WO2020178172A1 - Protein signature for the diagnosis of colorectal cancer and/or pre-cancerous stage thereof - Google Patents

Protein signature for the diagnosis of colorectal cancer and/or pre-cancerous stage thereof Download PDF

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Publication number
WO2020178172A1
WO2020178172A1 PCT/EP2020/055277 EP2020055277W WO2020178172A1 WO 2020178172 A1 WO2020178172 A1 WO 2020178172A1 EP 2020055277 W EP2020055277 W EP 2020055277W WO 2020178172 A1 WO2020178172 A1 WO 2020178172A1
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cyfra21
flt3l
colorectal cancer
areg
concentration level
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English (en)
French (fr)
Inventor
Ana Carmen MARTÍN ROGRÍGUEZ
Rosa PÉREZ PALACIOS
Rocío ARROYO ARRANZ
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Advanced Marker Discovery SL AMADIX
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Advanced Marker Discovery SL AMADIX
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Priority to JP2021551880A priority Critical patent/JP2022522803A/ja
Priority to KR1020217031563A priority patent/KR102769007B1/ko
Priority to BR112021017248-3A priority patent/BR112021017248B1/pt
Priority to CN202080032932.8A priority patent/CN113785199B/zh
Priority to MX2021010451A priority patent/MX2021010451A/es
Priority to US17/434,976 priority patent/US20220276249A1/en
Priority to EP20706332.2A priority patent/EP3931571B1/en
Priority to AU2020230963A priority patent/AU2020230963B2/en
Application filed by Advanced Marker Discovery SL AMADIX filed Critical Advanced Marker Discovery SL AMADIX
Priority to CA3131729A priority patent/CA3131729A1/en
Priority to ES20706332T priority patent/ES2952139T3/es
Publication of WO2020178172A1 publication Critical patent/WO2020178172A1/en
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Priority to JP2024224464A priority patent/JP2025038186A/ja
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/48Biological material, e.g. blood, urine; Haemocytometers
    • G01N33/50Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
    • G01N33/53Immunoassay; Biospecific binding assay; Materials therefor
    • G01N33/575Immunoassay; Biospecific binding assay; Materials therefor for cancer
    • G01N33/57535Immunoassay; Biospecific binding assay; Materials therefor for cancer of the large intestine, e.g. colon, rectum or anus
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/48Biological material, e.g. blood, urine; Haemocytometers
    • G01N33/50Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
    • G01N33/53Immunoassay; Biospecific binding assay; Materials therefor
    • G01N33/575Immunoassay; Biospecific binding assay; Materials therefor for cancer
    • G01N33/5758Immunoassay; Biospecific binding assay; Materials therefor for cancer involving compounds serving as markers for tumours, cancers or neoplasias, e.g. cellular determinants, receptors, heat shock/stress proteins, A-protein, oligosaccharides or metabolites
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N2333/00Assays involving biological materials from specific organisms or of a specific nature
    • G01N2333/435Assays involving biological materials from specific organisms or of a specific nature from animals; from humans
    • G01N2333/52Assays involving cytokines
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N2800/00Detection or diagnosis of diseases
    • G01N2800/56Staging of a disease; Further complications associated with the disease

Definitions

  • the present invention can be included in the medical field.
  • the present invention refers to an in vitro method for the diagnosis of colorectal cancer and/or pre- cancerous stage thereof.
  • Colorectal cancer (also known as colon cancer, rectal cancer, or bowel cancer) is the development of cancer in the colon or rectum (parts of the large intestine).
  • the vast majority of colorectal cancers are adenocarcinomas. This is because the colon has numerous glands within the tissue. When these glands undergo a number of changes at the genetic level, they proceed in a predictable manner as they move from benign to an invasive, malignant colon cancer.
  • the adenomas of the colon particularly advanced colorectal adenoma (AA) are a benign version of the malignant adenocarcinomas but still with malignant potential if not removed (they are usually removed because of their tendency to become malignant and to lead to colon cancer).
  • FIT Fecal Immunochemical Test
  • the gastroenterologist uses a colonoscopy to find and remove these adenomas and polyps to prevent them from continuing to acquire genetic changes that will lead to an invasive adenocarcinoma.
