0.3、11.800±0.3、18.600±0.3、24.460±0.5及25.080±0.3度。在另一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式顯示出的XRPD圖譜實質上相似於圖41。在另一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式顯示出的DSC圖譜於約209.67±2.0℃具有峰特徵值。 In a specific embodiment, the crystalline form of Compound 1 is the crystalline form of the L-malate salt of Compound 1. In some embodiments, the crystalline form of the L-malate salt of Compound I exhibits an X-ray powder diffraction (XRPD) pattern comprising peaks at about 6.580±0.2, 6.780±0.3, and 25.560±0.4 degrees 2Θ. In another embodiment, the crystalline form of the L-malate salt of Compound I further exhibits one or more XRPD peaks at about 19.560±0.4, 23.660±0.4, 26.060±0.7, and 26.960±0.7 degrees 2Θ. In another specific embodiment, the crystalline form of the L-malate salt of Compound I further exhibits one or more XRPD peaks at about 8.800±0.3, 11.800±0.3, 18.600±0.3, 24.460±0.5, and 25.080±0.3 2Θ Spend. In another embodiment, the crystalline form of the L-malate salt of Compound 1 exhibits an XRPD pattern substantially similar to Figure 41 . In another specific embodiment, the crystalline form of the L-malate salt of Compound I exhibits a DSC pattern with a peak characteristic value at about 209.67±2.0°C.

在一具體實施例中,提供一種組合物,其包含如本文所述之化合物I的結晶形式或其在醫藥上可接受的鹽、酯及/或溶劑合物。在另一具體實施例中,提供一種組合物,其包含化合物I之游離鹼的結晶形式。在一具體實施例中,提供一種組合物,其包含化合物I之鹽或溶劑合物的結晶形式。在一具體實施例 中,提供一種組合物,其包含化合物I之酸式鹽的結晶形式。在一具體實施例中,提供一種組合物,其包含一或多種任何如本文所述化合物I之結晶形式。在部分具體實施例中,任何本文中所述之組合物,包含至少一種醫藥上可接受的載體。 In a specific embodiment, there is provided a composition comprising a crystalline form of Compound I as described herein, or a pharmaceutically acceptable salt, ester and/or solvate thereof. In another specific embodiment, a composition comprising a crystalline form of the free base of Compound I is provided. In a specific embodiment, a composition is provided comprising a crystalline form of a salt or solvate of Compound I. In a specific embodiment In , there is provided a composition comprising a crystalline form of an acid salt of Compound I. In a specific embodiment, there is provided a composition comprising one or more crystalline forms of any of Compound I as described herein. In some embodiments, any of the compositions described herein comprise at least one pharmaceutically acceptable carrier.

在一具體實施例中,提供一種在個體中穩定G-四聯體(G4s)之方法,所述方法包含對該個體投予治療有效量的如本文所述之化合物I之結晶形式,或其在醫藥上可接受的鹽、酯及/或溶劑合物。 In a specific embodiment, there is provided a method of stabilizing G-quadruplexes (G4s) in an individual, the method comprising administering to the individual a therapeutically effective amount of a crystalline form of Compound I as described herein, or Pharmaceutically acceptable salts, esters and/or solvates.

在一具體實施例中,提供一種在個體中調節p53活性之方法,所述方法包括對該個體投予治療有效量的如本文所述化合物I之結晶形式,或其在醫藥上可接受的鹽、酯及/或溶劑合物。 In a specific embodiment, there is provided a method of modulating p53 activity in an individual, the method comprising administering to the individual a therapeutically effective amount of a crystalline form of Compound I as described herein, or a pharmaceutically acceptable salt thereof , esters and/or solvates.

在一具體實施例中,提供一種在個體中治療或改善細胞增殖病症之方法,該方法包括對有需要的個體投予治療有效量的如本文所述化合物I之結晶形式,或其在醫藥上可接受的鹽、酯及/或溶劑合物。在一具體實施例中,該方法係提供以治療或緩解癌症。 In a specific embodiment, there is provided a method of treating or ameliorating a cell proliferative disorder in an individual, the method comprising administering to an individual in need thereof a therapeutically effective amount of a crystalline form of Compound I as described herein, or pharmaceutically Acceptable salts, esters and/or solvates. In a specific embodiment, the method is provided to treat or alleviate cancer.

在一具體實施例中,提供一種用於治療或緩解癌症之方法,該方法包括對有需要的個體投予治療有效量的如本文所述化合物I之結晶形式,或其在醫藥上可接受的鹽、酯及/或溶劑合物,其中所述癌症係選自於由下列所組成之群組:血癌、大腸癌、乳腺癌、肺癌、肝癌、卵巢癌、子宮頸癌、尤文氏肉瘤、胰腺癌、淋巴結癌、結腸癌、前列腺癌、腦癌、頭頸癌、皮膚癌、腎癌及心臟腫瘤。在一具體實施例中,以所述方法治療或緩解之癌症係選自於下列所組成之群組的血癌:白血病、淋巴瘤、骨髓瘤以及多發性骨髓瘤。在一具體實施例中,以所述方法治療或緩解之癌症為同源性重組(HR)DNA雙股斷裂(DSB)修復缺陷癌症,或非同源性末端接合(NHEJ)DNA雙股斷裂修復缺陷癌症。在 另一具體實施例中,以所述方法治療或緩解的癌症包括於下列帶有缺陷的癌細胞:乳腺癌易感基因1(BRCA1)、乳腺癌易感基因2(BRCA2)及/或同源性重組途徑的其它成員。在另一具體實施例中,所述癌細胞於BRCA1及/或BRCA2有缺陷。在另一具體實施例中,所述癌細胞係指帶有BRCA1及/或BRCA2突變的基因型為同型合子。在另一具體實施例中,所述癌細胞係指帶有BRCA1及/或BRCA2突變的基因型為異型合子。 In a specific embodiment, there is provided a method for treating or alleviating cancer, the method comprising administering to an individual in need thereof a therapeutically effective amount of a crystalline form of Compound I as described herein, or a pharmaceutically acceptable form thereof Salts, esters and/or solvates, wherein the cancer is selected from the group consisting of: blood cancer, colorectal cancer, breast cancer, lung cancer, liver cancer, ovarian cancer, cervical cancer, Ewing's sarcoma, pancreas cancer, lymph node cancer, colon cancer, prostate cancer, brain cancer, head and neck cancer, skin cancer, kidney cancer and heart cancer. In a specific embodiment, the cancer treated or in remission by the method is a blood cancer selected from the group consisting of leukemia, lymphoma, myeloma, and multiple myeloma. In a specific embodiment, the cancer treated or ameliorated by the method is homologous recombination (HR) DNA double-strand break (DSB) repair deficient cancer, or non-homologous end joining (NHEJ) DNA double-strand break repair Defective cancer. exist In another specific embodiment, the cancer treated or ameliorated by the method comprises cancer cells with defects in breast cancer susceptibility gene 1 (BRCA1), breast cancer susceptibility gene 2 (BRCA2) and/or homologs Other members of the sexual recombination pathway. In another specific embodiment, the cancer cells are deficient in BRCA1 and/or BRCA2. In another specific embodiment, the cancer cells are homozygous for the genotype with BRCA1 and/or BRCA2 mutation. In another specific embodiment, the cancer cells are heterozygous for the genotype with BRCA1 and/or BRCA2 mutation.

在一具體實施例中,本文提供之方法進一步包括給予一或多種額外的治療劑。在部分具體實施例中,所述一或多種額外的治療劑為抗癌劑或免疫治療劑。在一具體實施例中,所述一或多種治療活性劑為免疫治療劑。在部分具體實施例中,所述一或多種免疫治療劑包括但不限於單株抗體、免疫效應細胞、過繼性細胞轉移(adoptive cell transfer)、免疫毒素、疫苗或細胞激素。 In a specific embodiment, the methods provided herein further comprise administering one or more additional therapeutic agents. In some embodiments, the one or more additional therapeutic agents are anticancer agents or immunotherapeutic agents. In a specific embodiment, the one or more therapeutically active agents are immunotherapeutic agents. In some embodiments, the one or more immunotherapeutic agents include, but are not limited to, monoclonal antibodies, immune effector cells, adoptive cell transfer, immunotoxins, vaccines, or cytokines.

在一具體實施例中,提供一種用於減少或抑制細胞增殖之方法,所述方法包括使細胞接觸治療有效量的化合物I或其在醫藥上可接受的鹽、酯及/或溶劑合物。在一具體實施例中,所述細胞是一癌細胞株或一個體體內的腫瘤細胞。在一具體實施例中,上述方法中所述癌細胞係選自於由下列所組成之群組:血癌、大腸癌、乳腺癌、肺癌、肝癌、卵巢癌、子宮頸癌、尤文氏肉瘤、胰腺癌、淋巴結癌、結腸癌,前列腺癌,腦癌,頭頸癌,皮膚癌,腎癌及心臟腫瘤。在一具體實施例中,上述方法中所述之血癌細胞係選自於由下列所組成之群組:白血病、淋巴瘤、骨髓瘤以及多發性骨髓瘤。在一具體實施例中,上述方法中所述之癌細胞係為下列帶有缺陷之癌細胞:同源性重組(HR)DNA雙股斷裂(DSB)修復或是非同源性末端接合(NHEJ)DNA雙股斷裂修復。在一具體實施例中,所述癌細胞係為下列帶有缺陷之癌細胞:乳腺癌易感基因1 (BRCA1)、乳腺癌易感基因2(BRCA2)及/或同源性重組途徑的其它成員。在另一具體實施例中,所述癌細胞於BRCA1及/或BRCA2有缺陷。在另一具體實施例中,所述癌細胞係指帶有BRCA1及/或BRCA2突變的基因型為同型合子。在另一具體實施例中,所述癌細胞係指帶有BRCA1及/或BRCA2突變的基因型為異型合子。 In a specific embodiment, there is provided a method for reducing or inhibiting cell proliferation, the method comprising contacting the cell with a therapeutically effective amount of Compound I or a pharmaceutically acceptable salt, ester and/or solvate thereof. In a specific embodiment, the cell is a cancer cell line or a tumor cell in a subject. In a specific embodiment, the cancer cell line in the above method is selected from the group consisting of: blood cancer, colorectal cancer, breast cancer, lung cancer, liver cancer, ovarian cancer, cervical cancer, Ewing's sarcoma, pancreas cancer, lymph node cancer, colon cancer, prostate cancer, brain cancer, head and neck cancer, skin cancer, kidney cancer and heart tumor. In a specific embodiment, the blood cancer cell line described in the above method is selected from the group consisting of leukemia, lymphoma, myeloma, and multiple myeloma. In a specific embodiment, the cancer cell line described in the above method is a cancer cell deficient in homologous recombination (HR) DNA double-strand break (DSB) repair or non-homologous end joining (NHEJ) DNA double-strand break repair. In a specific embodiment, the cancer cell line is a cancer cell with a defect in breast cancer susceptibility gene 1 (BRCA1), breast cancer susceptibility gene 2 (BRCA2), and/or other members of the homologous recombination pathway. In another specific embodiment, the cancer cells are deficient in BRCA1 and/or BRCA2. In another specific embodiment, the cancer cells are homozygous for the genotype with BRCA1 and/or BRCA2 mutation. In another specific embodiment, the cancer cells are heterozygous for the genotype with BRCA1 and/or BRCA2 mutation.

圖1為化合物I(游離鹼)之多晶型物A的X光粉末繞射(XRPD)圖譜;圖2為化合物I(游離鹼)之多晶型物A的示差掃描熱分析(DSC)圖譜;圖3為化合物I(游離鹼)之多晶型物A的熱重量分析(TGA)圖譜;圖4為化合物I(游離鹼)之多晶型物A的DSC圖譜以及TGA圖譜的疊圖;圖5為化合物I(游離鹼)之多晶型物A的氫核磁共振(1H NMR)圖譜;圖6A為化合物I(游離鹼)之多晶型物A使用交叉偏振光之顯微照片以及圖6B為化合物I(游離鹼)之多晶型物A使用無偏振光之顯微圖片;圖7為化合物I(游離鹼)之多晶型物C的XRPD圖譜;圖8為化合物I(游離鹼)之多晶型物C的DSC圖譜;圖9為化合物I(游離鹼)之多晶型物C的1H NMR光譜; 圖10A為化合物I(游離鹼)之多晶型物C使用交叉偏振光之顯微照片以及圖10B為化合物I(游離鹼)之多晶型物C使用無偏振光之顯微圖片;圖11為化合物I(游離鹼)之多晶型物E的XRPD圖譜;圖12為化合物I(游離鹼)之多晶型物E的DSC圖譜;圖13為化合物I(游離鹼)之多晶型物E的1H NMR光譜;圖14A為化合物I(游離鹼)之多晶型物E使用交叉偏振光之顯微照片以及圖14B為化合物I(游離鹼)之多晶型物E使用無偏振光之顯微圖片;圖15為化合物I(游離鹼)之多晶型物E的熱重量分析(TGA)圖譜。 Fig. 1 is the X-ray powder diffraction (XRPD) spectrum of polymorph A of compound I (free base); Fig. 2 is the differential scanning calorimetric analysis (DSC) spectrum of polymorph A of compound I (free base). Fig. 3 is the thermogravimetric analysis (TGA) spectrum of the polymorphic form A of compound I (free base); Fig. 4 is the overlay of the DSC spectrum and TGA spectrum of the polymorphic form A of compound I (free base); Figure 5 is a hydrogen nuclear magnetic resonance ( 1 H NMR) spectrum of polymorph A of compound I (free base); Figure 6A is a photomicrograph of polymorph A of compound I (free base) using cross-polarized light and Figure 6B is a micrograph of polymorph A of compound I (free base) using unpolarized light; Figure 7 is the XRPD pattern of polymorph C of compound I (free base); Figure 8 is compound I (free base) DSC spectrum of polymorph C of compound I (free base); Figure 9 is the 1 H NMR spectrum of polymorph C of compound I (free base); Figure 10A is polymorph C of compound I (free base) using cross Polarized light photomicrograph and Figure 10B is a photomicrograph of polymorph C of compound I (free base) using unpolarized light; Figure 11 is an XRPD pattern of polymorph E of compound I (free base); Figure 12 is the DSC spectrum of polymorph E of compound I (free base); Figure 13 is the 1 H NMR spectrum of polymorph E of compound I (free base); Figure 14A is of compound I (free base) Figure 14B is a photomicrograph of Polymorph E using cross polarized light and Figure 14B is a photomicrograph of Polymorph E of Compound I (free base) using unpolarized light; Figure 15 is a polymorph of Compound I (free base) Thermogravimetric analysis (TGA) pattern of Form E.

圖16為化合物I(游離鹼)之多晶型物G的XRPD圖譜;圖17為化合物I(游離鹼)之多晶型物G的DSC圖譜;圖18為化合物I(游離鹼)之多晶型物G的1H NMR光譜;圖19A為化合物I(游離鹼)之多晶型物G使用交叉偏振光之顯微照片以及圖19B為化合物I(游離鹼)之多晶型物G使用無偏振光之顯微圖片;圖20描述化合物I(游離鹼)之數種多晶型在甲醇以及THF的溶解度;圖21為化合物I之鹽酸鹽的XRPD圖譜;圖22為化合物I之鹽酸鹽的DSC圖譜;圖23為化合物I之鹽酸鹽的1H NMR光譜;圖24為化合物I之鹽酸鹽使用偏振光之顯微照片;圖25為化合物I之鹽酸鹽的TGA圖譜;圖26為化合物I之馬來酸鹽的XRPD圖譜; 圖27為化合物I之馬來酸鹽的DSC圖譜;圖28為化合物I之馬來酸鹽的1H NMR光譜圖29為化合物I之馬來酸鹽使用偏振光之顯微照片;圖30為化合物I之馬來酸鹽的TGA圖譜;圖31為化合物I之富馬酸鹽的XRPD圖譜;圖32為化合物I之富馬酸鹽的DSC圖譜;圖33為化合物I之富馬酸鹽的1H NMR光譜;圖34為化合物I之富馬酸鹽使用偏振光之顯微照片;圖35為化合物I之富馬酸鹽的TGA圖譜;圖36為化合物I之檸檬酸鹽的XRPD圖譜;圖37為化合物I之檸檬酸鹽的DSC圖譜;圖38為化合物I之檸檬酸鹽的1H NMR光譜;圖39為化合物I之檸檬酸鹽使用偏振光之顯微照片;圖40為化合物I之富馬酸鹽的TGA圖譜;圖41為化合物I之L-蘋果酸鹽的XRPD圖譜;圖42為化合物I之L-蘋果酸鹽的DSC圖譜;圖43為化合物I之L-蘋果酸鹽的1H NMR光譜;圖44為化合物I之L-蘋果酸鹽使用偏振光之顯微照片;以及圖45為化合物I之L-蘋果酸鹽的TGA圖譜。 Figure 16 is the XRPD pattern of polymorph G of compound I (free base); Figure 17 is the DSC pattern of polymorph G of compound I (free base); Figure 18 is the polymorph of compound I (free base) 1 H NMR spectra of Form G; Figure 19A is a photomicrograph of Polymorph G of Compound I (free base) using cross-polarized light and Figure 19B is a photomicrograph of Polymorph G of Compound I (free base) using no Micrographs of polarized light; Figure 20 depicts the solubility of several polymorphic forms of Compound I (free base) in methanol and THF; Figure 21 is the XRPD pattern of the hydrochloride salt of Compound I; Figure 22 is the hydrochloric acid of Compound I The DSC spectrum of the salt; Figure 23 is the 1 H NMR spectrum of the hydrochloride of compound I; Figure 24 is the photomicrograph of the hydrochloride of compound I using polarized light; Figure 25 is the TGA spectrum of the hydrochloride of compound I; Figure 26 is the XRPD spectrum of the maleate of compound I; Figure 27 is the DSC spectrum of the maleate of compound I; Figure 28 is the 1 H NMR spectrum of the maleate of compound I; Figure 29 is the horse of the compound I Figure 30 is the TGA pattern of the maleate of compound I; Figure 31 is the XRPD pattern of the fumarate of compound I; Figure 32 is the fumarate of compound I DSC spectrum; Figure 33 is the 1 H NMR spectrum of the fumarate of compound I; Figure 34 is the photomicrograph of the fumarate of compound I using polarized light; Figure 35 is the TGA spectrum of the fumarate of compound I ; Figure 36 is the XRPD spectrum of the citrate of compound I; Figure 37 is the DSC spectrum of the citrate of compound I; Figure 38 is the 1 H NMR spectrum of the citrate of compound I; Figure 39 is the citric acid of compound I Figure 40 is the TGA pattern of the fumarate salt of compound I; Figure 41 is the XRPD pattern of the L-malate salt of compound I; Figure 42 is the L-malate salt of compound I. DSC spectrum; Figure 43 is the 1 H NMR spectrum of L-malate of Compound 1; Figure 44 is a photomicrograph of L-malate of Compound 1 using polarized light; and Figure 45 is L-malic acid of Compound 1 TGA spectrum of salt.

本發明係關於四環喹諾酮化合物之結晶形式,其可穩定G-四聯體(G4s)及/或抑制聚合酶I(Pol I),亦關於四環喹諾酮化合物之鹽及/或溶劑合物的結晶形式。這些晶體物質可以被配製成醫藥組合物以及用於治療具有細胞增殖特徵之疾病。 The present invention relates to crystalline forms of tetracyclic quinolone compounds that stabilize G-quadruplexes (G4s) and/or inhibit polymerase I (Pol I), and also to salts and/or solvates of tetracyclic quinolone compounds. crystalline form. These crystalline substances can be formulated into pharmaceutical compositions and used to treat diseases characterized by cell proliferation.

定義 Definition :

應理解本文所使用的術語僅具有針對描述具體實施例之目的,而意不在於限制。 It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting.

除非另有定義,所有本文中所使用的技術及科學術語具有如同本發明所屬技術領域中之技藝人士一般所瞭解的意義。雖然任何方法及類似或等同於本文描述的材料可以實施或測試本發明,於本文中仍描述代表性的方法及材料。 Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Although any methods and materials similar or equivalent to those described herein can be used in the practice or testing of the present invention, representative methods and materials are described herein.

根據長久存在的專利法慣例,術語「一」、「一個」以及「該」在本申請中(包括在請求項中)是指「一或多個」。因此,例如,「一種載體」之指稱包括或一多種載體、二或更多載體或類似之混合。 In accordance with long-standing patent law practice, the terms "a," "an," and "the" are used in this application (including in the claims) to mean "one or more." Thus, for example, a reference to "a carrier" includes a mixture of one or more carriers, two or more carriers, or the like.

除非另有說明,在說明書及申請專利範圍中用以表示成分、反應條件的數量等的所有數字,在所有的情況下應理理解為加上「約」。因此,除非有相反的指示,說明書及申請專利範圍中所述的數值參數為近似值,其可依賴於藉由本發明所尋求獲得之所欲性質而變化。一般而言,本文中所使用的術語「約」,當指涉一測量值,例如,重量、時間以及劑量等,是意欲涵蓋:相對於所指定的量,在一實例中,係±15%或±10%的變異,在另一實例中,為±5%的變異,在另一個實例中,係±1%的變異,以及在又一實例中,為±0.1%的變異,只要上述之變異對實施所揭露的方法而言是適當的。 Unless otherwise stated, all numbers used in the specification and claims to represent quantities of ingredients, reaction conditions, etc., should be understood to mean adding "about" in all cases. Accordingly, unless indicated to the contrary, the numerical parameters set forth in the specification and claimed claims are approximations that may vary depending upon the desired properties sought to be obtained by the present invention. In general, the term "about" as used herein, when referring to a measurement, such as weight, time, dose, etc., is intended to encompass ±15% relative to the specified amount, in one example or ±10% variance, in another example ±5% variance, in another example ±1% variance, and in yet another example ±0.1% variance, as long as the above Variations are appropriate to implement the disclosed methods.

術語「本發明之化合物」或「本化合物」係指2-(4-甲基-[1,4]二氮雜環庚烷-1-基)-5-氧代-5H-7-硫雜1,11b二氮雜-苯並[c]芴-6-羧酸(5-甲基-吡啶-2-基甲基)-胺化物(化合物I)或其異構物、鹽、酯、N-氧化物或溶劑合物之結晶形式。可替換地,上述術語可指化合物I的鹽或溶劑合物或該二形式。本申請中所描述之化合物I之結晶形式包括化合物I的任何單一異構物以及化合物I的任何數量的異構物之混合物之結晶形式。 The term "compound of the present invention" or "compound" refers to 2-(4-methyl-[1,4]diazepan-1-yl)-5-oxo-5H-7-thia 1,11b Diaza-benzo[c]fluorene-6-carboxylic acid (5-methyl-pyridin-2-ylmethyl)-amine (Compound I) or its isomers, salts, esters, N - Crystalline forms of oxides or solvates. Alternatively, the above terms may refer to a salt or solvate of Compound I or both forms. The crystalline forms of Compound 1 described in this application include crystalline forms of any single isomer of Compound 1 as well as mixtures of any number of isomers of Compound 1.

Figure 104141965-A0305-02-0016-2
Figure 104141965-A0305-02-0016-2

術語「共同投予」係指(a)化合物I之結晶形式,或化合物I在醫藥上可接受之鹽、酯、溶劑合物及/或前藥的結晶形式;及(b)一或多種額外的治療劑及/或放射療法,以組合方式投予,亦即,用相互配合的方式一起投予。 The term "co-administered" refers to (a) a crystalline form of Compound 1, or a crystalline form of a pharmaceutically acceptable salt, ester, solvate and/or prodrug of Compound 1; and (b) one or more additional The therapeutic agents and/or radiation therapy are administered in combination, that is, administered together in a complementary manner.

術語「異構物」係指具有相同化學式之化合物,但可以具有不同的立體化學式、結構式或特別的原子排列。異構物的實例包括立體異構物、非對映立體異構物、對映體、構象異構物、旋轉異構物、幾何異構物以及阻轉異構物。 The term "isomers" refers to compounds having the same chemical formula, but may have different stereochemical formulas, structural formulas, or particular atomic arrangements. Examples of isomers include stereoisomers, diastereoisomers, enantiomers, conformers, rotamers, geometric isomers, and atropisomers.

「N-氧化物」,亦稱為氧化胺或胺-N-氧化物,意指經由本發明之化合物的胺基氧化,而從本發明化合物所衍生之化合物。N-氧化物通常包含官能團R3N+-O-(有時記為R3N=O或R3N→O)。 "N-oxide", also known as amine oxide or amine-N-oxide, means a compound derived from a compound of the present invention via oxidation of the amine group of the compound of the present invention. N-oxides typically contain functional groups R3N + -O- (sometimes denoted as R3N =O or R3N →O).

同質多晶形性可具有以下特徵:化合物結晶成不同的結晶形式,而同時保持相同化學式之能力。一特定藥物物質的結晶多晶型物在化學上相同 於以同樣方式互相鍵結相同原子之該藥物物質的任何其它結晶多晶型物,因其具有不同的結晶形式,而可影響一或多種物理性質,諸如穩定性、溶解度、熔點、容積密度、流動性以及生物利用率等。 Polymorphism can be characterized by the ability of a compound to crystallize into different crystalline forms while maintaining the same chemical formula. Crystalline polymorphs of a given drug substance that are chemically identical Any other crystalline polymorph of the drug substance with the same atoms bonded to each other in the same way, because of its different crystalline form, can affect one or more physical properties, such as stability, solubility, melting point, bulk density, mobility and bioavailability.

術語「組合物」表示一或多種物質的物理型態,諸如固體、液體、氣體或其混合物。組合物的一個實例為醫藥組合物,亦即,關於醫療、為醫療製備或用於醫療之組合物。 The term "composition" refers to a physical form of one or more substances, such as solids, liquids, gases, or mixtures thereof. An example of a composition is a pharmaceutical composition, that is, a composition pertaining to, prepared for, or used in medicine.

術語「羧酸」係指一種具有以下特徵的有機酸:一或多個羧基,諸如乙酸及草酸。「磺酸」係指具有R-(S(O)2-OH)n通式的有機酸類,其中R為有機烴基部分,n為大於零的整數,諸如1、2及3。術語「多羥基酸」係指含有二或多個羥基的羧酸。多羥基酸的實例包括但不限於乳糖酸、葡糖酸及半乳糖。 The term "carboxylic acid" refers to an organic acid characterized by one or more carboxyl groups, such as acetic acid and oxalic acid. "Sulfonic acid" refers to organic acids having the general formula R-(S(O) 2 -OH) n , where R is an organic hydrocarbyl moiety and n is an integer greater than zero, such as 1, 2, and 3. The term "polyhydroxy acid" refers to a carboxylic acid containing two or more hydroxyl groups. Examples of polyhydroxy acids include, but are not limited to, lactobionic acid, gluconic acid, and galactose.

本文中所使用的「醫藥上可接受的」意指沒有過度的毒性、刺激性、過敏反應以及其它類似效果,而適合用於接觸人類及動物組織,具有相當的合理利益/風險比,且在合理醫學判斷範圍內的預定用途是有效的。 "Pharmaceutically acceptable" as used herein means without undue toxicity, irritation, allergic reactions, and other similar effects, suitable for use in contact with human and animal tissues, with a reasonable benefit/risk ratio, and in It is valid for the intended use within the scope of sound medical judgment.

「鹽」包括活性劑的衍生物,其中該活性劑是通過製作其酸或鹼式加成鹽以改質。較佳地,該鹽為醫藥上可接受的鹽。此種鹽包括但不限於醫藥上可接受的酸式加成鹽、醫藥上可接受的鹼式加成鹽、醫藥上可接受的金屬鹽以及銨及烷基化銨鹽。酸式加成鹽包括無機酸以及有機酸的鹽。合適的無機酸代表性實例包括鹽酸、氫溴酸、氫碘酸、磷酸、硫酸、硝酸以及其它類似物。合適的有機酸代表性實例包括甲酸、乙酸、三氯乙酸、三氟乙酸、丙酸、苯甲酸、肉桂酸、檸檬酸、富馬酸、乙醇酸、乳酸、馬來酸、蘋果酸、丙二酸、扁桃酸、草酸、苦酸、丙酮酸,水楊酸、琥珀酸、甲磺酸、乙磺酸、酒石酸、抗壞血酸、撲酸、雙亞甲基水楊酸、乙二磺酸、葡糖酸、檸康酸、天冬氨酸、硬 脂酸、棕櫚酸,乙二胺四乙酸(EDTA)、乙醇酸、對氨基苯甲酸、谷氨酸、苯磺酸、對甲苯磺酸、硫酸鹽、硝酸鹽、磷酸鹽、高氯酸鹽、硼酸鹽、乙酸鹽、苯甲酸鹽、羥基萘,甘油磷酸、鹽酮戊二酸鹽以及其它類似物。鹼式加成鹽包括但不限於乙二胺、N-甲基-葡糖胺、離胺酸、精胺酸、鳥胺酸、膽鹼、N,N'-二芐基乙二胺、氯普魯卡因、二乙醇胺、普魯卡因、N-芐基苯乙胺、二乙胺、哌嗪、三(羥甲基)-氨基甲烷、四甲基氫氧化、三乙胺、二芐胺、二苯羥甲胺、脫氫樅胺、N-乙基哌啶、芐胺、四甲基銨、四乙銨、甲胺、二甲胺、三甲胺、乙胺、鹼性氨基酸例如離胺酸及精胺酸二環己基胺以及類似物。金屬鹽的實例包括鋰、鈉、鉀、鎂的鹽及其它類似物。銨及烷基化銨鹽的實例包括銨、甲基銨、二甲基銨、三甲基銨、乙基銨、羥乙基銨、二乙基銨、丁基銨、四甲基銨的鹽以及類似物。有機鹼的實例包括離胺酸、精胺酸、胍、二乙醇胺、膽鹼以及類似物。醫藥上可接受的鹽及其製劑的製備之標準方法是本領域熟知的,並且於各種參考文獻中公開,包括,例如"Remington:The Science and Practice of Pharmacy",A.Gennaro,ed.,20th edition,Lippincott,Williams & Wilkins,Philadelphia,PA。 "Salt" includes derivatives of active agents wherein the active agent has been modified by making acid or base addition salts thereof. Preferably, the salt is a pharmaceutically acceptable salt. Such salts include, but are not limited to, pharmaceutically acceptable acid addition salts, pharmaceutically acceptable base addition salts, pharmaceutically acceptable metal salts, and ammonium and alkylated ammonium salts. Acid addition salts include salts of inorganic acids as well as organic acids. Representative examples of suitable inorganic acids include hydrochloric, hydrobromic, hydroiodic, phosphoric, sulfuric, nitric, and the like. Representative examples of suitable organic acids include formic acid, acetic acid, trichloroacetic acid, trifluoroacetic acid, propionic acid, benzoic acid, cinnamic acid, citric acid, fumaric acid, glycolic acid, lactic acid, maleic acid, malic acid, malonic acid acid, mandelic acid, oxalic acid, picric acid, pyruvic acid, salicylic acid, succinic acid, methanesulfonic acid, ethanesulfonic acid, tartaric acid, ascorbic acid, pamoic acid, bismethylenesalicylic acid, ethanedisulfonic acid, glucose acid, citraconic acid, aspartic acid, hard Fatty acid, palmitic acid, ethylenediaminetetraacetic acid (EDTA), glycolic acid, p-aminobenzoic acid, glutamic acid, benzenesulfonic acid, p-toluenesulfonic acid, sulfate, nitrate, phosphate, perchlorate, Borate, acetate, benzoate, hydroxynaphthalene, glycerophosphoric acid, salt ketoglutarate, and the like. Basic addition salts include, but are not limited to, ethylenediamine, N-methyl-glucosamine, lysine, arginine, ornithine, choline, N,N'-dibenzylethylenediamine, chlorine Procaine, Diethanolamine, Procaine, N-Benzylphenethylamine, Diethylamine, Piperazine, Tris(hydroxymethyl)-aminomethane, Tetramethyl Hydroxide, Triethylamine, Dibenzyl Amine, diphenylhydroxymethylamine, dehydroabietylamine, N-ethylpiperidine, benzylamine, tetramethylammonium, tetraethylammonium, methylamine, dimethylamine, trimethylamine, ethylamine, basic amino acids such as Amino acids and arginine dicyclohexylamine and the like. Examples of metal salts include salts of lithium, sodium, potassium, magnesium, and the like. Examples of ammonium and alkylated ammonium salts include salts of ammonium, methylammonium, dimethylammonium, trimethylammonium, ethylammonium, hydroxyethylammonium, diethylammonium, butylammonium, tetramethylammonium and the like. Examples of organic bases include lysine, arginine, guanidine, diethanolamine, choline, and the like. Standard methods for the preparation of pharmaceutically acceptable salts and formulations thereof are well known in the art and are disclosed in various references including, for example, "Remington: The Science and Practice of Pharmacy", A. Gennaro, ed., 20th edition, Lippincott, Williams & Wilkins, Philadelphia, PA.

本文中所使用的「溶劑合物」係指溶劑化(助溶分子與本發明的活性劑的分子或離子的組合)的複合物,或包含由一溶劑中的離子或分子(本發明的活性劑)與一或多種助溶分子組成的複合物。在本發明中,較佳的溶劑合物為水合物。水合物的實例包括但不限於半水合物、一水合物、二水合物、三水合物及六水合物等。本領域中具有通常技藝者應當理解,本化合物的醫藥上可接受的鹽亦可以溶劑合物的型態存在。該溶劑合物典型地係通過水合作用形成,其或為本化合物製備的一部分,或為經由無水的本發明之化合物的自然 水分吸收。溶劑合物,包括水合物,可以化學計量比組成,例如,每一溶劑合物或每一水合物分子具有二、三、四個鹽分子。另一種可能性,例如,二個鹽分子的化學計量涉及到三、五、七溶劑或水合物分子。用於結晶的溶劑,諸如醇,特別是甲醇和乙醇;醛;酮類,特別是丙酮;酯,例如乙酸乙酯;可被嵌入晶格。較佳的是醫藥上可接受的溶劑合物。 As used herein, "solvate" refers to a complex that is solvated (combination of a co-solubilizing molecule with a molecule or ion of an active agent of the present invention), or a complex composed of an ion or molecule (an active agent of the present invention) in a solvent. agent) and one or more solubilizing molecules. In the present invention, preferred solvates are hydrates. Examples of hydrates include, but are not limited to, hemihydrates, monohydrates, dihydrates, trihydrates, hexahydrates, and the like. It will be understood by those of ordinary skill in the art that pharmaceutically acceptable salts of the present compounds may also exist in the form of solvates. The solvates are typically formed by hydration, either as part of the preparation of the present compound, or as a natural consequence of the anhydrous compound of the present invention. Moisture absorption. Solvates, including hydrates, may be composed of stoichiometric ratios, eg, two, three, or four salt molecules per solvate or per hydrate molecule. Another possibility, for example, the stoichiometry of two salt molecules involves three, penta, heptasolvent or hydrate molecules. Solvents used for crystallization, such as alcohols, especially methanol and ethanol; aldehydes; ketones, especially acetone; esters, such as ethyl acetate; can be embedded in the crystal lattice. Preferred are pharmaceutically acceptable solvates.

本文中所使用的術語「實質上相似」意指分析光譜,諸如XRPD圖譜、拉曼光譜等,在峰值位置及其強度兩者上有很大程度類似於參考光譜。 The term "substantially similar" as used herein means that analytical spectra, such as XRPD spectra, Raman spectra, etc., are largely similar to a reference spectrum, both in peak position and in intensity.

術語「賦形劑」、「載體」以及「媒介物」在本申請中互換使用,且其表示與本發明化合物一起投予的物質。 The terms "excipient," "carrier," and "vehicle" are used interchangeably in this application and refer to a substance with which a compound of the present invention is administered.

「治療有效量」意指結晶形式的量,當投予至患者以治療疾病或其他不良的身體病症時,其係足以對於該疾病或病症產生有益作用。治療有效量將根據結晶形式、疾病或病症及其嚴重性以及受治療患者之年齡、體重等而變化。特定結晶形式之治療有效量之決定,係在本領域無須常規實驗之通常技藝範圍內。 A "therapeutically effective amount" means an amount of a crystalline form that, when administered to a patient to treat a disease or other adverse physical condition, is sufficient to produce a beneficial effect on the disease or condition. A therapeutically effective amount will vary depending on the crystalline form, the disease or disorder and its severity, and the age, weight, etc. of the patient being treated. Determination of a therapeutically effective amount of a particular crystalline form is within the ordinary skill in the art without routine experimentation.

本文中所使用的術語「具有細胞增殖特徵的疾病」或「具有細胞增殖特徵的病症」包括但不限於癌症、良性及惡性腫瘤。癌症及腫瘤的實例包括但不限於增生於大腸、乳腺、肺、肝、胰、淋巴結、結腸、前列腺,腦、頭頸部、皮膚、腎、血液及心臟(如白血病、淋巴瘤和惡性腫瘤)之癌症或腫瘤。 The terms "diseases characterized by cell proliferation" or "disorders characterized by cell proliferation" as used herein include, but are not limited to, cancer, benign and malignant tumors. Examples of cancers and tumors include, but are not limited to, proliferations in the large intestine, breast, lung, liver, pancreas, lymph nodes, colon, prostate, brain, head and neck, skin, kidney, blood, and heart (eg, leukemia, lymphoma, and malignant tumors). cancer or tumor.

術語「治療」對應一特定的疾病或病症,包括預防所述疾病或病症的及/或減輕、改善、緩解或消除疾病或病症的症狀及/或病理學。一般而言,該術語於本文中使用來指改善、緩解、減輕及除去疾病或病症的症狀。本文所 描述的候選分子或化合物可以治療有效量存在於製劑或藥物中,此量可導致生物效應,諸如特定細胞(例如,癌細胞)之凋亡、減少特定細胞之增殖,或例如可導致疾病或病症之症狀的改善、緩解、減輕或去除。該術語還可以指減少或停止細胞增殖率(例如,減緩或停止腫瘤生長)或減少增殖癌細胞的數目(例如,除去部分或全部腫瘤)。這些術語亦適用於受微生物感染的系統(即細胞,組織或個體)中微生物效價之減低、微生物繁殖速度之減低、症狀的數目或與微生物感染相關症狀之影響之減低及/或系統中可檢測量微生物之除去。微生物的實例包括但不限於病毒、細菌及真菌。 The term "treating" corresponds to a particular disease or disorder, and includes preventing the disease or disorder and/or alleviating, ameliorating, alleviating or eliminating the symptoms and/or pathology of the disease or disorder. Generally, the term is used herein to refer to ameliorating, alleviating, alleviating, and removing symptoms of a disease or disorder. this article The described candidate molecules or compounds can be present in a formulation or drug in a therapeutically effective amount that results in a biological effect, such as apoptosis of specific cells (eg, cancer cells), reduction in proliferation of specific cells, or, for example, can lead to a disease or disorder improvement, alleviation, alleviation or removal of symptoms. The term can also refer to reducing or stopping the rate of cell proliferation (eg, slowing or stopping tumor growth) or reducing the number of proliferating cancer cells (eg, removing part or all of a tumor). These terms also apply to a reduction in microbial titer, a reduction in the rate of microbial reproduction, a reduction in the number of symptoms, or the effect of symptoms associated with a microbial infection in a microbially infected system (ie, a cell, tissue or individual) and/or a Removal of detectable amount of microorganisms. Examples of microorganisms include, but are not limited to, viruses, bacteria, and fungi.

如本文所述,術語「抑制」、「減少」或「減低」細胞增殖意指,當使用本領域中通常技藝者所習知的方法測量,減緩、降低或,例如,停止細胞增殖的量,例如,10%、20%、30%、40%、50%、60%、70%、80%、90%、95%或100%,相對於未接受本申請之方法及組合物的增殖細胞。 As used herein, the terms "inhibit", "reduce" or "reduce" cell proliferation mean, when measured using methods known to those of ordinary skill in the art, slow, reduce or, for example, stop the amount of cell proliferation, For example, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, or 100% relative to proliferating cells that did not receive the methods and compositions of the present application.