  • FIT is nowadays used for screening colorectal cancer, it is important to note that FIT offers a low sensitivity for AA (around 20-30% depending on literature) which means that most of said kind of patients can be wrongly classified as not having the disease. Consequently, FIT is not able to identify adenomas due to its low sensitivity.
  • FIT since FIT uses stool samples, it offers a low compliance.
  • the colonoscopy is an invasive technique wherein the most severe complication generally is the gastrointestinal perforation.
  • colonoscopy is nowadays a procedure involving anesthesia, and the laxatives which are usually administered during the bowel preparation for colonoscopy are associated with several digestive problems.
  • the present invention offers a clear solution to the problems cited above because it is focused on an in vitro method for identifying or screening human subjects at risk of suffering from colorectal cancer or colorectal adenomas (particularly advanced colorectal adenomas), departing from the concentration level of protein biomarkers isolated from minimally-invasive samples such as blood, serum or plasma. Since the method of the invention is based on blood, serum or plasma samples, it is expected to improve compliance to colorectal cancer screening. Moreover, the method of the invention offers high sensitivity and specificity, which means that it is a strong and cost- effective method for the detection of both colorectal cancer and colorectal adenomas.
  • the present invention refers to an in vitro method for diagnosing, identifying or screening human subjects at risk of suffering from colorectal cancer and/or advanced colorectal adenomas, departing from the concentration level of protein biomarkers isolated from minimally-invasive samples such as blood, serum or plasma.
  • the method of the invention offers high sensitivity and specificity, which means that it is a strong and cost-effective method for the detection of both colorectal cancer and colorectal adenomas.
  • the method of the invention Since the method of the invention has higher sensitivity and specificity as compared to the method used today (FIT) for screening general population at risk of suffering from CRC or AA, it is associated with a lower percentage of false positives. Consequently, the method described in the present invention clearly helps in reducing the number of follow-up colonoscopies, thus improving the way that the patients are nowadays screened or diagnosed.
  • the method of the invention is performed, if it is determined that the patients might be suffering from colorectal cancer and/or precancerous stage, the result is confirmed by colonoscopy. However, if it is not determined that the patient might be suffering from colorectal cancer and/or precancerous stage, there is no need to perform a colonoscopy and routine testing with the method of the invention defined below is recommended.
  • the first embodiment of the present invention refers to an in vitro method (hereinafter“method of the invention”) for the diagnosis of colorectal cancer and/or a pre-cancerous stage thereof which comprises: a) Measuring the concentration level of at least Flt3L, in a biological sample obtained from the subject and b) wherein if a deviation or variation of the concentration level of at least Flt3L is identified, as compared with the reference concentration level measured in healthy control subjects, this is indicative that the subject is suffering from colorectal cancer and/or a pre cancerous stage.
  • method of the invention for the diagnosis of colorectal cancer and/or a pre-cancerous stage thereof which comprises: a) Measuring the concentration level of at least Flt3L, in a biological sample obtained from the subject and b) wherein if a deviation or variation of the concentration level of at least Flt3L is identified, as compared with the reference concentration level measured in healthy control subjects, this is indicative that the subject is suffering from colorectal cancer
  • the method of the invention comprises measuring the concentration level of at least the combination rFlt3L and CYFRA21-11 in a biological sample obtained from the subject.
  • any of the signatures comprising Flt3L. preferably rFlt3L and CYFRA21 - 11. can be efficiently used according to the present invention
  • the second embodiment of the present invention refers to a kit of parts comprising reagents for the determining the concentration level of any of the above cited signatures.
  • the present invention refers to the in vitro use of a kit comprising reagents for the determination of the concentration level of Flt3L, or the combination [Flt3L and CYFRA21-1], preferably [Flt3L and CYFRA21-1 and AREG], [Flt3L and CYFRA21-1 and AREG and ErbB4] or [Flt3L and CYFRA21-1 and AREG and CLEC2C] for the diagnosis of colorectal cancer and/or a pre-cancerous stage thereof.
  • a score value is obtained for the signature and this score value is compared with a threshold value which defines the diagnostic rule. If this score value is higher than the threshold, then the corresponding sample is classified as a positive sample, which is an indication that the patient might be suffering from colorectal cancer and/or pre-cancerous stage thereof.