如本文述,「細胞凋亡」係指細胞內在的自我毀滅或自殺程序。應對一觸發性刺激,細胞經歷級聯事件,包括細胞皺縮、細胞膜起泡以及染色質凝聚及碎裂。這一過程的最後階段係細胞形成多個具有完整膜結構的粒子(凋亡小體),其隨後為巨噬細胞所吞噬。 As described herein, "apoptosis" refers to the self-destruction or suicide process inherent in a cell. In response to a triggering stimulus, cells undergo a cascade of events including cell shrinkage, membrane blebbing, and chromatin condensation and fragmentation. The final stage of this process involves the formation of multiple particles with intact membrane structures (apoptotic bodies), which are subsequently phagocytosed by macrophages.

晶體材料:Crystal material:

在一具體實施例中,本發明提供化合物I(游離鹼)之結晶形式。在另一具體實施例中,本發明提供化合物I之鹽及/或溶劑合物的結晶形式。在一具體實施例中,所述鹽是鹽酸加成鹽。在一具體實施例中,所述鹽是硫酸加成鹽。在一具體實施例中,所述鹽是磺酸加成鹽。在一具體實施例中,所述鹽是羧酸加成鹽。在具體實施例中,所述鹽是聚羥基酸加成鹽。 In a specific embodiment, the present invention provides a crystalline form of Compound I (free base). In another specific embodiment, the present invention provides crystalline forms of salts and/or solvates of Compound I. In a specific embodiment, the salt is a hydrochloric acid addition salt. In a specific embodiment, the salt is a sulfuric acid addition salt. In a specific embodiment, the salt is a sulfonic acid addition salt. In a specific embodiment, the salt is a carboxylic acid addition salt. In specific embodiments, the salt is a polyhydroxy acid addition salt.

結晶鹽的實例包括但不限於鹽酸鹽、馬來酸鹽、富馬酸鹽、檸檬酸鹽、蘋果酸鹽、硫酸鹽、醋酸鹽、磷酸鹽、L-(+)-酒石酸鹽、D-葡糖醛酸鹽、苯甲酸鹽、琥珀酸鹽、乙烷磺酸鹽、甲磺酸鹽、對-甲苯磺酸鹽、丙二酸鹽、苯磺酸鹽和1-羥基-2-萘甲酸鹽。在一具體實施例中,所述化合物I與酸在結晶鹽中的比率為約1:0.5至約1:3。 Examples of crystalline salts include, but are not limited to, hydrochloride, maleate, fumarate, citrate, malate, sulfate, acetate, phosphate, L-(+)-tartrate, D- Glucuronate, benzoate, succinate, ethanesulfonate, mesylate, p-toluenesulfonate, malonate, benzenesulfonate and 1-hydroxy-2-naphthalene formate. In a specific embodiment, the ratio of Compound I to acid in the crystalline salt is from about 1:0.5 to about 1:3.

結晶溶劑合物的實例包括但不限於化合物I的NMP(N-甲基-2-吡咯烷酮)溶劑合物。 Examples of crystalline solvates include, but are not limited to, NMP (N-methyl-2-pyrrolidone) solvates of Compound 1.

在一具體實施例中,結晶型態通過X光粉末繞射圖譜(XRDP)確定的晶格面間之間隔來特徵化。XRDP光譜典型地係以峰值強度對峰值位置(即衍射角2θ之角度)作圖之圖形呈現。強度通常以下列縮寫顯示於括號中:非常強=vst、強=st;中等=m;弱=w;及非常弱=vw。一個特定的XRDP特徵峰值可以根據峰值的位置及其相對強度來選擇,以便於區分此種晶體結構與其它晶體結構。峰值相對於最強峰值強度百分比可以表示為I/Io。 In a specific embodiment, the crystalline form is characterized by the spacing between lattice planes as determined by X-ray powder diffraction (XRDP). XRDP spectra are typically presented as a graph of peak intensity versus peak position (ie, the angle of diffraction angle 2Θ). Intensities are generally shown in parentheses with the following abbreviations: very strong=vst, strong=st; moderate=m; weak=w; and very weak=vw. A particular XRDP characteristic peak can be selected based on the location of the peak and its relative intensities in order to distinguish this crystal structure from other crystal structures. The peak intensity percentage relative to the strongest peak can be expressed as I/Io.

熟習此技藝者認知同一化合物之給定結晶形式的XRDP峰值位置及/或強度之量測結果將在誤差範圍內變化。角度2θ的值允許適當的誤差範圍。典型地,誤差範圍係以「±」表示。例如,約「8.716±0.3」的2θ角度,表示從約8.716+0.3(即,約9.016)到約8.716-0.3(即,約8.416)的範圍。取決於樣品製備技術、應用於儀器校準技術、人為操作變異等,熟習此技藝者認知適當的XRDP誤差範圍可為約±0.7;±0.6;±0.5;±0.4;±0.3;±0.2;±0.1;±0.05;或更低。 Those skilled in the art recognize that measurements of XRDP peak positions and/or intensities for a given crystalline form of the same compound will vary within a margin of error. The value of the angle 2θ allows for an appropriate margin of error. Typically, the margin of error is expressed as "±". For example, a 2θ angle of about "8.716±0.3" represents a range from about 8.716+0.3 (ie, about 9.016) to about 8.716-0.3 (ie, about 8.416). Depending on sample preparation techniques, applied instrument calibration techniques, human manipulation variations, etc., those skilled in the art recognize that the appropriate XRDP error range may be about ±0.7; ±0.6; ±0.5; ±0.4; ±0.3; ±0.2; ±0.1 ; ±0.05; or less.

其它用於XRDP分析的方法及設備之細節在「實例」章節中描述。 Details of other methods and equipment for XRDP analysis are described in the "Examples" section.

在一具體實施例中,結晶形式通過示差掃描熱分析(DSC)來特徵化。DSC圖譜典型地係以瓦特/克(「W/g」)為單位的標準化熱流對以攝氏溫度為單位的測量樣本溫度作圖之圖形表現。DSC圖譜通常用來評估外插起始及終(outset)溫度、峰值溫度及熔化熱。DSC圖譜的峰特徵值通常用作區分此種晶體結構與其它晶體結構之特徵峰值。 In a specific embodiment, the crystalline form is characterized by Differential Scanning Thermal Analysis (DSC). A DSC pattern is typically a graphical representation of normalized heat flow in watts per gram ("W/g") plotted against the measured sample temperature in degrees Celsius. DSC spectra are commonly used to estimate extrapolated onset and outset temperatures, peak temperatures, and heat of fusion. The peak characteristic value of the DSC spectrum is usually used as the characteristic peak to distinguish this crystal structure from other crystal structures.

熟習此技藝者認知同一化合物之給定結晶形式之DSC圖譜之量測結果將在誤差範圍內變化。單一峰特徵值的值(以攝氏度表示)允許適當的誤差範圍。典型地,誤差範圍係以「±」表示。例如,單一峰特徵值約「53.09±2.0」表示從約53.09+2(即,約55.09)到約53.09-2(即,約51.09)的範圍。取決於樣品製備技術,應用於儀器校準技術、人為操作變異等,熟習此技藝者認知適當的單一峰特徵值的誤差範圍可為約±2.5;±2.0;±1.5;±1.0;±0.5;或更小。 Those skilled in the art recognize that measurements of DSC spectra for a given crystalline form of the same compound will vary within a margin of error. The values of the single peak eigenvalues (expressed in degrees Celsius) allow for an appropriate margin of error. Typically, the margin of error is expressed as "±". For example, a single peak characteristic value of about "53.09±2.0" represents a range from about 53.09+2 (ie, about 55.09) to about 53.09-2 (ie, about 51.09). Depending on sample preparation techniques, applied instrument calibration techniques, human manipulation variations, etc., the error range for a single peak characteristic value that is known to those skilled in the art as appropriate may be about ±2.5; ±2.0; ±1.5; ±1.0; ±0.5; or smaller.

其它用於DSC圖譜分析的方法及設備之細節在「實例」章節中描述。 Details of other methods and apparatus for DSC pattern analysis are described in the "Examples" section.

在一具體實施例中,結晶形式通過由拉曼光譜來特徵化。拉曼光譜典型地係以峰值的拉曼強度對峰值的拉曼位移作圖之圖形來表示。拉曼光譜中的「峰」亦稱為「吸收帶」。強度通常以下列縮寫顯示於括號中:強=st;中等=m;弱=w。一個給定的拉曼光譜的特徵峰值可以根據峰值的位置及其相對強度來選擇,以便於區分此種晶體結構與其它晶體結構。 In a specific embodiment, the crystalline form is characterized by Raman spectroscopy. Raman spectra are typically represented as a graph of the Raman intensity of a peak versus the Raman shift of the peak. The "peaks" in the Raman spectrum are also called "absorption bands". Intensities are usually shown in parentheses with the following abbreviations: strong=st; moderate=m; weak=w. The characteristic peaks of a given Raman spectrum can be selected based on the location of the peaks and their relative intensities, in order to distinguish this crystal structure from other crystal structures.

熟習此技藝者認知同一化合物之給定結晶形式之拉曼峰值位移及/或強度的量測結果將在誤差範圍內變化。峰值位移的值,用逆波數(cm-1)表示,允許適當的誤差範圍。典型地,誤差範圍係以「±」表示。例如,約「1310±10」拉曼位移的表示從約1310+10(即,約1320)到約1310-10(即,約1300)的 範圍。取決於樣品製備技術,應用於儀器校準技術、人為操作變異等,熟習此技藝者認知適當的單一峰特徵值的誤差範圍可為±12;±10;±8;±5;±3;±1;或更小。 Those skilled in the art recognize that measurements of Raman peak shift and/or intensity for a given crystalline form of the same compound will vary within a margin of error. The value of the peak displacement, expressed in inverse wavenumber (cm -1 ), allows for an appropriate margin of error. Typically, the margin of error is expressed as "±". For example, a representation of a Raman shift of about "1310±10" ranges from about 1310+10 (ie, about 1320) to about 1310-10 (ie, about 1300). Depending on the sample preparation technique, applied instrument calibration techniques, human manipulation variation, etc., the error range of the appropriate single peak characteristic value for those skilled in the art may be ±12; ±10; ±8; ±5; ±3; ±1 ; or less.

其它用於拉曼光譜分析的方法和設備之細節在「實例」章節中描述。 Details of other methods and apparatus for Raman spectroscopy analysis are described in the "Examples" section.

在一具體實施例中,化合物I(游離鹼)之結晶形式。在部分具體實施例中,化合物I(游離鹼)之結晶形式呈現不同的多晶型物。化合物I(游離鹼)之結晶形式的實例包括但不限於多晶型物A、C、E及G,如其後章節中所定義。 In a specific embodiment, the crystalline form of Compound I (free base). In some embodiments, the crystalline form of Compound 1 (free base) exhibits different polymorphs. Examples of crystalline forms of Compound I (free base) include, but are not limited to, polymorphs A, C, E, and G, as defined in the following sections.

在部分具體實施例中,多晶型物的一種型態比其他型態更穩定。在一具體實施例中,化合物I(游離鹼)之結晶形式的多晶型物A顯示出高穩定性。在部分具體實施例中,化合物I(游離鹼)的不同多晶型物在某些條件下轉變為另一種多晶型形態。在部分具體實施例中,在合適的條件下,多晶型物C、E及/或G轉變為多晶型物A。在一具體實施例中,多晶型物C、E及G每一者在室溫或上升溫度的溶液中,獨立地轉變為多晶型物A。多晶型物A是熱力學最穩定的型態;然而,其它形式在某些條件下可被形成或對動力學有利。 In some embodiments, one form of a polymorph is more stable than other forms. In a specific embodiment, Polymorph A, the crystalline form of Compound I (free base) exhibits high stability. In some specific embodiments, different polymorphic forms of Compound 1 (free base) are converted to another polymorphic form under certain conditions. In some embodiments, polymorphs C, E and/or G are converted to polymorph A under suitable conditions. In a specific embodiment, each of polymorphs C, E, and G independently converts to polymorph A in solution at room temperature or at elevated temperature. Polymorph A is the most thermodynamically stable form; however, other forms may be formed or kinetically favorable under certain conditions.

在本發明的一具體實施例中,化合物I之結晶形式可包括化合物I之多晶型物的一或多種型態的混合物。在部分具體實施例中,化合物I之結晶形式可包含實質上精純形式的單一多晶型類型。在一具體實施例中,化合物I之結晶形式可包含超過約99.9%、約99.8%、約99.7%、約99.6%、約99.5%、約99.4%、約99.3%、約99.2%、約99.1%或約99.0%之化合物I的單一多晶型物。在另一具體實施例中,化合物I之結晶形式可包括超過約99%、98%、97%、96%、95%、94%、 93%、92%、91%或90%之化合物I的單一多晶型物。在一具體實施例中,化合物I之結晶形式可包括超過約90%、85%、80%、75%、70%、65%、60%、55%、50%、45%或40%之化合物I的單一多晶型物。 In one embodiment of the present invention, the crystalline form of Compound 1 may comprise a mixture of one or more forms of the polymorph of Compound 1. In some embodiments, the crystalline form of Compound 1 may comprise a single polymorphic form in substantially pure form. In a specific embodiment, the crystalline form of Compound 1 may comprise more than about 99.9%, about 99.8%, about 99.7%, about 99.6%, about 99.5%, about 99.4%, about 99.3%, about 99.2%, about 99.1% or about 99.0% of the single polymorph of Compound I. In another specific embodiment, the crystalline form of Compound 1 may comprise more than about 99%, 98%, 97%, 96%, 95%, 94%, 93%, 92%, 91% or 90% of the single polymorph of Compound I. In a specific embodiment, the crystalline form of Compound 1 may comprise more than about 90%, 85%, 80%, 75%, 70%, 65%, 60%, 55%, 50%, 45%, or 40% of the compound Single polymorph of I.

在本發明的一具體實施例中,化合物I之結晶形式可包含至少約99.9%、約99.8%、約99.7%、約99.6%、約99.5%、約99.4%、約99.3%、約99.2%、約99.1%、約99.0%、約98%、約97%、約96%、約95%、約94%、約93%、約92%、約91%、約90%或約85%之化合物I(游離鹼)的多晶型物A。 In an embodiment of the present invention, the crystalline form of Compound I may comprise at least about 99.9%, about 99.8%, about 99.7%, about 99.6%, about 99.5%, about 99.4%, about 99.3%, about 99.2%, About 99.1%, about 99.0%, about 98%, about 97%, about 96%, about 95%, about 94%, about 93%, about 92%, about 91%, about 90%, or about 85% of Compound 1 Polymorph A (free base).

在本發明的一具體實施例中,化合物I之結晶形式可為化合物I(游離鹼)的多晶型物A,其包括約0.1%、0.2%、0.3%、0.4%、0.5%、0.6%、0.7%、0.8%、0.9%、1%、1.5%、2%、2.5%、3%、3.5%、4%、4.5%、5%、5.5%、6%、6.5%、7%、7.5%、8%、8.5%、9%、9.5%、10%、11%、12%、13%、14%、15%、16%、17%、18%、19%或20%之多晶型物C、E或G或其混合物。 In one embodiment of the present invention, the crystalline form of Compound I may be the polymorph A of Compound I (free base), which includes about 0.1%, 0.2%, 0.3%, 0.4%, 0.5%, 0.6% , 0.7%, 0.8%, 0.9%, 1%, 1.5%, 2%, 2.5%, 3%, 3.5%, 4%, 4.5%, 5%, 5.5%, 6%, 6.5%, 7%, 7.5 %, 8%, 8.5%, 9%, 9.5%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19% or 20% polymorphs Substances C, E or G or mixtures thereof.

在本發明的一具體實施例中,化合物I之結晶形式可為化合物I(游離鹼)的多晶型物C,其包括約0.1%、0.2%、0.3%、0.4%、0.5%、0.6%、0.7%、0.8%、0.9%、1%、1.5%、2%、2.5%、3%、3.5%、4%、4.5%、5%、5.5%、6%、6.5%、7%、7.5%、8%、8.5%、9%、9.5%、10%、11%、12%、13%、14%、15%、16%、17%、18%、19%或20%之多晶型物A。 In an embodiment of the present invention, the crystalline form of Compound I may be the polymorph C of Compound I (free base), which includes about 0.1%, 0.2%, 0.3%, 0.4%, 0.5%, 0.6% , 0.7%, 0.8%, 0.9%, 1%, 1.5%, 2%, 2.5%, 3%, 3.5%, 4%, 4.5%, 5%, 5.5%, 6%, 6.5%, 7%, 7.5 %, 8%, 8.5%, 9%, 9.5%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19% or 20% polymorphs item A.

在本發明的一具體實施例中,化合物I之結晶形式可為化合物I(游離鹼)的多晶型物E,其包括約0.1%、0.2%、0.3%、0.4%、0.5%、0.6%、0.7%、0.8%、0.9%、1%、1.5%、2%、2.5%、3%、3.5%、4%、4.5%、5%、5.5%、6%、6.5%、7%、7.5%、8%、8.5%、9%、9.5%、10%、11%、12%、13%、14%、15%、16%、17%、18%、19%或20%之多晶型物A。 In one embodiment of the present invention, the crystalline form of Compound I may be the polymorph E of Compound I (free base), which includes about 0.1%, 0.2%, 0.3%, 0.4%, 0.5%, 0.6% , 0.7%, 0.8%, 0.9%, 1%, 1.5%, 2%, 2.5%, 3%, 3.5%, 4%, 4.5%, 5%, 5.5%, 6%, 6.5%, 7%, 7.5 %, 8%, 8.5%, 9%, 9.5%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19% or 20% polymorphs item A.

在本發明的一具體實施例中,化合物I之結晶形式可為化合物I(游離鹼)的多晶型物G,其包括約0.1%、0.2%、0.3%、0.4%、0.5%、0.6%、0.7%、0.8%、0.9%、1%、1.5%、2%、2.5%、3%、3.5%、4%、4.5%、5%、5.5%、6%、6.5%、7%、7.5%、8%、8.5%、9%、9.5%、10%、11%、12%、13%、14%、15%、16%、17%、18%、19%或20%之多晶型物A。 In an embodiment of the present invention, the crystalline form of Compound I may be the polymorph G of Compound I (free base), which includes about 0.1%, 0.2%, 0.3%, 0.4%, 0.5%, 0.6% , 0.7%, 0.8%, 0.9%, 1%, 1.5%, 2%, 2.5%, 3%, 3.5%, 4%, 4.5%, 5%, 5.5%, 6%, 6.5%, 7%, 7.5 %, 8%, 8.5%, 9%, 9.5%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19% or 20% polymorphs item A.

在一具體實施例中,本發明提供的化合物I之結晶形式是高純度的。在本發明的一具體實施例中,化合物I之結晶形式的純度可為至少99.9%、約99.8%、約99.7%、約99.6%、約99.5%、約99.4%、約99.3%、約99.2%、約99.1%、約99.0%、約98%、約97%、約96%、約95%、約94%、約93%、約92%、約91%或約90%之化合物I純度。 In a specific embodiment, the crystalline form of Compound I provided by the present invention is of high purity. In an embodiment of the invention, the crystalline form of Compound 1 may be at least 99.9%, about 99.8%, about 99.7%, about 99.6%, about 99.5%, about 99.4%, about 99.3%, about 99.2% pure , about 99.1%, about 99.0%, about 98%, about 97%, about 96%, about 95%, about 94%, about 93%, about 92%, about 91%, or about 90% pure compound I.

其它用於表徵本發明結晶形式之方法在「實例」章節中描述。 Other methods for characterizing the crystalline forms of the present invention are described in the "Examples" section.

多晶型物APolymorph A

在一具體實施例中,化合物I(游離鹼)之多晶型物A表現出的XRDP包含峰值於2θ約7.730、22.050及24.550度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I(游離鹼)之結晶多晶型物A的XRDP進一步包含峰值於2θ約9.410及27.700度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在又一具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式進一步包含峰值於2θ約17.950及25.400度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式進一步包含至少一峰值於2θ約11.230、11.630、16.900、18.580、23.300及26.700度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在又一 具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式表現出之XRDP包含如下表1中所示的峰值:

Figure 104141965-A0305-02-0026-25
In a specific embodiment, Polymorph A of Compound 1 (free base) exhibits an XRDP comprising peaks at about 7.730, 22.050 and 24.550 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another specific embodiment, the XRDP of crystalline polymorph A of Compound 1 (free base) further comprises peaks at about 9.410 and 27.700 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.3; 0.2; about ±0.1; about ±0.05; or less. In yet another embodiment, the crystalline form of Polymorph A of Compound 1 (free base) further comprises peaks at about 17.950 and 25.400 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.3; 0.2; about ±0.1; about ±0.05; or less. In another embodiment, the crystalline form of Polymorph A of Compound I (free base) further comprises at least one peak at about 11.230, 11.630, 16.900, 18.580, 23.300, and 26.700 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In yet another embodiment, the crystalline form of Polymorph A of Compound 1 (free base) exhibits an XRDP comprising the peaks shown in Table 1 below:
Figure 104141965-A0305-02-0026-25

在一特定具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式顯示出的XRDP實質上相似於圖1。 In a specific embodiment, the crystalline form of Polymorph A of Compound I (free base) exhibits an XRDP substantially similar to that of FIG. 1 .

在一具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式表現出的DSC圖譜包含一尖銳的吸熱峰於約215.41℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0;約±0.5;或更小。在另一具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式進一步表現出的DSC圖譜包含下列一或多個峰值:於約216.92±2.0℃的放熱峰、於約230.56±2.0℃的吸熱峰、於約232.84±2.0℃的放熱峰以及於約241.56±2.0℃的吸熱峰。在一特定具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式顯示出的DSC圖譜實質上相似於圖2。 In a specific embodiment, the crystalline form of Polymorph A of Compound I (free base) exhibits a DSC pattern comprising a sharp endothermic peak at about 215.41°C, with a margin of error of about ±2.5; about ±2.0; about ±2.0; 1.5; about ±1.0; about ±0.5; or less. In another embodiment, the crystalline form of Polymorph A of Compound I (free base) further exhibits a DSC pattern comprising one or more of the following peaks: an exothermic peak at about 216.92±2.0°C, an exothermic peak at about 230.56 Endothermic peak at ±2.0°C, exothermic peak at about 232.84±2.0°C, and endothermic peak at about 241.56±2.0°C. In a specific embodiment, the crystalline form of Polymorph A of Compound I (the free base) exhibits a DSC pattern substantially similar to that of FIG. 2 .

在一具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式表現出之1H NMR光譜實質上相似於圖5。在另一具體實施例中,化合物I(游離鹼)之多晶型物A的結晶形式在巨觀尺度(macroscopic scale)上可具有細針狀形成鬆散結合塊狀物的晶相,其實質上相似於圖6A及6B。 In one embodiment, the crystalline form of Polymorph A of Compound I (the free base) exhibits a 1 H NMR spectrum substantially similar to that of FIG. 5 . In another embodiment, the crystalline form of Polymorph A of Compound I (free base) may have a fine needle-like crystal phase on a macroscopic scale that forms a loosely bound mass, which is substantially Similar to Figures 6A and 6B.

多晶型物CPolymorph C

在一具體實施例中,化合物I(游離鹼)之多晶型物C表現出的XRDP包含峰值於2θ約5.720度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I(游離鹼)之結晶多晶型物C的結晶形式表現出的XRDP包含如下表2中所示的峰值:

Figure 104141965-A0305-02-0027-4
Figure 104141965-A0305-02-0028-5
In a specific embodiment, polymorph C of Compound 1 (free base) exhibits an XRDP comprising a peak at about 5.720 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another specific embodiment, the crystalline form of crystalline polymorph C of Compound 1 (free base) exhibits an XRDP comprising the peaks shown in Table 2 below:
Figure 104141965-A0305-02-0027-4
Figure 104141965-A0305-02-0028-5

在一特定的具體實施例中,化合物I(游離鹼)之多晶型物C的結晶形式顯示出的XRDP實質上相似於圖7。 In a specific embodiment, the crystalline form of polymorph C of Compound I (free base) exhibits an XRDP substantially similar to that of FIG. 7 .

在一具體實施例中,化合物I(游離鹼)之多晶型物C的結晶形式表現出的DSC圖譜包含峰特徵值於約246.47℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0;約±0.5;或更小。在一特定的具體實施例中,化合物I(游離鹼)之多晶型物C的結晶形式顯示出的DSC圖譜實質上相似於圖8。 In a specific embodiment, the crystalline form of Polymorph C of Compound I (the free base) exhibits a DSC pattern comprising peak characteristic values at about 246.47°C with a margin of error of about ±2.5; about ±2.0; about ±1.5; about ±1.0; about ±0.5; or less. In a specific embodiment, the crystalline form of polymorph C of Compound I (free base) exhibits a DSC pattern substantially similar to that of FIG. 8 .

在一具體實施例中,化合物I(游離鹼)之多晶型物C的結晶形式表現出之1H NMR光譜實質上相似於圖9。在另一具體實施例中,化合物I(游離鹼)之多晶型物C的結晶形式在巨觀尺度上可由針狀附聚物組成,其實質上相似於圖10A及10B。 In one embodiment, the crystalline form of polymorph C of Compound I (the free base) exhibits a 1 H NMR spectrum substantially similar to FIG. 9 . In another embodiment, the crystalline form of polymorph C of Compound I (free base) may consist of needle-like agglomerates on a macroscopic scale, which are substantially similar to Figures 10A and 10B.

多晶型物EPolymorph E

在一具體實施例中,化合物I(游離鹼)之多晶型物E表現出的XRDP包含峰值於2θ約5.680度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I(游離鹼)之結晶多晶型物E的XRDP進一步包含至少一峰值於2θ12.200、12.600、25.360及27.560度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在又一具體 實施例中,化合物I(游離鹼)之多晶型物E的結晶形式表現出的XRDP包含如下表3中所示的峰值:

Figure 104141965-A0305-02-0029-6
Figure 104141965-A0305-02-0030-7
In a specific embodiment, Polymorph E of Compound 1 (free base) exhibits an XRDP comprising a peak at about 5.680 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another embodiment, the XRDP of the crystalline polymorph E of Compound I (free base) further comprises at least one peak at 2θ 12.200, 12.600, 25.360 and 27.560 degrees, with an error range of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In yet another specific embodiment, the crystalline form of Polymorph E of Compound I (free base) exhibits an XRDP comprising the peaks shown in Table 3 below:
Figure 104141965-A0305-02-0029-6
Figure 104141965-A0305-02-0030-7

在一特定的具體實施例中,化合物I(游離鹼)之多晶型物E的結晶形式顯示出的XRDP實質上相似於圖11。 In a specific embodiment, the crystalline form of polymorph E of Compound I (free base) exhibits an XRDP substantially similar to that of FIG. 11 .

在一具體實施例中,化合物I(游離鹼)之多晶型物E的結晶形式表現出的DSC圖譜包含峰特徵值於約231.99℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0;約±0.5;或更小。在一特定的具體實施例中,化合物I(游離鹼)之多晶型物E的結晶形式顯示出的DSC圖譜實質上相似於圖12。 In a specific embodiment, the crystalline form of Polymorph E of Compound I (the free base) exhibits a DSC pattern comprising peak characteristic values at about 231.99°C with a margin of error of about ±2.5; about ±2.0; about ±1.5; about ±1.0; about ±0.5; or less. In a specific embodiment, the crystalline form of polymorph E of Compound I (free base) exhibits a DSC pattern substantially similar to that of FIG. 12 .

在一具體實施例中,化合物I(游離鹼)之多晶型物E的結晶形式表現出之1H NMR光譜實質上相似於圖13。在另一具體實施例中,化合物I(游離鹼)之多晶型物E的結晶形式實質上相似於圖14A及14B。 In one embodiment, the crystalline form of polymorph E of Compound I (free base) exhibits a 1 H NMR spectrum substantially similar to that of FIG. 13 . In another embodiment, the crystalline form of Polymorph E of Compound I (free base) is substantially similar to Figures 14A and 14B.

多晶型物GPolymorph G

在一具體實施例中,化合物I(游離鹼)之多晶型物G表現出的XRDP包含峰值於2θ約5.000及6.060度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I(游離鹼)之多晶型物G的結晶形式表現出的XRDP包含如下表4中所示的峰值:

Figure 104141965-A0305-02-0030-8
Figure 104141965-A0305-02-0031-9
In a specific embodiment, polymorph G of Compound I (free base) exhibits an XRDP comprising peaks at about 5.000 and 6.060 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2 ; about ±0.1; about ±0.05; or less. In another specific embodiment, the crystalline form of Polymorph G of Compound I (free base) exhibits an XRDP comprising the peaks shown in Table 4 below:
Figure 104141965-A0305-02-0030-8
Figure 104141965-A0305-02-0031-9

在一特定的具體實施例中,化合物I(游離鹼)之多晶型物G的結晶形式顯示出的XRDP實質上相似於圖16。 In a specific embodiment, the crystalline form of polymorph G of Compound I (free base) exhibits an XRDP substantially similar to that of FIG. 16 .

在一具體實施例中,化合物I(游離鹼)之多晶型物G的結晶形式表現出的DSC圖譜包含峰特徵值於約222.11℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0;約±0.5;或更小。在一特定的具體實施例中,化合物I(游離鹼)之多晶型物G的結晶形式顯示出的DSC圖譜實質上相似於圖17。 In a specific embodiment, the crystalline form of polymorph G of Compound I (free base) exhibits a DSC pattern comprising peak characteristic values at about 222.11°C, with a margin of error of about ±2.5; about ±2.0; about ±1.5; about ±1.0; about ±0.5; or less. In a specific embodiment, the crystalline form of polymorph G of Compound I (free base) exhibits a DSC pattern substantially similar to that of FIG. 17 .

在一具體實施例中,化合物I(游離鹼)之多晶型物G的結晶形式表現出之1H NMR光譜實質上相似於圖18。在另一具體實施例中,化合物I(游離鹼)之多晶型物G的結晶形式實質上相似於圖19A及19B。 In one embodiment, the crystalline form of polymorph G of Compound I (free base) exhibits a 1 H NMR spectrum substantially similar to FIG. 18 . In another embodiment, the crystalline form of Polymorph G of Compound I (free base) is substantially similar to Figures 19A and 19B.

化合物I之鹽酸鹽Compound I hydrochloride

在一具體實施例中,化合物I之鹽酸鹽的結晶形式表現出的XRDP包含峰值於2θ約4.660及24.540度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之鹽酸鹽的結晶形式的XRDP進一步包含一、二、三或四個峰值,於選自下列的2θ:19.260、20.160、24.920及26.360度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之鹽酸鹽的結晶形式進一步包含一、二或三個峰值,於選自下列的2θ:13.980、14.540、25.380及28.940度,誤差範圍 約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在又一具體實施例中,化合物I之鹽酸鹽的結晶形式表現出之XRDP包含如下表6中所示的峰值:

Figure 104141965-A0305-02-0032-10
In a specific embodiment, the crystalline form of the hydrochloride salt of Compound 1 exhibits an XRDP comprising peaks at about 4.660 and 24.540 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.2; 0.1; about ±0.05; or less. In another embodiment, the XRDP of the crystalline form of the hydrochloride salt of Compound I further comprises one, two, three or four peaks at 2θ selected from the group consisting of: 19.260, 20.160, 24.920 and 26.360 degrees, with a margin of error of approx. ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another specific embodiment, the crystalline form of the hydrochloride salt of Compound I further comprises one, two or three peaks at 2θ selected from the group consisting of: 13.980, 14.540, 25.380 and 28.940 degrees with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In yet another embodiment, the crystalline form of the hydrochloride salt of Compound 1 exhibits an XRDP comprising the peaks shown in Table 6 below:
Figure 104141965-A0305-02-0032-10

在一特定的具體實施例中,化合物I之鹽酸鹽的結晶形式顯示出的XRDP實質上相似於圖21。 In a specific embodiment, the crystalline form of the hydrochloride salt of Compound 1 exhibits an XRDP substantially similar to FIG. 21 .

在一具體實施例中,化合物I之鹽酸鹽的結晶形式表現出的DSC圖譜包含峰特徵值於約266.27℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0;約±0.5;或更小。在一特定的具體實施例中,化合物I之鹽酸鹽的結晶形式顯示 出的DSC圖譜實質上相似於圖22。在一具體實施例中,化合物I之鹽酸鹽的結晶形式不具有明顯的熔點。 In a specific embodiment, the crystalline form of the hydrochloride salt of Compound I exhibits a DSC pattern comprising peak characteristic values at about 266.27°C, with a margin of error of about ±2.5; about ±2.0; about ±1.5; about ±1.0; 0.5; or less. In a specific embodiment, the crystalline form of the hydrochloride salt of Compound 1 shows The resulting DSC spectrum is substantially similar to Figure 22. In a specific embodiment, the crystalline form of the hydrochloride salt of Compound I does not have a distinct melting point.

在一具體實施例中,化合物I之鹽酸鹽的結晶形式表現出之1H NMR光譜實質上相似於圖23。在另一具體實施例中,化合物I之鹽酸鹽的結晶形式在巨觀尺度上由小針狀形成之黏聚物組成,其實質上相似於圖24。在一具體實施例中,鹽酸及化合物I在化合物I之鹽酸鹽中的比例為約1:1。 In one embodiment, the crystalline form of the hydrochloride salt of Compound 1 exhibits a 1 H NMR spectrum substantially similar to that of FIG. 23 . In another embodiment, the crystalline form of the hydrochloride salt of Compound I consists of cohesive aggregates formed in small needles on a macroscopic scale, which is substantially similar to FIG. 24 . In a specific embodiment, the ratio of hydrochloric acid and Compound I in the hydrochloride salt of Compound I is about 1:1.

化合物I之馬來酸鹽Maleate of Compound I

在一具體實施例中,化合物I之馬來酸鹽的結晶形式表現出的XRDP包含峰值於2θ約7.400、18.440及26.500度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之結晶馬來酸鹽的XRDP進一步包含一、二、三或四個峰值,於選自下列的2θ:22.320、23.920、24.300及25.240度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之結晶馬來酸鹽進一步包含一、二、三、或四個峰值,於選自下列的2θ:約5.040、15.080、15.880、20.860及28.540度中選出,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在又一具體實施例中,化合物I之馬來酸鹽的結晶形式表現出之XRDP包含如下表7中所示的峰值:

Figure 104141965-A0305-02-0033-11
Figure 104141965-A0305-02-0034-12
In a specific embodiment, the crystalline form of the maleate salt of Compound I exhibits an XRDP comprising peaks at about 7.400, 18.440, and 26.500 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2 ; about ±0.1; about ±0.05; or less. In another embodiment, the XRDP of the crystalline maleate salt of Compound I further comprises one, two, three or four peaks at 2θ selected from the group consisting of: 22.320, 23.920, 24.300 and 25.240 degrees, with an error range of about ± about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another embodiment, the crystalline maleate salt of Compound 1 further comprises one, two, three, or four peaks selected from the group consisting of 2Θ selected from about 5.040, 15.080, 15.880, 20.860, and 28.540 degrees, The margin of error is about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In yet another embodiment, the crystalline form of the maleate salt of Compound 1 exhibits an XRDP comprising the peaks shown in Table 7 below:
Figure 104141965-A0305-02-0033-11
Figure 104141965-A0305-02-0034-12

在一特定的具體實施例中,化合物I之馬來酸鹽的結晶形式顯示出的XRDP實質上相似於圖26。 In a specific embodiment, the crystalline form of the maleate salt of Compound 1 exhibits an XRDP substantially similar to that of FIG. 26 .

在一具體實施例中,化合物I之馬來酸鹽的結晶形式表現出的DSC圖譜包含峰特徵值於約217.32℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0; 約±0.5;或更小。在一特定的具體實施例中,化合物I之馬來酸鹽的結晶形式顯示出的DSC圖譜實質上相似於圖27。 In a specific embodiment, the crystalline form of the maleate salt of Compound I exhibits a DSC pattern comprising peak characteristic values at about 217.32°C, with a margin of error of about ±2.5; about ±2.0; about ±1.5; about ±1.0; about ±0.5; or less. In a specific embodiment, the crystalline form of the maleate salt of Compound 1 exhibits a DSC pattern substantially similar to that of FIG. 27 .

在一具體實施例中,化合物I之馬來酸鹽的結晶形式表現出之1H NMR光譜實質上相似於圖28。在另一具體實施例中,化合物I之馬來酸鹽的結晶形式在巨觀尺度上由小針狀形成之黏聚物組成,其實質上相似於圖29。在一具體實施例中,馬來酸及化合物I在化合物I之馬來酸鹽中的比例為約1:1。 In one embodiment, the crystalline form of the maleate salt of Compound 1 exhibits a &lt ;1 >H NMR spectrum substantially similar to Figure 28. In another embodiment, the crystalline form of the maleate salt of Compound I consists of small needle-like cohesive aggregates on a macroscopic scale, which is substantially similar to FIG. 29 . In a specific embodiment, the ratio of maleic acid and Compound I in the maleate salt of Compound I is about 1:1.

化合物I之富馬酸鹽Fumarate of compound I

在一具體實施例中,化合物I之富馬酸鹽的結晶形式表現出的XRDP包含峰值於2θ約6.360及24.800度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之結晶富馬酸鹽的XRDP進一步包含至少一、二或三個峰值由約19.660、20.420及26.860度中選出,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之結晶富馬酸鹽的XRDP進一步包含一、二、三或四個峰值於2θ約12.680、17.020、25.180及28.280度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在又一具體實施例中,化合物I之富馬酸鹽的結晶形式表現出之XRDP包含如下表8中所示的峰值:

Figure 104141965-A0305-02-0035-13
Figure 104141965-A0305-02-0036-14
In a specific embodiment, the crystalline form of the fumarate salt of Compound I exhibits an XRDP comprising peaks at about 6.360 and 24.800 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another specific embodiment, the XRDP of the crystalline fumarate salt of Compound I further comprises at least one, two or three peaks selected from about 19.660, 20.420 and 26.860 degrees, with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another embodiment, the XRDP of the crystalline fumarate salt of Compound I further comprises one, two, three or four peaks at about 12.680, 17.020, 25.180 and 28.280 degrees 2θ with a margin of error of about ±0.5; about ±0.4 about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In yet another embodiment, the crystalline form of the fumarate salt of Compound 1 exhibits an XRDP comprising the peaks shown in Table 8 below:
Figure 104141965-A0305-02-0035-13
Figure 104141965-A0305-02-0036-14

在一特定的具體實施例中,化合物I之富馬酸鹽的結晶形式顯示出的XRDP實質上相似於圖31。 In a specific embodiment, the crystalline form of the fumarate salt of Compound 1 exhibits an XRDP substantially similar to that of FIG. 31 .

在一具體實施例中,化合物I之富馬酸鹽的結晶形式表現出的DSC圖譜包含峰特徵值於約222.40℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0;約±0.5;或更小。在一特定的具體實施例中,化合物I之富馬酸鹽的結晶形式顯示出的DSC圖譜實質上相似於圖32。 In a specific embodiment, the crystalline form of the fumarate salt of Compound I exhibits a DSC pattern comprising peak characteristic values at about 222.40°C, with a margin of error of about ±2.5; about ±2.0; about ±1.5; about ±1.0; about ±0.5; or less. In a specific embodiment, the crystalline form of the fumarate salt of Compound 1 exhibits a DSC pattern substantially similar to that of FIG. 32 .

在一具體實施例中,化合物I之富馬酸鹽的結晶形式表現出之1H NMR光譜實質上相似於圖33。在另一具體實施例中,化合物I之富馬酸鹽的結晶形式在巨觀尺度上由小針狀形成之黏聚物組成,其實質上相似於圖34。在一具體實施例中,富馬酸及化合物I在化合物I之富馬酸鹽中的比例為約1:1。 In one embodiment, the crystalline form of the fumarate salt of Compound 1 exhibits a 1 H NMR spectrum substantially similar to FIG. 33 . In another embodiment, the crystalline form of the fumarate salt of Compound I consists of small needle-like cohesives on a macroscopic scale, which is substantially similar to FIG. 34 . In a specific embodiment, the ratio of fumaric acid and Compound I in the fumarate salt of Compound I is about 1:1.