  • the threshold value has been defined in order to optimize sensitivity and specificity values.
  • the method of the invention comprises: a) Measuring the concentration level of any of the above cited combinations of biomarkers, in a biological sample obtained from the subject, b) processing the concentration values in order to obtain a risk score and c) wherein if a deviation or variation of the risk score value obtained for any of the above cited combinations of biomarkers is identified, as compared with a reference value, this is indicative that the subject is suffering from colorectal cancer and/or a pre-cancerous stage.
  • the third embodiment of the present invention refers to the in vitro use of any of the above cited biomarkers or signatures for the diagnosis of colorectal cancer and/or a pre- cancerous stage thereof.
  • the pre-cancerous stage of colorectal cancer is advanced colorectal adenoma.
  • the diagnosis of the colorectal cancer and/or a pre-cancerous stage thereof is confirmed by an image technique, preferably colonoscopy.
  • the present invention refers to an in vitro method for detecting colorectal cancer and/or a precancerous stage thereof, said method comprising: a) obtaining a plasma sample from a human patient; and b) detecting whether any of the above cited protein biomarkers or signatures are present in the plasma sample by contacting the plasma sample with an antibody directed against said protein biomarkers or signatures and detecting binding between the proteins and the antibody.
  • the fourth embodiment of the present invention refers to a method for diagnosing and treating colorectal cancer or a pre-cancerous stage thereof, which comprises: a) obtaining a plasma sample from a human patient; b) detecting whether any of the above cited protein biomarkers or signatures are present in the plasma sample; c) diagnosing the patient with colorectal cancer or a pre-cancerous stage thereof when the presence of said protein biomarkers or signatures in the plasma sample is detected; and performing a colonoscopy to the patient and removing the colorectal cancer or polyps afterwards.
  • the fifth embodiment of the present invention refers to an in vitro method (hereinafter“method of the invention”) for the diagnosis of colorectal cancer and/or a pre-cancerous stage thereof which comprises: a) Measuring the concentration level of at least AREG, in a biological sample obtained from the subject and b) wherein if a deviation or variation of the concentration level of at least AREG is identified, as compared with the reference concentration level measured in healthy control subjects, this is indicative that the subject is suffering from colorectal cancer and/or a pre- cancerous stage.
  • the method of the invention comprises measuring the concentration level of at least the combination [AREG and CYFRA21-1] in a biological sample obtained from the subject.
  • AREG. preferably rAREG and CYFRA21-11 comprises AREG. preferably rAREG and CYFRA21-11.
  • biomarker signatures comprising AREG. preferably comprising rAREG and CYERA21-11. with an Area Under the Curve (AUC) around 0.9 for the detection of CRC a with a good performance also for the detection of AA (see Table 12bis).
  • AUC Area Under the Curve
  • any of the signatures comprising AREG. preferably comprising rAREG and CYERA21-11. could be effectively used according to the present invention, the following signatures comprising AREG. preferably comprising 1AREG and CYERA21-11.
  • the method of the invention comprises measuring the concentration level of at least the combination [AREG and CYFRA21-1 and Flt3L], or the combination of [AREG and CYFRA21-1 and CLEC2C], or the combination of [AREG and CYFRA21-1 and ErbB4], or the combination [AREG and CYFRA21-1 and FasL], or the combination [AREG and CYFRA21-1 and CD147], or the combination [AREG and CYFRA21-1 and HGFR], or the combination [AREG and CYFRA21-1 and Flt3L and ErbB4], or the combination of [AREG and CYFRA21-1 and Flt3L and CLEC2C], or the combination of [AREG and CYFRA21-1 and HGFR and CD 147] in a biological sample obtained from the subject.
  • the method of the invention comprises measuring the concentration level of at least the combination [AREG and CD 147], or the combination of [AREG and CLEC2C], or the combination of [AREG and HGFR], or the combination [AREG and CD 147 and HGFR] in a biological sample obtained from the subject.
  • the sixth embodiment of the present invention refers to the in vitro use of any of the above cited signatures for the diagnosis of colorectal cancer and/or a pre-cancerous stage thereof.
  • a score value is obtained for the signature and this score value is compared with a threshold value which defines the diagnostic rule. If this score value is higher than the threshold, then the corresponding sample is classified as a positive sample, which is an indication that the patient might be suffering from colorectal cancer and/or pre-cancerous stage thereof.