化合物I之檸檬酸鹽Citrate of compound I

在一具體實施例中,化合物I之檸檬酸鹽的結晶形式表現出的XRDP包含峰值於2θ約4.900、25.380及27.500度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之結晶檸檬酸鹽的XRDP進一步包含至少一、二、三或四個峰值於2θ約15.360、18.100、19.300及26.140度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之結晶檸檬酸鹽進一步包含至少一、二、三或四個峰值於2θ約17.400、18.680、24.040及26.740度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在又一具體實施例中,化合物I之檸檬酸鹽的結晶形式表現出之XRDP包含如下表9中所示的峰值:

Figure 104141965-A0305-02-0037-15
Figure 104141965-A0305-02-0038-16
In a specific embodiment, the crystalline form of the citrate salt of Compound 1 exhibits an XRDP comprising peaks at about 4.900, 25.380 and 27.500 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another embodiment, the XRDP of the crystalline citrate salt of Compound I further comprises at least one, two, three or four peaks at about 15.360, 18.100, 19.300 and 26.140 degrees 2Θ with a margin of error of about ±0.5; about ±0.4 about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another specific embodiment, the crystalline citrate salt of Compound I further comprises at least one, two, three or four peaks at about 17.400, 18.680, 24.040 and 26.740 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In yet another embodiment, the crystalline form of the citrate salt of Compound 1 exhibits an XRDP comprising the peaks shown in Table 9 below:
Figure 104141965-A0305-02-0037-15
Figure 104141965-A0305-02-0038-16

在一特定的具體實施例中,化合物I之檸檬酸鹽的結晶形式顯示出的XRDP實質上相似於圖36。 In a specific embodiment, the crystalline form of the citrate salt of Compound 1 exhibits an XRDP substantially similar to FIG. 36 .

在一具體實施例中,化合物I之檸檬酸鹽的結晶形式表現出的DSC圖譜包含峰特徵值於約196.86℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0;約±0.5;或更小。在一特定的具體實施例中,化合物I之檸檬酸鹽的結晶形式顯示出的DSC圖譜實質上相似於圖37。 In a specific embodiment, the crystalline form of the citrate salt of Compound I exhibits a DSC pattern comprising peak characteristic values at about 196.86°C, with an error range of about ±2.5; about ±2.0; about ±1.5; about ±1.0; about ±1.0; 0.5; or less. In a specific embodiment, the crystalline form of the citrate salt of Compound 1 exhibits a DSC pattern substantially similar to that of FIG. 37 .

在一具體實施例中,化合物I之檸檬酸鹽的結晶形式表現出之1H NMR光譜實質上相似於圖38。在另一具體實施例中,化合物I之檸檬酸鹽的結晶形式在巨觀尺度上由小針狀形成之黏聚物組成,其實質上相似於圖39。在一具體實施例中,檸檬酸及化合物I在化合物I之檸檬酸鹽中的比例為約1:1。 In one embodiment, the crystalline form of the citrate salt of Compound 1 exhibits a &lt ;1 >H NMR spectrum substantially similar to Figure 38. In another embodiment, the crystalline form of the citrate salt of Compound I consists of cohesive aggregates formed in small needles on a macroscopic scale, which is substantially similar to FIG. 39 . In a specific embodiment, the ratio of citric acid and compound I in the citrate salt of compound I is about 1:1.

化合物I之L-蘋果酸鹽L-malate of compound I

在一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式表現出的XRDP包含峰值於2θ約6.580、6.780及25.560度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之結晶L-蘋 果酸鹽的XRDP進一步包含一、二、三、或四個峰值,於選自下列的2θ:約19.560、23.660、26.060及26.960度,誤差範圍約±0.7;約±0.6;約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。在另一具體實施例中,化合物I之結晶L-蘋果酸鹽進一步包含一、二、三、四或五個峰值,於選自下列的2θ:約8.800、11.800、18.600、24.460及25.080度,誤差範圍約±0.5;約±0.4;約±0.3;約±0.2;約±0.1;約±0.05;或更小。 In a specific embodiment, the crystalline form of the L-malate salt of Compound 1 exhibits an XRDP comprising peaks at about 6.580, 6.780 and 25.560 degrees 2Θ with a margin of error of about ±0.5; about ±0.4; about ±0.3; about ±0.3; 0.2; about ±0.1; about ±0.05; or less. In another specific embodiment, the crystalline L-apple of Compound I The XRDP of the fruit salt further comprises one, two, three, or four peaks at 2Θ selected from the group consisting of: about 19.560, 23.660, 26.060, and 26.960 degrees, with a margin of error of about ±0.7; about ±0.6; about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less. In another specific embodiment, the crystalline L-malate salt of Compound I further comprises one, two, three, four or five peaks at 2Θ selected from the group consisting of: about 8.800, 11.800, 18.600, 24.460 and 25.080 degrees, The margin of error is about ±0.5; about ±0.4; about ±0.3; about ±0.2; about ±0.1; about ±0.05; or less.

在又一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式表現出之XRDP包含如下表10中所示的峰值:

Figure 104141965-A0305-02-0039-17
Figure 104141965-A0305-02-0040-18
In yet another embodiment, the crystalline form of the L-malate salt of Compound 1 exhibits an XRDP comprising the peaks shown in Table 10 below:
Figure 104141965-A0305-02-0039-17
Figure 104141965-A0305-02-0040-18

在一特定的具體實施例中,化合物I之L-蘋果酸鹽的結晶形式顯示出的XRDP實質上相似於圖41。 In a specific embodiment, the crystalline form of the L-malate salt of Compound 1 exhibits an XRDP substantially similar to that of FIG. 41 .

在一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式表現出的DSC圖譜包含峰特徵值於約209.67℃,誤差範圍約±2.5;約±2.0;約±1.5;約±1.0;約±0.5;或更小。在一特定的具體實施例中,化合物I之L-蘋果酸鹽的結晶形式顯示出的DSC圖譜實質上相似於圖42。 In a specific embodiment, the crystalline form of the L-malate salt of Compound I exhibits a DSC pattern comprising peak characteristic values at about 209.67°C, with a margin of error of about ±2.5; about ±2.0; about ±1.5; about ±1.0; about ±0.5; or less. In a specific embodiment, the crystalline form of the L-malate salt of Compound 1 exhibits a DSC pattern substantially similar to that of FIG. 42 .

在一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式表現出之1H NMR光譜實質上相似於圖43。在另一具體實施例中,化合物I之L-蘋果酸鹽的結晶形式在巨觀尺度上由小針狀形成之黏聚物組成,其實質上相似於圖44。在一具體實施例中,L-蘋果酸及化合物I在化合物I之L-蘋果酸鹽中的比例為約1:1。 In one embodiment, the crystalline form of the L-malate salt of Compound 1 exhibits a 1 H NMR spectrum substantially similar to FIG. 43 . In another embodiment, the crystalline form of the L-malate salt of Compound I consists of small needle-like agglomerates on a macroscopic scale, which is substantially similar to FIG. 44 . In a specific embodiment, the ratio of L-malic acid and Compound I in the L-malate salt of Compound I is about 1:1.

醫藥製劑Pharmaceutical preparations

在另一具體實施例中,本發明提供一種醫藥組合物,包含治療有效量的如本文所述化合物I或其醫藥上可接受的鹽、酯及/或溶劑合物的結晶形式,作為活性成分,與醫藥上可接受之賦形劑或載體組合。所述賦形劑為各種用途而添加到製劑中。 In another specific embodiment, the present invention provides a pharmaceutical composition comprising, as an active ingredient, a therapeutically effective amount of a crystalline form of Compound I as described herein, or a pharmaceutically acceptable salt, ester and/or solvate thereof , in combination with a pharmaceutically acceptable excipient or carrier. The excipients are added to formulations for various purposes.

本發明的製劑可加入稀釋劑。稀釋劑可增加固態醫藥組合物的體積,並且可使患者及護理者更易於處理含有組合物的藥物劑型。用於固態組合 物的稀釋劑包括,例如,微晶纖維素(如AVICEL)、微細纖維素、乳糖、澱粉、預膠凝澱粉、碳酸鈣、硫酸鈣、糖、葡萄糖結合劑、糊精、葡萄糖、二水合磷酸氫鈣、磷酸三鈣、高嶺土、碳酸鎂、氧化鎂、麥芽糖糊精、甘露醇、聚甲基丙烯酸酯(例如,EUDRAGIT®))、氯化鉀、粉狀纖維素、氯化鈉、山梨醇及滑石。 Diluents may be added to the formulations of the present invention. Diluents can increase the bulk of a solid pharmaceutical composition and can make it easier for patients and caregivers to handle the pharmaceutical dosage form containing the composition. for solid state combinations Diluents for compounds include, for example, microcrystalline cellulose (such as AVICEL), microfine cellulose, lactose, starch, pregelatinized starch, calcium carbonate, calcium sulfate, sugar, glucose binders, dextrin, glucose, phosphoric acid dihydrate Calcium hydrogen, tricalcium phosphate, kaolin, magnesium carbonate, magnesium oxide, maltodextrin, mannitol, polymethacrylates (eg, EUDRAGIT®)), potassium chloride, powdered cellulose, sodium chloride, sorbitol and talc.

經壓製成劑型之固態醫藥組合物,諸如錠劑,可包含賦形劑,其功能包括壓縮後幫助活性成分與其它賦形劑的結合。固態醫藥組合物使用的結合劑(binder)包括阿拉伯膠、藻酸、卡波姆(例如,聚羧乙烯)、羧甲基纖維素鈉、糊精、乙基纖維素、明膠、瓜爾膠、黃蓍膠、氫化植物油、羥乙基纖維素、羥丙基纖維素(例如,KLUCEL)、羥丙基甲基纖維素(例如,METHOCEL)、液體葡萄糖、矽酸鎂鋁、麥芽糖糊精、甲基纖維素、聚甲基丙烯酸酯、聚維酮(例如,KOLLIDON、PLASDONE)、預膠凝澱粉、藻酸鈉及澱粉。 Solid pharmaceutical compositions compressed into dosage forms, such as lozenges, may contain excipients whose functions include, after compression, aiding in binding of the active ingredient with other excipients. Binders used in solid pharmaceutical compositions include gum arabic, alginic acid, carbomer (eg, carbopol), sodium carboxymethyl cellulose, dextrin, ethyl cellulose, gelatin, guar gum, Gum tragacanth, hydrogenated vegetable oil, hydroxyethyl cellulose, hydroxypropyl cellulose (eg, KLUCEL), hydroxypropyl methylcellulose (eg, METHOCEL), liquid glucose, magnesium aluminum silicate, maltodextrin, methyl methacrylate Base cellulose, polymethacrylate, povidone (eg, KOLLIDON, PLASDONE), pregelatinized starch, sodium alginate, and starch.

可以藉由加入崩解劑至組合物中來增加經壓製的固態醫藥組合物在患者胃中的溶解速度。崩解劑包括藻酸、羧甲基纖維素鈣、羧甲基纖維素鈉(例如,AC-DI-SOL及PRIMELLOSE)、膠體二氧化矽、交聯羧甲基鈉、交聚維酮(例如,KOLLIDON及POLYPLASDONE)、瓜爾膠、矽酸鎂鋁、甲基纖維素、微晶纖維素、波拉克林鉀、粉狀纖維素、預膠凝澱粉、藻酸鈉、羥基乙酸澱粉鈉(例如,EXPLOTAB)、馬鈴薯澱粉及澱粉。 The rate of dissolution of the compressed solid pharmaceutical composition in the patient's stomach can be increased by adding a disintegrant to the composition. Disintegrants include alginic acid, calcium carboxymethylcellulose, sodium carboxymethylcellulose (eg, AC-DI-SOL and PRIMELLOSE), colloidal silica, croscarmellose sodium, crospovidone (eg, AC-DI-SOL and PRIMELLOSE) , KOLLIDON and POLYPLASDONE), guar gum, magnesium aluminum silicate, methylcellulose, microcrystalline cellulose, polacrilin potassium, powdered cellulose, pregelatinized starch, sodium alginate, sodium starch glycolate (such as , EXPLOTAB), potato starch and starch.

可以加入助流劑以改善非壓製之固態組合物的流動性,並改善給藥的精確性。具有助流劑功能之賦形劑包括膠體二氧化矽、三矽酸鎂、粉狀纖維素、澱粉、滑石及磷酸三鈣。 Glidants can be added to improve the flow of uncompressed solid compositions and to improve the precision of administration. Excipients that function as glidants include colloidal silica, magnesium trisilicate, powdered cellulose, starch, talc, and tricalcium phosphate.

當諸如錠劑的劑型是通過壓製之粉狀組合物製成,組合物會受到沖頭及沖模的壓力。一些賦形劑及活性成分具有黏附在沖頭及沖模表面的傾向,這可能會導致成品凹陷及其它表面不規則狀。可於組合物中添加潤滑劑以減少黏附並使成品較易自沖模上脫離。潤滑劑包括硬脂酸鎂、硬脂酸鈣、單硬脂酸甘油酯、硬脂酸棕櫚酸甘油酯、氫化蓖麻油、氫化植物油、礦物油、聚乙二醇、苯甲酸鈉、月桂基硫酸鈉、硬脂酰富馬酸鈉、硬脂酸、滑石及硬脂酸鋅。 When a dosage form such as a lozenge is made by compressing a powdered composition, the composition is subjected to the pressure of a punch and die. Some excipients and active ingredients have a tendency to stick to punch and die surfaces, which can result in pits and other surface irregularities in the finished product. Lubricants can be added to the composition to reduce sticking and make the finished product easier to release from the die. Lubricants include magnesium stearate, calcium stearate, glyceryl monostearate, glyceryl palmitate stearate, hydrogenated castor oil, hydrogenated vegetable oil, mineral oil, polyethylene glycol, sodium benzoate, sodium lauryl sulfate , Sodium stearoyl fumarate, stearic acid, talc and zinc stearate.

調味劑及香味增強劑則使所述劑型更好讓患者入口。本發明之組合物可包含普遍用於醫藥製品的調味劑及香味增強劑,包括麥芽酚、香草醛、乙基香蘭素、薄荷醇、檸檬酸、富馬酸、乙基麥芽酚及酒石酸。 Flavoring and aroma enhancing agents make the dosage form more palatable to the patient. The compositions of the present invention may contain flavoring agents and flavor enhancers commonly used in pharmaceutical products, including maltol, vanillin, ethyl vanillin, menthol, citric acid, fumaric acid, ethyl maltol, and tartaric acid .

固態及液態組合物亦可使用任何醫藥上可接受的著色劑染色,以改善它們的外觀及/或便於患者識別產品及單位劑量。 Solid and liquid compositions may also be colored with any pharmaceutically acceptable colorant to improve their appearance and/or to facilitate patient identification of the product and unit dose.

可利用本發明之結晶形式以及任何其它固體賦形劑來製備液態醫藥組合物,其中各成份係溶解或懸浮於液態載體,諸如水、植物油、醇、聚乙二醇、丙二醇或甘油中。 Liquid pharmaceutical compositions can be prepared using the crystalline forms of the present invention as well as any other solid excipients wherein the ingredients are dissolved or suspended in a liquid carrier such as water, vegetable oils, alcohols, polyethylene glycol, propylene glycol or glycerol.

液態醫藥組合物可包含乳化劑,以使不溶於液態載體之活性成分或其它賦形劑在整個組合物中均勻地分散。可用於本發明液態組合物之乳化劑包括,例如,明膠、蛋黃、酪蛋白、膽固醇、阿拉伯膠、黃蓍膠、角叉菜、果膠、甲基纖維素、卡波姆、鯨蠟硬脂醇及鯨蠟醇。 Liquid pharmaceutical compositions may contain emulsifiers to uniformly disperse active ingredients or other excipients that are insoluble in the liquid carrier throughout the composition. Emulsifiers useful in the liquid compositions of the present invention include, for example, gelatin, egg yolk, casein, cholesterol, acacia, tragacanth, carrageen, pectin, methylcellulose, carbomer, cetearyl alcohol and cetyl alcohol.

液態醫藥組合物亦可含有黏度增強劑以改善產品的口感及/或在胃腸道內形成膜。黏度增強劑包括阿拉伯膠、海藻酸膨潤土、卡波姆、羧甲基纖維素鈣或鈉、鯨蠟硬脂醇、甲基纖維素、乙基纖維素、明膠瓜耳膠、羥乙基纖維素、羥丙基纖維素、羥丙基甲基纖維素、麥芽糊精、聚乙烯醇、聚維酮、 碳酸丙烯酯、丙烯乙二醇藻酸酯、藻酸鈉、澱粉羥乙酸鈉、澱粉黃蓍膠及黃原膠。 Liquid pharmaceutical compositions may also contain viscosity enhancers to improve the mouthfeel of the product and/or to form a film in the gastrointestinal tract. Viscosity enhancers include gum arabic, bentonite alginate, carbomer, calcium or sodium carboxymethyl cellulose, cetearyl alcohol, methyl cellulose, ethyl cellulose, gelatin guar, hydroxyethyl cellulose , hydroxypropyl cellulose, hydroxypropyl methylcellulose, maltodextrin, polyvinyl alcohol, povidone, Propylene carbonate, propylene glycol alginate, sodium alginate, sodium starch glycolate, starch tragacanth and xanthan gum.

為改善味道可加入甜味劑,諸如阿斯巴甜、乳糖、山梨糖醇、糖精、糖精鈉、蔗糖、阿斯巴甜、果糖、甘露醇及轉化糖。 Sweeteners such as aspartame, lactose, sorbitol, saccharin, sodium saccharin, sucrose, aspartame, fructose, mannitol and invert sugar may be added to improve taste.

為提高儲存穩定性可加入安全攝取量的防腐劑及螯合劑,諸如醇、苯甲酸鈉、丁基化羥基甲苯、丁基羥基苯甲醚及乙二胺四酸。 Safe intake levels of preservatives and chelating agents such as alcohol, sodium benzoate, butylated hydroxytoluene, butylated hydroxyanisole, and EDTA may be added to improve storage stability.

液態組合物亦可含有緩衝劑,諸如乙醇酸、乳酸、檸檬酸或乙酸、葡糖酸鈉、乳酸鈉、檸檬酸鈉或乙酸鈉。製藥科學家可根據經驗以及標準程序及此領域參考作業之考量,而輕易決定賦形劑的選擇及使用量。 Liquid compositions may also contain buffers such as glycolic, lactic, citric or acetic acid, sodium gluconate, sodium lactate, sodium citrate or sodium acetate. The choice and amount of excipients can be easily determined by pharmaceutical scientists based on experience and consideration of standard procedures and reference practices in the field.

本發明之固態組合物包括粉末、顆粒、聚集物及經壓製的組合物。劑型包括適於口、頰、腸、腸胃外(包括皮下、肌肉內及靜脈內)、吸入及眼部投予的劑型。雖然在任何給定的情況下最合適的給藥方式將取決於治療病症的本質及嚴重程度,本發明的最佳途徑是口服。所述劑型可便利地以單一劑型的形式呈現,並藉由醫藥領域中任何習知的方法來製備。 Solid compositions of the present invention include powders, granules, aggregates and compressed compositions. Dosage forms include those suitable for oral, buccal, enteral, parenteral (including subcutaneous, intramuscular, and intravenous), inhalation, and ocular administration. Although the most appropriate mode of administration in any given situation will depend on the nature and severity of the condition being treated, the preferred route of the present invention is oral. The dosage forms may conveniently be presented in a single dosage form and prepared by any of the methods known in the art of medicine.

劑型包括固態劑型,如錠劑、粉劑、膠囊、栓劑、袋劑、喉錠及含片,以及液態糖漿劑、懸浮液、氣霧劑及酏劑。 Dosage forms include solid dosage forms such as lozenges, powders, capsules, suppositories, sachets, lozenges and lozenges, as well as liquid syrups, suspensions, aerosols and elixirs.

本發明之劑型可為在硬或軟外殼中含有組合物的膠囊,所述組合物較佳為粉狀或顆粒狀固態的本發明組合物。外殼可由明膠製成,並可選地含有塑形劑(諸如甘油及山梨醇)及遮光劑或著色劑。 The dosage form of the present invention can be a capsule containing the composition in a hard or soft shell, and the composition is preferably a powder or granular solid of the composition of the present invention. The shell can be made of gelatin and optionally contains plasticizers such as glycerol and sorbitol and opacifying or coloring agents.

用於壓錠或膠囊填充之組合物可以藉由濕式造粒法來製備。在濕式造粒法中,部分或全部活性成分及賦形劑以粉末形式混合,然後進一步混合在液體(通常為水)中,其導致粉末結塊成顆粒。將顆粒濾篩及/或研磨、乾燥, 然後濾篩及/或研磨至所需粒徑。所述顆粒可以被壓錠,或其它賦形劑可以在壓錠之前加入,如助流劑及/或潤滑劑。 Compositions for tableting or capsule filling can be prepared by wet granulation. In wet granulation, some or all of the active ingredients and excipients are mixed in powder form and then further mixed in a liquid (usually water), which causes the powder to agglomerate into granules. Sieve and/or grind and dry the particles, It is then screened and/or ground to the desired particle size. The granules can be tableted, or other excipients can be added prior to tableting, such as glidants and/or lubricants.

壓錠組合物可常規地藉由乾混合來製備。例如,活性物質及賦形劑的混合組合物可經壓製成塊狀或薄片狀,然後搗碎成壓製顆粒。壓製顆粒可隨後被壓縮成錠劑。 Tablet compositions can be conventionally prepared by dry blending. For example, a mixed composition of active substance and excipients can be compressed into blocks or flakes and then comminuted into compressed granules. The compressed granules can then be compressed into lozenges.

作為乾式造粒法外的另一方式,經混合的組合物可利用直接壓縮技術被直接壓製成壓製劑型。直接壓縮產生不含顆粒之更均勻的錠劑。特別適用於直接壓縮壓錠的賦形劑包括微晶纖維素、噴霧乾燥乳糖、磷酸二鈣二水合物及膠體二氧化矽。本領域中對直接壓縮壓錠的特定製劑挑戰具經驗及技術者,已知道在直接壓縮壓錠中適當地使用這些及其它賦形劑。 As an alternative to dry granulation, the blended composition can be directly compressed into a compressed dosage form using direct compression techniques. Direct compression produces a more uniform tablet free of particles. Excipients particularly suitable for direct compression tableting include microcrystalline cellulose, spray dried lactose, dicalcium phosphate dihydrate and colloidal silica. Those experienced and skilled in the art with specific formulation challenges for direct compression tableting are known to use these and other excipients appropriately in direct compression tableting.

本發明之膠囊填充物可含有任何前述混合及造粒(參照於壓錠所描述);然而,它們未經最終壓錠之步驟。 The capsule fills of the present invention may contain any of the aforementioned mixing and granulation (described with reference to tableting); however, they do not have a final tableting step.

活性成分及賦形劑可以根據本領域已知的方法配製成組合物及劑型。 Active ingredients and excipients can be formulated into compositions and dosage forms according to methods known in the art.

在一具體實施例中,可提供藥物劑型為一試劑套組,其以各別成分包含化合物I之結晶形式,以及其醫藥上可接受的賦形劑及載體。在部分具體實施例中,劑型試劑套組允許醫師及患者在使用之前,藉由溶解、懸浮或混合化合物I之結晶形式與其醫藥上可接受的賦形劑及載體來調配口服或注射溶液。在一具體實施例中,提供化合物I之結晶形式的藥物劑型試劑套組,與化合物I之預先配製液體製劑相比,具有增進的化合物I穩定性。 In one embodiment, the pharmaceutical dosage form can be provided as a kit of reagents comprising, as individual components, the crystalline form of Compound I, together with pharmaceutically acceptable excipients and carriers thereof. In some embodiments, the dosage form kit allows physicians and patients to formulate oral or injectable solutions by dissolving, suspending or mixing the crystalline form of Compound I with pharmaceutically acceptable excipients and carriers prior to use. In one embodiment, a pharmaceutical dosage form kit is provided of a crystalline form of Compound 1 having improved stability of Compound 1 as compared to preformulated liquid formulations of Compound 1.

本發明的製劑不必然僅含有一種化合物I之結晶形式。本發明之結晶形式作為單一成分或與化合物I的其它結晶形式混合而使用於醫藥製劑或組 合物中。在一具體實施例中,本發明之醫藥製劑或組合物在製劑或組合物中含有以重量計25-100%或50-100%之如本發明所述化合物I的至少一種結晶形式。 The formulations of the present invention do not necessarily contain only one crystalline form of Compound I. The crystalline form of the present invention is used as a single ingredient or in admixture with other crystalline forms of Compound I in pharmaceutical formulations or formulations in the compound. In a specific embodiment, the pharmaceutical preparation or composition of the present invention contains 25-100% or 50-100% by weight of at least one crystalline form of Compound I according to the present invention in the preparation or composition.

治療用途therapeutic use

本發明亦提供細胞增殖相關疾病之療法。在一方面,本發明提供一種用於選擇性活化p53蛋白之方法,其包含以所述化合物接觸受到細胞增殖相關疾病影響的細胞。在一具體實施例中,該方法包含以如本發明所述化合物I或其醫藥上可接受的鹽、酯及/或溶劑合物之結晶形式接觸癌症及/或腫瘤細胞。在另一具體實施例中,以如本發明所述化合物I或其醫藥上可接受的鹽、酯及/或溶劑合物的結晶形式接觸癌症及/或腫瘤細胞之方法,可誘導細胞凋亡或減輕或預防疾病發展。 The present invention also provides therapies for cell proliferation-related diseases. In one aspect, the present invention provides a method for selectively activating a p53 protein comprising contacting a cell affected by a cell proliferation-related disease with the compound. In a specific embodiment, the method comprises contacting cancer and/or tumor cells with a crystalline form of Compound I as described herein, or a pharmaceutically acceptable salt, ester and/or solvate thereof. In another specific embodiment, the method of contacting cancer and/or tumor cells with a crystalline form of Compound I or a pharmaceutically acceptable salt, ester and/or solvate thereof of the present invention can induce apoptosis or alleviating or preventing disease progression.

此外,揭示用於治療癌症、癌細胞、腫瘤或腫瘤細胞的方法。可以本發明之方法治療的癌症之非限制性實例包括於下列的癌症或癌細胞:大腸、乳腺、肺、肝、胰腺、淋巴結、結腸、前列腺、腦、頭頸部、皮膚、卵巢、子宮頸、甲狀腺、膀胱、腎以及血液及心臟(例如,白血病、淋巴瘤和惡性腫瘤)。可以本發明之方法治療的腫瘤之非限制性實例包括於下列腫瘤及腫瘤細胞:大腸、乳腺、肺、肝、胰腺、淋巴結、結腸、前列腺、腦、頭頸部、皮膚、腎以及血液和心臟(例如,白血病、淋巴瘤和惡性腫瘤)。 In addition, methods for treating cancer, cancer cells, tumors or tumor cells are disclosed. Non-limiting examples of cancers that can be treated by the methods of the present invention include cancers or cancer cells of the following: colon, breast, lung, liver, pancreas, lymph nodes, colon, prostate, brain, head and neck, skin, ovary, cervix, Thyroid, bladder, kidney, and blood and heart (eg, leukemias, lymphomas, and malignancies). Non-limiting examples of tumors that can be treated by the methods of the invention include the following tumors and tumor cells: large intestine, breast, lung, liver, pancreas, lymph nodes, colon, prostate, brain, head and neck, skin, kidney, and blood and heart ( For example, leukemias, lymphomas, and malignancies).

本發明亦提供在個體中治療、預防、緩解及/或減輕具有細胞增殖特徵的疾病或病症進展之方法。更具體地,本發明之方法涉及在個體中投予有效量的如本文所述之喹諾酮化合物的結晶形式,以治療具有細胞增殖特徵的疾病或病症。投予所述結晶形式可以有效在癌症及/或腫瘤細胞中選擇性激活p53 蛋白的量,可導致細胞死亡或凋亡。術語「個體」及「患者」在本文中可互換地使用。 The present invention also provides methods of treating, preventing, alleviating and/or reducing the progression of a disease or disorder characterized by cell proliferation in an individual. More specifically, the methods of the present invention involve administering to an individual an effective amount of a crystalline form of a quinolone compound as described herein to treat a disease or disorder characterized by cell proliferation. Administration of the crystalline form is effective in selectively activating p53 in cancer and/or tumor cells The amount of protein that can lead to cell death or apoptosis. The terms "individual" and "patient" are used interchangeably herein.

如本文所述,可使用任何熟習此技藝者所習知之各種方法來實現或執行藥物投予。結晶形式可以含有一般無毒的、生理學上可接受之載體或媒介物的劑型製劑,而以下列方式投予:例如,皮下、靜脈內、腸胃外、腹膜內、皮內、肌肉內、局部、腸內(例如,經口)、直腸、鼻、口腔、舌下、陰道、通過吸入噴霧、藉由藥泵或經由植入貯存器。 As described herein, drug administration may be accomplished or performed using any of a variety of methods known to those skilled in the art. Crystalline forms may be formulated in dosage forms containing generally non-toxic, physiologically acceptable carriers or vehicles, and administered, for example, subcutaneously, intravenously, parenterally, intraperitoneally, intradermally, intramuscularly, topically, Enteral (eg, oral), rectal, nasal, buccal, sublingual, vaginal, by inhalation spray, by drug pump, or via implanted reservoir.

此外,本文揭示之結晶形式可投予至需要治療的局部區域。其可通過以下方式實現:例如但不限於在手術期間之局部輸注、局部施用、經皮貼片、藉由注射、藉由導管、藉由栓劑、或藉由植入物(植入物可選地為多孔、非多孔或凝膠狀材料),其包括膜,諸如矽橡膠膜或纖維。 In addition, the crystalline forms disclosed herein can be administered to a localized area in need of treatment. This can be accomplished by, for example, but not limited to, local infusion during surgery, topical administration, transdermal patches, by injection, by catheter, by suppository, or by implant (implant optional). porous, non-porous or gelatinous materials) including membranes, such as silicone rubber membranes or fibers.

結晶形式被投予之形式(例如,糖漿、酏劑、膠囊、錠劑、泡沫劑、乳劑、凝膠等)將部分取決於其投予途徑。例如,針對黏膜(例如,口腔黏膜、直腸、腸黏膜、支氣管黏膜)投予,可使用鼻滴劑、氣霧劑、吸入劑、噴霧器、眼滴劑或栓劑。結晶形式也可用於塗覆生物可植入材料,以增進神經軸突生長、神經存活或細胞與植入物表面的交互作用。本發明所揭示之結晶形式可與其它可控制一或多種具有細胞增殖特徵的疾病或病症之症狀或成因的生物活性劑一起投予,所述生物活性劑諸如抗癌劑、止痛劑、消炎劑、麻醉劑及其它藥劑。 The form in which the crystalline form is administered (eg, syrup, elixirs, capsules, lozenges, foams, emulsions, gels, etc.) will depend in part on the route of administration. For example, for mucosal (eg, oral mucosa, rectal, intestinal mucosa, bronchial mucosa) administration, nasal drops, aerosols, inhalants, nebulizers, eye drops, or suppositories can be used. Crystalline forms can also be used to coat bioimplantable materials to enhance neurite outgrowth, nerve survival, or cell interaction with the implant surface. The crystalline forms disclosed herein can be administered with other biologically active agents that control the symptoms or causes of one or more diseases or disorders characterized by cell proliferation, such as anticancer agents, analgesics, anti-inflammatory agents , anesthetics and other drugs.

在一具體實施例中,如本發明所述化合物I之結晶形式或化合物I之醫藥上可接受的鹽、酯及/或溶劑合物之結晶形式,可與一或多種治療活性劑組合投予。在一具體實施例中,所述一或多種治療活性劑為抗癌劑。在部分具 體實施例中,所述一或多種治療活性抗癌劑包括但不限於紫杉醇、長春鹼、長春新鹼、依托泊苷、阿黴素、赫賽汀、拉帕替尼、吉非替尼、厄洛替尼、他莫昔芬、氟維司群、阿那曲唑、復乳納(Letrozole)、依西美坦、法倔唑、環磷酰胺、泰索帝、美法崙、苯丁酸氮芥、氮芥、苯丁酸氮芥、苯丙氨酸、芥、環磷酰胺、異環磷酰胺、卡莫司汀(BCNU)、洛莫司汀(CCNU)、鏈脲黴素、白消安、噻替派、順鉑、卡鉑、放線菌素D(Actinomycin D)、多柔比星(Adriamycin)、柔紅黴素、伊達比星、米托蒽醌、普卡黴素、絲裂黴素、C博萊黴素、其組合及其類似物。在另一具體實施例中,所述一或多種治療活性抗癌劑包括但不限於PARP(聚(DP-核糖)聚合酶)抑制劑。合適的PARP抑制劑包括但不限於4-(3-(1-(環丙烷羰基)哌啶-4-羰基)-4-氟芐基)酞嗪-1(2H)-酮(olaparib,AZD2281,Ku-0059436)、2-[(2R)-2-甲基吡咯烷-2-基]-1H-苯並咪唑-4-甲酰胺(Veliparib,ABT-888)、(8S,9R)-5-氟-8-(4-氟苯基)-9-(1-甲基-1H-1,2,4-三唑-5-基)-8,9-二氫-2H-吡啶並[4,3,2-脫〕酞嗪基-3H-(7H)-酮(talazoparib,BMN 673)、4-碘-3-硝基苯甲酰胺(iniparib,BSI-201)、8-氟-5-(4-((二甲基氨基)甲基)苯基)-3,4-二氫-2H-氮雜並[5,4,3-cd〕吲哚-1(6H)-酮磷酸(Rucaparib,AG-014699,PF-01367338)、2-[4-[(二甲基氨基)甲基]苯基]-5,6-二氫-咪唑並〔4,5,1-JK〕〔1,4〕苯並二氮雜7(4H)-酮(AG14361),3-氨基苯甲酰胺(INO-1001)、2-(2-氟-4-((S)-吡咯烷-2-基)苯基)-3H-苯並[d]咪唑-4-甲酰胺(A-966492)、N-(5,6-二氫-6-氧代-2-菲啶)-2-乙酰胺鹽酸鹽(PJ34,PJ34 HCl)、MK-4827、3,4-二氫-4-氧代-3,4-二氫-4-氧代-N-[(1S)-1-苯乙基]-2-喹唑啉丙(ME0328)、5-(2-氧代-2-苯乙基)-1(2H)-異喹啉(UPF-1069)、4-[[4-氟-3-[(4-甲氧基-1-哌啶基)羰基]苯基]甲基]-1(2H)-酞嗪酮(AZD 2461)及其類似物。在 另一具體實施例中,所述一或多種治療活性劑為免疫治療劑。在部分具體實施例中,所述一或多種免疫治療劑包括但不限於單株抗體、免疫效應細胞、過繼性細胞轉移、免疫毒素、疫苗、細胞激素及其類似物。 In a specific embodiment, a crystalline form of Compound 1 or a crystalline form of a pharmaceutically acceptable salt, ester and/or solvate of Compound 1 as described herein can be administered in combination with one or more therapeutically active agents . In a specific embodiment, the one or more therapeutically active agents are anticancer agents. in part In specific embodiments, the one or more therapeutically active anticancer agents include, but are not limited to, paclitaxel, vinblastine, vincristine, etoposide, doxorubicin, Herceptin, lapatinib, gefitinib, Erlotinib, Tamoxifen, Fulvestrant, Anastrozole, Letrozole, Exemestane, Fadrozole, Cyclophosphamide, Taxotere, Melphalan, Benbutyrate Nitrogen mustard, nitrogen mustard, chlorambucil, phenylalanine, mustard, cyclophosphamide, ifosfamide, carmustine (BCNU), lomustine (CCNU), streptozotocin, white Paraben, Thiatepa, Cisplatin, Carboplatin, Actinomycin D, Doxorubicin (Adriamycin), Daunorubicin, Idarubicin, Mitoxantrone, Pukamycin, Silk Schizomycin, C bleomycin, combinations thereof, and analogs thereof. In another specific embodiment, the one or more therapeutically active anticancer agents include, but are not limited to, PARP (poly(DP-ribose) polymerase) inhibitors. Suitable PARP inhibitors include, but are not limited to, 4-(3-(1-(cyclopropanecarbonyl)piperidine-4-carbonyl)-4-fluorobenzyl)phthalazin-1(2H)-one (olaparib, AZD2281, Ku-0059436), 2-[(2R)-2-methylpyrrolidin-2-yl]-1H-benzimidazole-4-carboxamide (Veliparib, ABT-888), (8S, 9R)-5- Fluoro-8-(4-fluorophenyl)-9-(1-methyl-1H-1,2,4-triazol-5-yl)-8,9-dihydro-2H-pyrido[4, 3,2-De]phthalazinyl-3H-(7H)-one (talazoparib, BMN 673), 4-iodo-3-nitrobenzamide (iniparib, BSI-201), 8-fluoro-5-( 4-((Dimethylamino)methyl)phenyl)-3,4-dihydro-2H-aza[5,4,3-cd]indol-1(6H)-one phosphate (Rucaparib, AG-014699, PF-01367338), 2-[4-[(dimethylamino)methyl]phenyl]-5,6-dihydro-imidazo[4,5,1-JK][1,4 ] Benzodiazepine 7(4H)-one (AG14361), 3-aminobenzamide (INO-1001), 2-(2-fluoro-4-((S)-pyrrolidin-2-yl)benzene yl)-3H-benzo[d]imidazole-4-carboxamide (A-966492), N-(5,6-dihydro-6-oxo-2-phenanthridine)-2-acetamide hydrochloride (PJ34, PJ34 HCl), MK-4827, 3,4-dihydro-4-oxo-3,4-dihydro-4-oxo-N-[(1S)-1-phenethyl]-2 - Quinazoline propane (ME0328), 5-(2-oxo-2-phenethyl)-1(2H)-isoquinoline (UPF-1069), 4-[[4-fluoro-3-[( 4-Methoxy-1-piperidinyl)carbonyl]phenyl]methyl]-1(2H)-phthalazinone (AZD 2461) and analogs thereof. exist In another specific embodiment, the one or more therapeutically active agents are immunotherapeutic agents. In some embodiments, the one or more immunotherapeutic agents include, but are not limited to, monoclonal antibodies, immune effector cells, adoptive cell transfer, immunotoxins, vaccines, cytokines, and the like.

在另一具體實施例中,如本文所述的化合物I之結晶形式或化合物I在醫藥上可接受的鹽、酯及/或溶劑合物之結晶形式可與放射療法組合投予。 In another specific embodiment, a crystalline form of Compound 1 or a crystalline form of a pharmaceutically acceptable salt, ester and/or solvate of Compound 1 as described herein can be administered in combination with radiation therapy.

此外,投予可包含在一段合適的期間對該個體投予複數劑量。此種藥物投予方案在閱讀本文後可根據常規方法來決定。 Furthermore, administering may comprise administering to the individual multiple doses over a suitable period of time. Such drug administration regimens can be determined according to conventional methods after reading this document.

本發明的結晶形式一般以約0.01mg/kg/劑至約100mg/kg/劑的劑量投予。可替代地,劑量可為從約0.1mg/kg/劑至約10mg/kg/劑;或約1mg/kg/劑至10mg/kg/劑。可以採用時間控釋製劑或在方便的前提下藥劑可以分為多劑投予。當使用其他方法(例如,靜脈內投予),結晶形式以從約0.05至10mg/kg/小時或是從約0.1至約1mg/kg/小時的速率投予至受影響的組織。當結晶形式如本文所討論之以靜脈內投予,可輕易地維持此種速率。一般而言,局部投予製劑以約0.5mg/kg/劑至約10mg/kg/劑之範圍的劑量投予。或者,局部製劑以約1mg/kg/劑至約7.5mg/kg/劑的劑量投予,或甚至約1mg/kg/劑至約5mg/kg/劑的劑量投予。 The crystalline forms of the present invention are generally administered at a dose of about 0.01 mg/kg/dose to about 100 mg/kg/dose. Alternatively, the dosage may be from about 0.1 mg/kg/dose to about 10 mg/kg/dose; or about 1 mg/kg/dose to 10 mg/kg/dose. Time-controlled release formulations may be employed or, where convenient, the medicament may be administered in multiple doses. When using other methods (eg, intravenous administration), the crystalline form is administered to the affected tissue at a rate of from about 0.05 to 10 mg/kg/hour, or from about 0.1 to about 1 mg/kg/hour. This rate can be easily maintained when the crystalline form is administered intravenously as discussed herein. In general, formulations for topical administration are administered in doses ranging from about 0.5 mg/kg/dose to about 10 mg/kg/dose. Alternatively, topical formulations are administered at a dose of about 1 mg/kg/dose to about 7.5 mg/kg/dose, or even at a dose of about 1 mg/kg/dose to about 5 mg/kg/dose.

從約0.1至約100mg/kg的範圍是適當的單一劑量。適當的連續投予範圍是在約0.05至約10mg/kg。 A range from about 0.1 to about 100 mg/kg is a suitable single dose. A suitable continuous administration range is from about 0.05 to about 10 mg/kg.