  • the threshold value has been defined in order to optimize sensitivity and specificity values.
  • the method of the invention comprises: a) Measuring the concentration level of any of the above cited combinations of biomarkers, in a biological sample obtained from the subject, b) processing the concentration values in order to obtain a risk score and c) wherein if a deviation or variation of the risk score value obtained for any of the above cited combinations of biomarkers is identified, as compared with a reference value, this is indicative that the subject is suffering from colorectal cancer and/or a pre-cancerous stage.
  • the seventh embodiment of the present invention refers to a kit of parts comprising reagents for the determining the concentration level of any of the above cited signatures.
  • the present invention refers to the in vitro use of a kit comprising reagents for the determination of the concentration level of any of the above cited combinations of biomarkers for the diagnosis of colorectal cancer and/or a pre- cancerous stage thereof.
  • the pre-cancerous stage of colorectal cancer is advanced colorectal adenoma.
  • the diagnosis of the colorectal cancer and/or a pre-cancerous stage thereof is confirmed by an image technique, preferably colonoscopy.
  • the present invention refers to an in vitro method for detecting colorectal cancer and/or a precancerous stage thereof, said method comprising: a) obtaining a plasma sample from a human patient; and b) detecting whether any of the above cited protein biomarkers or signatures are present in the plasma sample by contacting the plasma sample with an antibody directed against said protein biomarkers or signatures and detecting binding between the proteins and the antibody.
  • the last embodiment of the present invention refers to a method for diagnosing and treating colorectal cancer or a pre-cancerous stage thereof, which comprises: a) obtaining a plasma sample from a human patient; b) detecting whether any of the above cited protein biomarkers or signatures are present in the plasma sample; c) diagnosing the patient with colorectal cancer or a pre-cancerous stage thereof when the presence of said protein biomarkers or signatures in the plasma sample is detected; and performing a colonoscopy to the patient and removing the colorectal cancer or polyps afterwards.
  • colonal cancer is a medical condition characterized by cancer of cells of the intestinal tract below the small intestine (i.e., the large intestine (colon), including the cecum, ascending colon, transverse colon, descending colon, sigmoid colon, and rectum).
  • colonar adenoma refers to adenomas of the colon, also called adenomatous polyps, which is a benign and pre-cancerous stage of the colorectal cancer but still with high risk of progression to colorectal cancer.
  • the expression“advanced colorectal adenoma” refers to adenomas having a size of at least 10 mm or histologically having high grade dysplasia or a villous component higher than 20%.
  • minimally-invasive biological sample refers to any sample which is taken from the body of the patient without the need of using harmful instruments, other than fine needles used for taking the blood from the patient, and consequently without being harmfully for the patient.
  • minimally-invasive biological sample refers in the present invention to: blood, serum, or plasma samples.
  • risk score refers to a risk value obtained after processing one or more concentration values into a single value (or risk value), which represents the probability of disease for the individual. This risk value will be compared with a reference value to evaluate if the patient might be suffering from colorectal cancer and/or pre-cancerous stage thereof.
  • A“reference value” can be a threshold value or a cut-off value.
  • a “threshold value” or “cut-off value” can be determined experimentally, empirically, or theoretically.
  • a threshold value can also be arbitrarily selected based upon the existing experimental and/or clinical conditions, as would be recognized by a person of ordinary skilled in the art. The threshold value has to be determined in order to obtain the optimal sensitivity and specificity according to the function of the test and the benefit/risk balance (clinical consequences of false positive and false negative).
  • the person skilled in the art may compare the biomarker levels (or scores) obtained according to the method of the invention with a defined threshold value.
  • the optimal sensitivity and specificity can be determined using a Receiver Operating Characteristic (ROC) curve based on experimental data.
  • ROC Receiver Operating Characteristic
  • the full name of ROC curve is receiver operator characteristic curve, which is also known as receiver operation characteristic curve. It is mainly used for clinical biochemical diagnostic tests.
  • ROC curve is a comprehensive indicator that reflects the continuous variables of true positive rate (sensitivity) and false positive rate (1-specificity). It reveals the relationship between sensitivity and specificity with the image composition method.