藥物劑量亦可給定為毫克/每平方公尺的體表面積,而非體重,由於此種方法與特定代謝及排泄功能有良好的相關性。此外,體表面積可作為成人及兒童以及不同的動物物種間藥物劑量之共同分母(Freireich et al.,(1966)Cancer Chemother Rep.50,219-244)。簡言之,劑量乘以適當km因子,可在任 何給定的物種中將mg/kg劑量表達為等價的mg/sq m劑量。在成年人中,100mg/kg相當於100mg/kg x 37kg/sq m=3700mg/m2Drug doses can also be given in milligrams per square meter of body surface area rather than body weight, as this method correlates well with specific metabolic and excretory functions. In addition, body surface area can be used as a common denominator for drug doses in adults and children as well as between different animal species (Freireich et al., (1966) Cancer Chemother Rep. 50, 219-244). Briefly, the dose in mg/kg can be expressed as the equivalent mg/sq m dose in any given species by multiplying the dose by the appropriate km factor. In adults, 100 mg/kg is equivalent to 100 mg/kg x 37 kg/sq m = 3700 mg/m 2 .

本發明之劑型可含有約5mg至約500mg的量之如本文所述化合物I或其醫藥上可接受的鹽、酯及/或溶劑合物。亦即,本發明之劑型含有的化合物I的量可為約5mg、10mg、15mg、20mg、25mg、30mg、35mg、40mg、45mg、50mg、55mg、60mg、65mg、70mg、75mg、80mg、85mg、90mg、95mg、100mg、110mg、120mg、125mg、130mg、140mg、150mg、160mg、170mg、175mg、180mg、190mg、200mg、210mg、220mg、225mg、230mg、240mg、250mg、260mg、270mg、275mg、280mg、290mg、300mg、310mg、320mg、325mg、330mg、340mg、350mg、360mg、370mg、375mg、380mg、390mg、400mg、410mg、420mg、425mg、430mg、440mg、450mg、460mg、470mg、475mg、480mg、490mg、或500mg。在一具體實施例中,上述之劑量投予至患者,可作為每日劑量以單一劑,或以每日多次分服,諸如每日兩次、三次或四次。 The dosage forms of the present invention may contain Compound I as described herein, or a pharmaceutically acceptable salt, ester and/or solvate thereof, in an amount from about 5 mg to about 500 mg. That is, the dosage form of the present invention may contain Compound I in an amount of about 5 mg, 10 mg, 15 mg, 20 mg, 25 mg, 30 mg, 35 mg, 40 mg, 45 mg, 50 mg, 55 mg, 60 mg, 65 mg, 70 mg, 75 mg, 80 mg, 85 mg, 90mg, 95mg, 100mg, 110mg, 120mg, 125mg, 130mg, 140mg, 150mg, 160mg, 170mg, 175mg, 180mg, 190mg, 200mg, 210mg, 220mg, 225mg, 230mg, 240mg, 250mg, 260mg, 270mg, 275mg, 280mg, 290mg, 300mg, 310mg, 320mg, 325mg, 330mg, 340mg, 350mg, 360mg, 370mg, 375mg, 380mg, 390mg, 400mg, 410mg, 420mg, 425mg, 430mg, 440mg, 450mg, 460mg, 470mg, 475mg, 480mg, 490mg or 500mg. In a specific embodiment, the above-described doses are administered to a patient, either as a daily dose in a single dose, or in multiple daily divided doses, such as two, three, or four times daily.

本發明之劑型可以每小時、每天、每週或每月投予。本發明之劑型可以每日兩次或每日一次投予。本發明之劑型可以與食物或不與食物一起投予。 The dosage forms of the present invention can be administered hourly, daily, weekly or monthly. The dosage forms of the present invention may be administered twice daily or once daily. The dosage forms of the present invention may be administered with or without food.

當本發明所揭示之結晶形式可採用擬似物或其片段的型態,應該理解的是其效力,也因此,有效量的劑量是可以改變的。然而,熟習此技藝者可輕易地分析本發明所預期之結晶形式的類型之效力。 While the crystalline forms disclosed herein may take the form of mimetics or fragments thereof, it should be understood that the potency, and thus the dosage of the effective amount, may vary. However, one skilled in the art can readily analyze the efficacy of the type of crystalline form contemplated by the present invention.

在具有細胞增殖特徵的逐步進展之疾病或病症的情況下,係在一貫的基準下投予本發明之結晶形式。在特定情況下,可在疾病症狀發展前即開 始投予本發明之結晶形式,作為延遲或防止疾病的一部分策略。在其它情況下,可在疾病症狀發作後投予本發明之結晶形式,作為減緩或逆轉疾病進展的一部分策略,及/或作為改善細胞功能並減輕症狀的一部分策略。 In the case of progressive diseases or disorders characterized by cell proliferation, the crystalline forms of the present invention are administered on a consistent basis. In certain cases, it may be prescribed before symptoms develop The crystalline form of the present invention is initially administered as part of a strategy to delay or prevent disease. In other instances, the crystalline forms of the invention may be administered after the onset of disease symptoms, as part of a strategy to slow or reverse disease progression, and/or as part of a strategy to improve cellular function and alleviate symptoms.

熟習此技藝者可理解的是,劑量範圍將取決於特定的結晶形式及其效力。應理解劑量範圍為足夠大而可產生期望的效果,其可緩解神經退化性或其它疾病及其相關症狀,及/或達成其細胞存活,但劑量範圍不會大到以致引起無法處理的不良副作用。然而,應當理解,針對任何特定患者的具體劑量將取決於多種因素,包括使用的特定結晶形式之活性;受治療個體的年齡、體重、健康狀況、性別及飲食;時間及給藥途徑;排泄速率;其它先前投予的藥物;以及正在進行治療的特定疾病之嚴重程度,如熟習此技藝者所充分理解。劑量亦可在任何併發症的情況下由個別醫師進行調整。預期當本文所揭示之結晶形式按照本發明被使用時,沒有不能接受的毒理學作用。 It will be understood by those skilled in the art that dosage ranges will depend on the particular crystalline form and its potency. It should be understood that the dosage range is large enough to produce the desired effect, which relieves neurodegenerative or other diseases and their associated symptoms, and/or cell survival thereof, but is not so large as to cause unmanageable adverse side effects . It should be understood, however, that the specific dosage for any particular patient will depend on a variety of factors, including the activity of the particular crystalline form used; the age, weight, health, sex and diet of the subject being treated; time and route of administration; rate of excretion ; other previously administered drugs; and the severity of the particular disease being treated, as well understood by those skilled in the art. The dose may also be adjusted by the individual physician in case of any complications. No unacceptable toxicological effects are expected when the crystalline forms disclosed herein are used in accordance with the present invention.

本文所揭示之結晶形式的有效量包括足以產生可測量生物反應的量。為了對特定個體及/或應用投予可有效達到所欲治療反應之活性結晶形式的量,本發明的治療性結晶形式之活性成分的實際劑量可變化。較佳地,投予最小劑量,並於不存在對最小有效量之劑量限制性毒性的情況下升高劑量。治療有效量之決定及調整,以及評估何時、及如何進行上述之調整,是本領域中具有通常知識者所習知的。 Effective amounts of the crystalline forms disclosed herein include amounts sufficient to produce a measurable biological response. The actual dosage of the active ingredient of the therapeutic crystalline form of the present invention may vary in order to administer to a particular individual and/or application an amount of the active crystalline form effective to achieve the desired therapeutic response. Preferably, the minimum dose is administered and the dose is escalated in the absence of dose-limiting toxicity to the minimum effective dose. Determination and adjustment of therapeutically effective amounts, as well as assessment of when and how to make such adjustments, are well known to those of ordinary skill in the art.

進一步有關本發明之方法,較佳的個體為脊椎動物個體。較佳的脊椎動物為溫血的;一較佳的溫血脊椎動物為哺乳動物。本發明所揭示之方法治療的個體較佳為人類,惟可理解的是本發明的原則在指出對所有脊椎動物物種的有效性,其係包括於術語「個體」中。在這方面,脊椎動物應理解為任何 脊椎動物物種,其有意於神經退化性病症之治療者。本文中所使用的術語「個體」包括人類及動物個體。因此,根據本發明,亦提供獸醫治療用途。 Further in relation to the method of the present invention, the preferred subject is a vertebrate subject. Preferred vertebrates are warm-blooded; a preferred warm-blooded vertebrate is a mammal. The subject to be treated by the methods disclosed herein is preferably a human, but it is understood that the principles of the present invention are intended to be effective against all vertebrate species, which are included in the term "subject". In this regard, vertebrate shall be understood as any Vertebrate species that are interested in the treatment of neurodegenerative disorders. The term "individual" as used herein includes human and animal individuals. Thus, according to the present invention, veterinary therapeutic use is also provided.

如此一來,本發明提供的療法可針對諸如人類之哺乳動物,亦可針對因瀕臨絕種而有重要性之哺乳動物,諸如西伯利亞虎;有經濟重要性的動物,諸如養於農場的人類食用動物;以及對於人類具社會重要性的動物,諸如作為寵物飼養或在動物園或農場之動物。上述動物實例包括但不限於:食肉動物,諸如貓及狗;豬,包括家豬、肉豬及野豬;反芻動物及/或有蹄類動物,諸如家畜、公牛、羊、長頸鹿、鹿、山羊、野牛及駱駝;以及馬。亦提供鳥的療法,其中包括針對那些瀕臨絕種及/或保存在動物園的鳥類之療法,以及禽類,特別是被馴養的禽類,即家禽,諸如火雞、雞、鴨、鵝、珍珠雞等,因為它們對於人類亦具有經濟重要性。因此,亦提供家畜的療法,所述家畜包括但不限於被馴養的豬、反芻動物、有蹄類動物、馬(包括賽馬)、家禽及其類似者。 Thus, the therapy provided by the present invention can be directed to mammals such as humans, as well as to mammals of endangered importance, such as the Siberian tiger; animals of economic importance, such as farm-raised human food animals. ; and animals of social importance to humans, such as animals kept as pets or in zoos or farms. Examples of such animals include, but are not limited to: carnivores, such as cats and dogs; pigs, including domestic pigs, hogs, and wild boars; ruminants and/or ungulates, such as livestock, bulls, sheep, giraffes, deer, goats, Bison and camels; and horses. Also provides therapy for birds, including those that are endangered and/or kept in zoos, and birds, especially domesticated birds, i.e. poultry such as turkeys, chickens, ducks, geese, guinea fowls, etc., Because they are also of economic importance to human beings. Accordingly, therapy is also provided for livestock including, but not limited to, domesticated pigs, ruminants, ungulates, horses (including racehorses), poultry, and the like.

以下實例可進一步闡明本發明,但不應該以任何方式解釋為限制其範圍。 The following examples may further illustrate the present invention, but should not be construed in any way to limit its scope.

實例Example

分析方法-各種分析方法,如後所述,分別適用於本發明之結晶形式及其前驅物,以對其生理化學性質特徵化。 Analytical Methods - Various analytical methods, described below, are applicable to the crystalline forms of the present invention and their precursors, respectively, to characterize their physiochemical properties.

示差掃描熱分析(DSC):Differential Scanning Thermal Analysis (DSC):

DSC數據於DSC-系統(DSC 822e-Mettler Toledo)或於TA Instruments Q2000取得。一般而言,質量範圍在1至5mg的的樣品放置在乾鋁坩堝中並使用具有一孔洞的鋁上蓋關閉。一般而言,起始溫度為20℃,加熱速率為10℃/分鐘,且最終溫度為300℃,使用20mL/分鐘的氮氣淨化流。 DSC data were obtained on a DSC-system (DSC 822e-Mettler Toledo) or on a TA Instruments Q2000. In general, samples in the mass range of 1 to 5 mg were placed in dry aluminum crucibles and closed using an aluminum upper lid with a hole. In general, the starting temperature was 20°C, the heating rate was 10°C/min, and the final temperature was 300°C, using a nitrogen purge flow of 20 mL/min.

熱重量分析(TGA):Thermogravimetric Analysis (TGA):

TGA數據於TGA 851e裝置收集。一般而言,質量範圍約10mg的樣品置於貧氣及乾氧化鋁盤或鋁盤中。一般而言,樣品盤使用50mL/分鐘的氮氣淨化流速率,以5℃/分鐘或以10℃/分鐘,於-30℃至約350℃之間掃瞄。 TGA data were collected on a TGA 851e device. In general, samples in the mass range of about 10 mg were placed in lean and dry alumina pans or aluminum pans. Typically, the sample pan was scanned between -30°C to about 350°C at 5°C/min or at 10°C/min using a nitrogen purge flow rate of 50mL/min.

TGA分析亦使用TA儀器探索IR熱重分析儀進行。使用鎳及阿盧梅爾鎳合金(AlumelTM)校準溫度。將樣品放在鋁盤中。將樣品氣密密封、蓋刺穿,然後插入到熱重量分析爐中。爐由氮氣加熱。將分析樣品以10℃/分鐘的加熱速率從室溫加熱至350℃。Trios軟體v3.1.2.3591用於產生圖譜。 TGA analysis was also performed using a TA Instruments Discovery IR thermogravimetric analyzer. The temperature was calibrated using nickel and Alumel (Alumel ). Place the sample in an aluminum pan. The sample is hermetically sealed, the lid pierced, and inserted into the thermogravimetric oven. The furnace is heated by nitrogen. The samples for analysis were heated from room temperature to 350°C at a heating rate of 10°C/min. Trios software v3.1.2.3591 was used to generate maps.

氫核磁共振(Hydrogen NMR ( 11 H NMR):H NMR):

1H NMR光譜是在DMSO-d6或CDCl3中用四甲基矽烷作為內標準在Bruker AVANCE400MHz核磁共振儀取得。 1 H NMR spectra were acquired on a Bruker AVANCE 400 MHz nuclear magnetic resonance apparatus in DMSO-d 6 or CDCl 3 using tetramethylsilane as an internal standard.

熱載台光學顯微鏡(HSM):Hot Stage Optical Microscope (HSM):

Olympus BX41與Di-Li 5MP相機以及grab&measure軟體,與具有FP 82加熱台之Hostage Mettler Toledo FP90一起使用。樣品製備成刷狀放置於物件固定器。觀察使用無偏振光或者使用兩個偏振光的偏振光,在40、100、200或400 x放大率。照片由軟體拍攝並導出為JPEG,尺寸只是大略的,並未驗證。 Olympus BX41 with Di-Li 5MP camera and grab&measure software, used with Hostage Mettler Toledo FP90 with FP 82 heating stage. The sample is prepared as a brush and placed in the object holder. Observe using unpolarized light or polarized light using both polarized lights at 40, 100, 200 or 400 x magnification. Photos taken with software and exported as JPEGs, dimensions are approximate and not verified.

X光粉末繞射(XRPD):X-ray Powder Diffraction (XRPD):

XRPD圖譜運用使用矽低背景樣品固定器(直徑24mm、孔0.2mm)之MiniFlex(Rigaku Corporation)取得。收集時間通常為75分鐘。Cu Kα輻射1.5406埃的光源以15kV運行照射樣品。有效2θ範圍為約2至40℃,取樣寬度為0.02℃。樣品於研缽和研棒研磨。固體放置於備有油脂的樣品固定器並以玻璃盤使其扁平。 XRPD patterns were acquired using a MiniFlex (Rigaku Corporation) using a silicon low background sample holder (24 mm diameter, 0.2 mm aperture). Collection time is typically 75 minutes. The samples were irradiated with a light source of Cu Kα radiation of 1.5406 Angstroms operating at 15 kV. The effective 2Θ range is about 2 to 40°C with a sampling width of 0.02°C. The samples were ground in a mortar and pestle. The solid was placed in a greased sample holder and flattened with a glass plate.

高效液相層析(HPLC)分析:High performance liquid chromatography (HPLC) analysis:

本發明之結晶形式(即,鹽及游離鹼)藉由總面積標準化(TAN)分析。 Crystalline forms (ie, salts and free bases) of the present invention were analyzed by total area normalization (TAN).

HPLC條件:HPLC conditions:

HPLC管柱:Phenomenex Luna8,3μm C18,4.6 x 50mm HPLC column: Phenomenex Luna8, 3μm C18, 4.6 x 50mm

流率:1.0mL/min Flow rate: 1.0mL/min

注入體積:5μL Injection volume: 5 μL

偵測:DAD偵測器,於240nm記錄 Detection: DAD detector, recording at 240nm

移動相:A-H2O+0.05% CF3COOH Mobile phase: AH 2 O+0.05% CF 3 COOH

B-CAN+0.05% CF3COOH B-CAN+0.05% CF 3 COOH

梯度泵程序:Gradient pump program:

Figure 104141965-A0305-02-0053-19
Figure 104141965-A0305-02-0053-19

實例1. 2-(4-甲基-[1,4]二氮雜環庚-1-基)-5-氧代-5H-7-硫雜1,11b二氮雜-苯並[c]芴-6-羧酸(5-甲基-吡啶-2-基甲基)-酰胺(化合物I,游離鹼)的溶解度: Example 1. 2-(4-Methyl-[1,4]diazepan-1-yl)-5-oxo-5H-7-thia 1,11bdiaza-benzo[c] Solubility of Fluorene-6-carboxylic acid (5-methyl-pyridin-2-ylmethyl)-amide (Compound I, free base):

化合物I的溶解度藉由在不同溶劑中以升高的溫度加熱,然後冷卻到室溫之懸浮化合物I來確定。取樣母液並以HPLC來測定化合物I之濃度。 The solubility of Compound 1 was determined by suspending Compound 1 in various solvents heated at elevated temperature and then cooled to room temperature. The mother liquor was sampled and the concentration of Compound I was determined by HPLC.

實例2. 化合物I(游離鹼)之多晶型物E的製備: Example 2. Preparation of polymorph E of compound I (free base):

化合物I(游離鹼)溶解於溶劑混合物中以形成溶液,然後將其濃縮成懸浮液。然後將懸浮液濃縮至乾燥。加入反溶劑到懸浮液,將其濃縮至再次乾燥。XRPD分析證實多晶型物E之形成以及顯示多晶型物E為結晶體(圖11)。乾含量經測量為99.97%w/w。1H NMR(圖13)證實該物質的結構為化合物的游離鹼。 Compound I (free base) was dissolved in the solvent mixture to form a solution, which was then concentrated to a suspension. The suspension was then concentrated to dryness. An anti-solvent was added to the suspension, which was concentrated to dryness again. XRPD analysis confirmed the formation of polymorph E and showed that polymorph E was crystalline (Figure 11). The dry content was measured to be 99.97% w/w. 1 H NMR (Figure 13) confirmed the structure of this material to be the free base of the compound.

實例3. 化合物I(游離鹼)之多晶型物A的製備: Example 3. Preparation of Polymorph A of Compound 1 (free base):

將如實例2所製備的化合物I(游離鹼)之多晶型物E懸浮於溶劑混合物。加熱懸浮液,然後冷卻到室溫。過濾懸浮液,將得到的過濾塊乾燥,以得到多晶型物A。XRPD分析證實多晶型物之形成以及顯示多晶型物A為結晶體(圖1)。乾含量經測量為99.86%w/w。1H NMR(圖5)證實該物質的結構為化合物的游離鹼。 Polymorph E of Compound I (free base), prepared as in Example 2, was suspended in the solvent mixture. The suspension was heated and then cooled to room temperature. The suspension was filtered and the resulting filter cake was dried to give polymorph A. XRPD analysis confirmed the formation of the polymorph and showed that polymorph A was crystalline (Figure 1). The dry content was measured to be 99.86% w/w. 1 H NMR (Figure 5) confirmed the structure of this material to be the free base of the compound.

DSC圖譜(圖2)於約215℃表現出尖銳的吸熱峰,隨後於約217℃有放熱峰,於約231℃有吸熱峰,於約233℃有放熱峰,於約242℃有吸熱峰。不受任何理論限制,這些事件與一熔化及之後重新結晶、另一熔化及重新結晶以及最終熔融事件是一致的。TGA圖譜(圖3)顯示從環境溫度到300℃有約0.3%的重量損失。圖4顯示DSC圖譜以及TGA圖譜的疊圖。 The DSC pattern (Figure 2) exhibited a sharp endothermic peak at about 215°C, followed by an exothermic peak at about 217°C, an endothermic peak at about 231°C, an exothermic peak at about 233°C, and an endothermic peak at about 242°C. Without being bound by any theory, these events are consistent with one melting and subsequent recrystallization, another melting and recrystallization, and a final melting event. The TGA profile (Figure 3) shows a weight loss of about 0.3% from ambient temperature to 300°C. Figure 4 shows an overlay of the DSC spectrum and the TGA spectrum.