  • a series of different cut-off values are set as continuous variables to calculate a series of sensitivity and specificity values. Then sensitivity is used as the vertical coordinate and specificity is used as the horizontal coordinate to draw a curve. The higher the area under the curve (AUC), the higher the accuracy of diagnosis.
  • AUC area under the curve
  • the point closest to the far upper left of the coordinate diagram is a critical point having both high sensitivity and high specificity values.
  • the AUC value of the ROC curve is between 1.0 and 0.5. When AUC>0.5, the diagnostic result gets better and better as AUC approaches 1. When AUC is between 0.5 and 0.7, the accuracy is low. When AUC is between 0.7 and 0.9, the accuracy is good.
  • X axis represents Specificity.
  • Y axis represents Sensitivity.
  • CYFRA21-1 and AREG in advanced colorectal adenoma.
  • Area Under Curve (AUC) 0.720.
  • X axis represents Specificity.
  • Y axis represents Sensitivity.
  • X axis represents Specificity.
  • Y axis represents Sensitivity.
  • X axis represents Specificity.
  • Y axis represents Sensitivity.
  • X axis represents Specificity.
  • Y axis represents Sensitivity.
  • B) [AREG and CYFRA21-1 and Flt3L and ErbB4] in advanced colorectal adenoma. Area Under Curve (AUC) 0.707.
  • X axis represents Specificity.
  • Y axis represents Sensitivity.
  • B) [AREG and CYFRA21-1 and Flt3L and CLEC2C] in advanced colorectal adenoma. Area Under Curve (AUC) 0.727.
  • X axis represents Specificity.
  • Y axis represents Sensitivity.
  • B) [AREG and CYFRA21-1 and CD 147 and HGFR] in advanced colorectal adenoma. Area Under Curve (AUC) 0.769.
  • X axis represents Specificity.
  • Y axis represents Sensitivity.
  • Example 1.1 Population of study.
  • Example 1.2 Sample preparation.
  • Example 1.3 Molecular analysis. The concentration of the biomarkers in plasma samples was established using commercial ELISA (Enzyme-linked immunosorbent assay) and CLIA (Chemiluminescence immunoassay) test and following their corresponding instruction manual. HGFR and ErbB4 was analyzed with ELISA kit from Cloud clone Corp. Level of CD 147, CLEC2C, Flt3L, and FasL was measured using ELISA Kit form Elabscience. In the case of the IFNgamma, ELISA kit from Abeam was used. Related to CLIA test, CYFRA21-1 and AREG were analyzed with CLIA test from Cloud Clone Corp.
  • the samples were processed with the corresponding kit (ELISA/CLIA) and distributed in experimental plates. Each plate contained also control data used to construct a standard curve. Fluorescence data obtained from each run (expressed as integer numbers) have been background corrected for each sample and quantified using a standard curve generated using a 2-degree polynomial regression model.
  • Example 1.5 Statistical analysis.
  • CRC Individuals diagnosed with colorectal cancer
  • AA Individuals diagnosed with advanced adenoma
  • CTL Individuals with no disease
  • Raw quantification data have been transformed by applying square root function, and then centering and scaling so that, after the transformation, each protein measure have mean 0 and standard deviation 1. Quantification values are summarized in Table 2 and Table 3, where each protein is described as median and interquartile range in the different groups considered.
  • Non-normality of the data was confirmed by Shapiro-Wilk test and, consequently, Wilcoxon rank-sum test was used to compare either CRC cases or AA cases against CTL individuals.
  • ROC receiver operating characteristic
  • AUC area under the ROC curves
  • sensitivities, specificities, positive predictive and negative predictive values (PPV and NPV) for the different tests were calculated at the optimal cutoff point defined by the best Youden’s Index (or equivalently, the point of the ROC that maximizes the sum of sensitivity and specificity).
  • Table 2 and Table 3 shows metrics for individual proteins, including p-value from Wilcoxon test (p.Wilc), area under the ROC curve (AUC), and Sensitivity (Sens.), Specificity (Spec.), and positive (VPP) and negative (VPN) predictive values computed in the cut-off point of the ROC curve with the best Youden's index.
  • the sign column indicates, for the biomarkers with p-value ⁇ 0.25, whether high levels of the marker increase or decrease the risk of disease (+ and - respectively).
  • Example 2.2 Best combinations of biomarkers.
  • Table 4 Table 5, Table 5 bis, Table 6 and Table 6 bis show the AUC achieved for the combinations of two, three and four biomarkers respectively, discriminating CRC vs CTL.
  • Table 7 shows the AUC achieved for the combinations of two, three and four biomarkers respectively, discriminating AA vs CTL.
  • Table 10 and Table lObis show the best results for CRC.
  • Table 11 and Table llbis show the best results for AA.
  • the metrics for the best combinations of proteins are included, comprising area under the ROC curve (AUC), Sensitivity (Sens.), Specificity (Spec.), and positive (PPV) and negative (NPV) predictive values computed in the cut-off point of the ROC curve with the best Youden ' s index.
  • Table 12 and Table 12bis have been designed to show the overlapping of the most important signatures claimed in the present invention. It is clearly shown that all the best signature signatures comprise [Flt3L and CYFRA21-1] and [AREG and CYFRA21-1]

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PCT/EP2020/055277 2019-03-01 2020-02-28 Protein signature for the diagnosis of colorectal cancer and/or pre-cancerous stage thereof Ceased WO2020178172A1 (en)

Priority Applications (11)

Application Number Priority Date Filing Date Title
EP20706332.2A EP3931571B1 (en) 2019-03-01 2020-02-28 Protein signature for the diagnosis of colorectal cancer and/or pre-cancerous stage thereof
BR112021017248-3A BR112021017248B1 (pt) 2019-03-01 2020-02-28 Método in vitro para o diagnóstico de câncer colorretal e/ou um seu estágio pré- canceroso, usos in vitro da combinação de [flt3l e cyfra21-1] e da combinação de da combinação de [flt3l e cyfra21-1 e areg], ou [flt3l e cyfra21-1 e areg e erbb4], ou {flt3l e cyfra21-1 e areg e clec2c] em uma amostra biológica obtida do paciente,e uso de um kit de partes
CN202080032932.8A CN113785199B (zh) 2019-03-01 2020-02-28 用于诊断结肠直肠癌和/或其癌前阶段的蛋白质特征
MX2021010451A MX2021010451A (es) 2019-03-01 2020-02-28 Firma proteica para la diagnosis de cáncer colorrectal y/o etapa pre cancerosa del mismo.
US17/434,976 US20220276249A1 (en) 2019-03-01 2020-02-28 Protein signature for the diagnosis of colorectal cancer and/or pre-cancerous stage thereof
JP2021551880A JP2022522803A (ja) 2019-03-01 2020-02-28 結腸直腸癌及び/又はその前癌段階の診断用タンパク質シグネチャー
ES20706332T ES2952139T3 (es) 2019-03-01 2020-02-28 Firma proteica para el diagnóstico de cáncer colorrectal y/o etapa precancerosa del mismo
AU2020230963A AU2020230963B2 (en) 2019-03-01 2020-02-28 Protein signature for the diagnosis of colorectal cancer and/or pre-cancerous stage thereof
CA3131729A CA3131729A1 (en) 2019-03-01 2020-02-28 Protein signature for the diagnosis of colorectal cancer and/or pre-cancerous stage thereof
KR1020217031563A KR102769007B1 (ko) 2019-03-01 2020-02-28 대장암 및/또는 이의 전암 단계 진단을 위한 단백질 시그니처
JP2024224464A JP2025038186A (ja) 2019-03-01 2024-12-19 結腸直腸癌及び/又はその前癌段階の診断用タンパク質シグネチャー

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* Cited by examiner, † Cited by third party
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US20220276249A1 (en) * 2019-03-01 2022-09-01 Advanced Marker Discovery S.l. Protein signature for the diagnosis of colorectal cancer and/or pre-cancerous stage thereof
RU2819181C1 (ru) * 2023-06-22 2024-05-15 федеральное государственное автономное образовательное учреждение высшего образования Первый Московский государственный медицинский университет имени И.М. Сеченова Министерства здравоохранения Российской Федерации (Сеченовский университет) (ФГАОУ ВО Первый МГМУ им. И.М. Сеченова Минздрава России (Се Способ диагностики колоректального рака

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