實例4. 化合物I(游離鹼)之多晶型物C的製備: Example 4. Preparation of Polymorph C of Compound 1 (free base):

化合物I之多晶型物A於升高的溫度下懸浮於有機溶劑中,過濾、冷卻母液以形成懸浮液,再將其過濾,以獲得白色針狀固體。1H NMR(圖9)證實該物質的結構為化合物I之游離鹼。 Polymorph A of Compound I was suspended in an organic solvent at elevated temperature, the mother liquor was filtered, cooled to form a suspension, which was filtered again to obtain a white needle-like solid. <1 >H NMR (Figure 9) confirmed the structure of this material to be the free base of compound I.

XRPD分析顯示多晶型物C為結晶體,如圖7所示。 XRPD analysis showed that polymorph C was crystalline, as shown in FIG. 7 .

實例5. 化合物I(游離鹼)之多晶型物G的製備: Example 5. Preparation of Polymorph G of Compound I (free base):

化合物I之多晶型物A於升高的溫度下懸浮於另一有機溶劑中。過濾懸浮液,蒸發母液以形成懸浮液,將其過濾,以得到淡黃色固體。1H NMR(圖18)證實該物質的結構為化合物I之游離鹼。 Polymorph A of Compound I is suspended in another organic solvent at elevated temperature. The suspension was filtered and the mother liquor was evaporated to form a suspension which was filtered to give a pale yellow solid. <1 >H NMR (Figure 18) confirmed the structure of this material to be the free base of compound I.

XRPD分析顯示多晶型物G為結晶體,如圖16所示。 XRPD analysis showed that polymorph G was crystalline, as shown in FIG. 16 .

實例6. 多晶型物型態的溶解度及穩定性測試: Example 6. Solubility and Stability Testing of Polymorph Forms:

化合物I(游離鹼)之多晶型物A、C、E及G的溶解度透過將25mg之各個多晶型物懸浮於有機溶劑中來確定,並且將所得混合物在室溫或升高的溫度下攪拌1小時。將樣品過濾並濃縮,通過HPLC來確定。將剩餘的懸浮液蒸發,固體則通過XRPD分析,以確認在懸浮液中的多晶型物型態還是與用於實驗的多晶型物型態相同。 The solubility of polymorphs A, C, E and G of Compound I (free base) was determined by suspending 25 mg of each polymorph in an organic solvent and refrigerating the resulting mixture at room temperature or elevated temperature Stir for 1 hour. The sample was filtered and concentrated and determined by HPLC. The remaining suspension was evaporated and the solids were analyzed by XRPD to confirm that the polymorph form in the suspension was still the same as the polymorph form used in the experiments.

各個多晶型物的溶解度如圖20所示。多晶型物A表現出最低的溶解度,確認其為最穩定。 The solubility of each polymorph is shown in Figure 20. Polymorph A exhibited the lowest solubility and was confirmed to be the most stable.

實例7. 化合物I之鹽酸鹽的製備: Example 7. Preparation of the hydrochloride salt of compound I:

化合物I在升高溫度的溶劑混合物中溶解,隨後加入鹽酸。將懸浮液過夜攪拌,然後過濾及洗滌以獲得化合物I之鹽酸鹽,為白色粉末(產率62%)。所得鹽的特徵如1H NMR(圖23)、XRPD(圖21)及TGA(圖25)所示。TGA顯示出化合物I的鹽酸鹽於140℃表現出達0.9wt%的損失。 Compound I was dissolved in the solvent mixture at elevated temperature, followed by addition of hydrochloric acid. The suspension was stirred overnight, then filtered and washed to obtain the hydrochloride salt of Compound I as a white powder (62% yield). The resulting salt was characterized by1H NMR (FIG. 23), XRPD (FIG. 21), and TGA (FIG. 25). TGA showed that the hydrochloride salt of Compound I exhibited a loss of up to 0.9 wt% at 140°C.

實例8. 化合物I之馬來酸鹽的製備: Example 8. Preparation of the maleate salt of compound I:

化合物I在升高溫度的溶劑混合物中溶解,然後將馬來酸加入混合物中。將得到的懸浮液冷卻並攪拌、過濾、洗滌得到化合物I之馬來酸鹽,為白色粉末(產率86%)。所得鹽之特徵如1H NMR(圖28)、XRPD(圖26)及 TGA(圖30)所示。TGA顯示出化合物I之馬來酸鹽於140℃表現出達2.9wt%的損失。不受任何理論限制,此種重量損失可能歸因於溶劑的損失。 Compound I was dissolved in the solvent mixture at elevated temperature and maleic acid was then added to the mixture. The resulting suspension was cooled and stirred, filtered and washed to give the maleate salt of compound I as a white powder (86% yield). The resulting salt was characterized as shown by 1 H NMR (FIG. 28), XRPD (FIG. 26) and TGA (FIG. 30). TGA showed that the maleate salt of Compound I exhibited a loss of up to 2.9 wt% at 140°C. Without being bound by any theory, this weight loss may be due to the loss of solvent.

實例9. 化合物I之富馬酸鹽的製備: Example 9. Preparation of the Fumarate Salt of Compound I:

化合物I在升高溫度的溶劑混合物中溶解,然後將富馬酸加入混合物中。將得到的懸浮液冷卻並攪拌、過濾、洗滌得到化合物I之富馬酸鹽,為白色粉末(產率104%)。所得鹽之特徵如1H NMR(圖33)、XRPD(圖31)及TGA(圖35)所示。TGA顯示出化合物I之富馬酸鹽於140℃表現出達6.6wt%的損失。 Compound I was dissolved in the solvent mixture at elevated temperature and fumaric acid was then added to the mixture. The resulting suspension was cooled and stirred, filtered and washed to give the fumarate salt of compound I as a white powder (104% yield). The resulting salt was characterized as shown by1H NMR (Figure 33), XRPD (Figure 31) and TGA (Figure 35). TGA showed that the fumarate salt of Compound I exhibited a loss of up to 6.6 wt% at 140°C.

實例10. 化合物I之檸檬酸鹽的製備: Example 10. Preparation of the Citrate Salt of Compound 1:

化合物I在升高溫度的溶劑混合物中溶解,然後將檸檬酸加入混合物中。將得到的懸浮液冷卻並攪拌、過濾、洗滌得到化合物I之檸檬酸鹽,為白色粉末(產率93%)。所得鹽之特徵如1H NMR(圖38)、XRPD(圖36)及TGA(圖40)所示。TGA顯示出化合物I之檸檬酸酸鹽於140℃表現出達5.2wt%的損失。 Compound I was dissolved in the solvent mixture at elevated temperature and citric acid was then added to the mixture. The resulting suspension was cooled and stirred, filtered and washed to give the citrate salt of compound I as a white powder (93% yield). The resulting salt was characterized as shown by1H NMR (Figure 38), XRPD (Figure 36) and TGA (Figure 40). TGA showed that the citrate salt of Compound I exhibited a loss of up to 5.2 wt% at 140°C.

實例11. 化合物I之L-蘋果酸鹽的製備: Example 11. Preparation of the L-malate salt of compound I:

化合物I在上升溫度的溶劑混合物中溶解,然後將L-蘋果酸加入混合物中。將得到的懸浮液冷卻並攪拌、過濾、洗滌得到化合物I之檸檬酸鹽,為白色粉末(產率59%)。所得鹽之特徵如1H NMR(圖43)、XRPD(圖41)及TGA(圖45)所示。TGA顯示出化合物I之L-蘋果酸鹽於140℃表現出達4.7wt%的損失。 Compound I was dissolved in the solvent mixture at elevated temperature, and then L-malic acid was added to the mixture. The resulting suspension was cooled and stirred, filtered and washed to give the citrate salt of compound I as a white powder (59% yield). The resulting salt was characterized as shown by1H NMR (Figure 43), XRPD (Figure 41) and TGA (Figure 45). TGA showed that the L-malate salt of Compound I exhibited a loss of up to 4.7 wt% at 140°C.

實例12. 化合物I之酸式鹽的溶解度及穩定性測試: Example 12. Solubility and Stability Test of Acid Salt of Compound I:

化合物I之鹽酸鹽、馬來酸鹽、富馬酸鹽、檸檬酸鹽及L-蘋果酸鹽的溶解度通過懸浮約50mg的各種鹽於0.25mL的水中(×2,分批加入)來測定。在42℃攪拌該混合物3天,將各溶液通過HPLC進行濃度及純度分析。經過3天的測試,各種鹽的溶解度及純度如下表11所示。 The solubility of the hydrochloride, maleate, fumarate, citrate and L-malate salts of Compound I was determined by suspending approximately 50 mg of each salt in 0.25 mL of water (x2, added in portions). . The mixture was stirred at 42°C for 3 days and each solution was analyzed for concentration and purity by HPLC. After 3 days of testing, the solubility and purity of various salts are shown in Table 11 below.

Figure 104141965-A0305-02-0057-20
Figure 104141965-A0305-02-0057-20

酸式鹽的穩定性亦通過將鹽(固體形式)保存在升高的溫度45℃及80℃下來測試。穩定性試驗的結果示如下表12所示。 The stability of the acid salts was also tested by storing the salts (solid form) at elevated temperatures of 45°C and 80°C. The results of the stability test are shown in Table 12 below.

Figure 104141965-A0305-02-0057-21
Figure 104141965-A0305-02-0058-22
NT=未測試
Figure 104141965-A0305-02-0057-21
Figure 104141965-A0305-02-0058-22
NT=Not Tested

本文所列之專利及出版物都以和發明有關領域之一般技藝為準。所有專利和出版物都在此以相同程度援引加入,就如同每一個個別出版物都被具體且個別地指出援引加入。。在引用的參考文獻與本說明書間存在任何衝突的情況下,以本說明書為準。在描述本發明之具體實施例時,特定術語的採用係以清楚為主。然而,本發明無意受限於所選擇的特定術語。在本說明書中任何內容都不應被認為是限制本發明的範圍。提出的所有實例是代表性的而非限制性的。根據上述教示而如熟習此技藝者所理解,上述具體實施例可被修改或改變,而不背離本發明。因此應該理解的是,在申請專利範圍以及其均等範圍之內,本發明可在此具體描述之外被實現。 The patents and publications listed herein are based on the ordinary skill in the art to which the invention pertains. All patents and publications are hereby incorporated by reference to the same extent as if each individual publication were specifically and individually indicated to be incorporated by reference. . In the event of any conflict between the cited reference and this specification, the present specification shall control. In describing specific embodiments of the present invention, specific terminology is employed for clarity. However, the invention is not intended to be limited to the specific terminology so selected. Nothing in this specification should be construed as limiting the scope of the invention. All examples presented are representative and not limiting. The specific embodiments described above may be modified or varied without departing from the invention in light of the above teachings and as understood by those skilled in the art. It is therefore to be understood that within the scope of the patent application and its equivalents, the invention may be practiced otherwise than as specifically described herein.

Figure 104141965-A0304-11-0002-25
Figure 104141965-A0304-11-0002-25

Claims (23)

一種化合物I之結晶形式,
Figure 104141965-A0305-02-0059-23
其中,該結晶形式係化合物I之多晶型物A,其所顯示之X光粉末繞射圖譜(XRDP)包含峰值於2θ約7.730±0.3、22.050±0.3及24.550±0.3度,以及各峰值具有大於最強峰值50%之強度。
a crystalline form of Compound I,
Figure 104141965-A0305-02-0059-23
Wherein, the crystalline form is the polymorph A of compound I, and the X-ray powder diffraction pattern (XRDP) displayed by it comprises peaks at 2θ of about 7.730±0.3, 22.050±0.3 and 24.550±0.3 degrees, and each peak has The intensity is greater than 50% of the strongest peak.
如請求項1的結晶形式,其中該X光粉末繞射圖譜進一步包含峰值於(a)2θ約9.410±0.3及27.700±0.3度;及/或(b)2θ約17.950±0.3及25.400±0.3度。 The crystalline form of claim 1, wherein the X-ray powder diffraction pattern further comprises peaks at (a) about 9.410 ± 0.3 and 27.700 ± 0.3 degrees 2Θ; and/or (b) about 17.950 ± 0.3 and 25.400 ± 0.3 degrees 2Θ . 如請求項1或2的結晶形式,其中該X光粉末繞射圖譜進一步包含一或多個選自於下列的峰值:峰值於2θ約11.230±0.3、11.630±0.3、16.900±0.3、18.580±0.3、23.300±0.3及26.700±0.3度。 The crystalline form of claim 1 or 2, wherein the X-ray powder diffraction pattern further comprises one or more peaks selected from the group consisting of peaks at about 11.230±0.3, 11.630±0.3, 16.900±0.3, 18.580±0.3 at 2θ , 23.300±0.3 and 26.700±0.3 degrees. 如請求項1或2的結晶形式,其所顯示之X光粉末繞射圖譜包含選自於由下列所組成之群組的三個或更多峰值:峰值於2θ約7.730±0.3、9.410±0.3、11.230±0.3、11.630±0.3、16.900±0.3、17.950±0.3、18.580±0.3、22.050±0.3、23.300±0.3、24.550±0.3、25.400±0.3、26.700±0.3及27.700±0.3度。 The crystalline form of claim 1 or 2, which exhibits an X-ray powder diffraction pattern comprising three or more peaks selected from the group consisting of: peaks at about 7.730±0.3, 9.410±0.3 at 2θ , 11.230±0.3, 11.630±0.3, 16.900±0.3, 17.950±0.3, 18.580±0.3, 22.050±0.3, 23.300±0.3, 24.550±0.3, 25.400±0.3, 26.700±0.3 and 27.700±0.3 degrees. 如請求項3的結晶形式,其所顯示之示差掃描熱分析(DSC)圖譜於約215.41±2.0℃具有峰特徵值。 The crystalline form of claim 3, which exhibits a differential scanning calorimetry (DSC) pattern having a peak characteristic value at about 215.41±2.0°C. 如請求項1的結晶形式,具有約95%或更高的純度。 The crystalline form of claim 1 having a purity of about 95% or greater. 如請求項1的結晶形式,其所顯示之X光粉末繞射圖譜實質上相似於圖1。 A crystalline form as claimed in claim 1 which exhibits an X-ray powder diffraction pattern substantially similar to that of FIG. 1 . 一種化合物I之鹽酸鹽之結晶形式,
Figure 104141965-A0305-02-0060-24
其中,該結晶形式所顯示之X光粉末繞射圖譜(XRDP)包含峰值於2θ約4.660±0.3及24.540±0.3,以及各峰值具有大於最強峰值50%之強度。
a crystalline form of the hydrochloride salt of Compound I,
Figure 104141965-A0305-02-0060-24
Among them, the X-ray powder diffraction pattern (XRDP) displayed by the crystalline form includes peaks at 2θ of about 4.660±0.3 and 24.540±0.3, and each peak has an intensity greater than 50% of the strongest peak.
如請求項8的結晶形式,其中所顯示之DSC圖譜於約266.27±2.0℃具有峰特徵值;及/或所顯示之X光粉末繞射圖譜實質上相似於圖21。 The crystalline form of claim 8, wherein the displayed DSC pattern has a peak characteristic value at about 266.27±2.0°C; and/or the displayed X-ray powder diffraction pattern is substantially similar to FIG. 21 . 如請求項8的結晶形式,其中該X光粉末繞射圖譜進一步包含:(a)一或多個峰值於2θ約19.260±0.4、20.160±0.4、24.920±0.3及26.360±0.35度;及/或(b)一或多個峰值於2θ約13.980±0.4、14.540±0.3、25.380±0.3及28.940±0.3度。 The crystalline form of claim 8, wherein the X-ray powder diffraction pattern further comprises: (a) one or more peaks at about 19.260±0.4, 20.160±0.4, 24.920±0.3 and 26.360±0.35 degrees 2θ; and/or (b) One or more peaks at about 13.980±0.4, 14.540±0.3, 25.380±0.3 and 28.940±0.3 degrees 2θ. 如請求項8的結晶形式,具有約95%或更高的純度。 The crystalline form of claim 8, having a purity of about 95% or greater. 一種醫藥組合物,包含如請求項1-11中任一項的結晶形式及至少一醫藥上可接受的載體。 A pharmaceutical composition comprising the crystalline form of any one of claims 1-11 and at least one pharmaceutically acceptable carrier. 一種如請求項1-11中任一項的結晶形式的用途,其用於:(a)製備穩定G-四聯體(G4s)的藥物;及/或(b)製備調節p53活性的藥物。 A use of the crystalline form of any one of claims 1-11 for: (a) the preparation of a medicament that stabilizes G-quadruplexes (G4s); and/or (b) the preparation of a medicament that modulates p53 activity. 一種如請求項1-11中任一項的結晶形式的用途,其用於製備治療或改善癌症之藥物。 A use of the crystalline form of any one of claims 1-11 for the manufacture of a medicament for the treatment or amelioration of cancer. 如請求項14的用途,其中該癌症係選自於由下列所組成之群組:血癌、大腸癌、乳腺癌、肺癌、肝癌、卵巢癌、子宮頸癌、尤文氏肉瘤、胰腺癌、淋巴結癌、結腸癌、前列腺癌、腦癌、頭頸癌、皮膚癌、腎癌及心臟腫瘤。 The use of claim 14, wherein the cancer is selected from the group consisting of: blood cancer, colorectal cancer, breast cancer, lung cancer, liver cancer, ovarian cancer, cervical cancer, Ewing's sarcoma, pancreatic cancer, lymph node cancer , colon cancer, prostate cancer, brain cancer, head and neck cancer, skin cancer, kidney cancer and heart cancer. 如請求項15的用途,其中所述血癌係選自於由下列所組成之群組:白血病、淋巴瘤、骨髓瘤及多發性骨髓瘤。 The use of claim 15, wherein the blood cancer is selected from the group consisting of leukemia, lymphoma, myeloma and multiple myeloma. 如請求項15的用途,其中該癌症為同源性重組(HR)DNA雙股斷裂(DSB)修復缺陷癌症,或非同源性末端接合(NHEJ)DNA雙股斷裂修復缺陷癌症。 The use of claim 15, wherein the cancer is a homologous recombination (HR) DNA double-strand break (DSB) repair-deficient cancer, or a non-homologous end joining (NHEJ) DNA double-strand break repair-deficient cancer. 如請求項15的用途,其中該癌症包含於下列帶有缺陷之癌細胞:乳腺癌易感基因1(BRCA1)、乳腺癌易感基因2(BRCA2)及/或同源性重組途徑的其它成員。 The use of claim 15, wherein the cancer is contained in cancer cells with defects in breast cancer susceptibility gene 1 (BRCA1), breast cancer susceptibility gene 2 (BRCA2) and/or other members of the homologous recombination pathway . 如請求項18的用途,其中該癌細胞於BRCA1及/或BRCA2有缺陷。 The use of claim 18, wherein the cancer cells are deficient in BRCA1 and/or BRCA2. 如請求項19的用途,其中該癌細胞係指帶有BRCA1及/或BRCA2突變的基因型為同型合子。 The use of claim 19, wherein the cancer cells are homozygous for the genotype with BRCA1 and/or BRCA2 mutation. 如請求項19的用途,其中該癌細胞係指帶有BRCA1及/或BRCA2突變的基因型為異型合子。 The use according to claim 19, wherein the cancer cells are heterozygous for the genotype with BRCA1 and/or BRCA2 mutation. 如請求項14-18中任一項的用途,其中該藥物用於與一或多種額外的治療劑及/或放射療法共同投予。 The use of any of claims 14-18, wherein the medicament is for co-administration with one or more additional therapeutic agents and/or radiation therapy. 如請求項22的用途,其中所述一或多種額外之治療劑係為抗癌劑或免疫治療劑。 The use of claim 22, wherein the one or more additional therapeutic agents are anticancer or immunotherapeutic agents.
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WO2009046383A1 (en) * 2007-10-05 2009-04-09 Cylene Pharmaceuticals, Inc. Quinolone analogs and methods related thereto
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