EP2525660A1 - Formulierung mit modifzierter freisetzung und verwendungsverfahren - Google Patents
Formulierung mit modifzierter freisetzung und verwendungsverfahrenInfo
- Publication number
- EP2525660A1 EP2525660A1 EP11735033A EP11735033A EP2525660A1 EP 2525660 A1 EP2525660 A1 EP 2525660A1 EP 11735033 A EP11735033 A EP 11735033A EP 11735033 A EP11735033 A EP 11735033A EP 2525660 A1 EP2525660 A1 EP 2525660A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- formulation
- retigabine
- release
- modified release
- formulations
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
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Classifications
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- A61K31/33—Heterocyclic compounds
- A61K31/395—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins
- A61K31/435—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having six-membered rings with one nitrogen as the only ring hetero atom
- A61K31/44—Non condensed pyridines; Hydrogenated derivatives thereof
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- A61K9/16—Agglomerates; Granulates; Microbeadlets ; Microspheres; Pellets; Solid products obtained by spray drying, spray freeze drying, spray congealing,(multiple) emulsion solvent evaporation or extraction
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Definitions
- This invention relates generally to pharmaceutical compositions and, more specifically to pharmaceutical formulations for the efficacious treatment of nervous system hyperexcitability.
- IR dosage forms result in an initial very high blood level concentration that is followed by a rapid decline.
- One potential result of an immediate release dosage form is that the patient experiences varying degrees of blood level fluctuation, which can result in transient therapeutic overloads, followed by a period of therapeutic under-dosing. These blood level fluctuations, or peaks and troughs, are difficult to regulate and lower the overall therapeutic benefit of the administered dose.
- Delayed or controlled release formulations also have been developed for a number of active ingredients.
- delayed release formulations exhibit disadvantages which affect their suitability to a particular drug or therapeutic objective.
- these types of formulations are generally designed to delay the release of active ingredient in an effort to dampen the extent of dose overloads and under dosing.
- the active ingredient can still exhibit fluctuations in blood level concentrations.
- embodiments of the present invention relate to a modified release pharmaceutical formulation that includes about 30-70% N-(2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester (retigabine), or a pharmaceutically acceptable salt, solvate or hydrate thereof, about 5-30% of a drug delivery matrix including hydroxypropylmethylcellulose (HPMC) and an enteric polymer.
- the pharmaceutical formulation produces a sustained plasma concentration of retigabine following administration to a subject for 4-20 hours longer than the time required for in vitro release of 80% of retigabine.
- embodiments of the present invention relates to a formulation that includes about 30-70% N-(2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester (retigabine), or a pharmaceutically acceptable salt, solvate or hydrate thereof, about 5-30% of a drug delivery matrix, and an agent for retarding release in the gastric environment.
- the plasma concentration vs. time profile of this formulation is substantially flat over an extended period lasting for about 4 hours to about 36 hours.
- embodiments of the present invention relate to a method of treating a disorder characterized by nervous system hyperexcitability that includes administering to a subject an effective amount of these pharmaceutical formulations.
- Figure 1 compares the in vitro dissolution and in vivo absorption profiles for the delayed release formulations for Avinza ® and Kapinol ® (Kadian ® ).
- Figure 1 A shows the dissolution profiles for Avinza ® and Kapinol ® under simulated intestinal fluid.
- Figure 1 B shows the plasma concentration for Avinza ® and Kapinol ® following administration to a subject.
- Figure 2 shows a comparison of the retigabine concentration-time profile simulated based on dissolution results with that of observed retigabine concentration-time profiles following administration in a modified release formulation of the invention.
- Figure 3 shows pharmacokinetic concentration-time profiles of exemplary formulations in healthy subjects under fed and/or fasted condition compared to an immediate release formulations or to a control formulation.
- Figure 4 shows dissolution time profiles of retigabine for Formulations 1-9.
- Figure 5 shows the solubility of retigabine as a function of pH.
- Figure 6 shows mean concentration time profiles (dose normalized to 400mg) of retigabine following administration of retigabine IR (400 mg) and retigabine modified release (MR) Example VIII (480 mg) and Example IX (480 mg) in the fasted state.
- Figure 7 shows mean concentration time profiles (dose normalized to 400mg ) of retigabine following administration of retigabine IR (400 mg) and retigabine MR Example VIII (480 mg) and Example IX (480 mg) in the fed state (High Fat).
- Figure 8 shows dissolution profile of Examples VIII and IX.
- This invention is directed to pharmaceutical compositions having modified released properties of the active pharmaceutical ingredient retigabine.
- the modified release compositions of the invention result in a sustained plasma concentration of an active pharmaceutical ingredient for up to 20 hours or more.
- the modified release compositions of the invention are particularly useful for treatment of a wide variety of neurological-related disorders because sustained or prolonged plasma concentrations provide longer periods of pharmacological action.
- the benefits that can be realized due to these properties include enhanced efficacy, reduced dosages and decreased administrations. These and other characteristics also can lead to improved patient compliance and decreased incidences of adverse drug reactions.
- the invention is directed to a pharmaceutical composition containing the active pharmaceutical ingredient N-(2-amino-4-(4-fluorobenzylamino)- phenyl) carbamic acid ethyl ester or 2-amino-4-(4-fluorobenzylamino)-l- ethoxycarbonylaminobenzene.
- Exemplary formulation components for this specific embodiment can include about 10-15% drug delivery matrix, about 20-30% microcrystalline cellulose modified release polymer/binder, about 1-5% hypromellose 2910 modified release polymer/binder, about 3- 5% copovidone binder, about 1% crospovidone disintegrant, about 2-7% croscarmellose sodium disintegrant, about 2-6% sodium dodecyl sulfate (SDS) surfactant, about 2-6% other surfactants, about 0.2-1.0% magnesium stearate lubricant, about 0.2 -1.0% silicon dioxide glidant, and an enteric coating.
- Exemplary plasma concentrations can reach a maximum after about 10 hours or longer following administration and are sustained for about 10-20 hours or more.
- the modified release pharmaceutical compositions containing 2-amino-4-(-fluorobenzylamino)-l- ethoxycarbonylaminobenzene are useful for treating a variety of disorders characterized by nervous system hyperexcitability and/or smooth muscle hyperexcitability, including seizure disorders such as epilepsy, neuropathic pain, inflammation, overactive bladder, urinary incontinence, functional bowel disorders, ulcerative conditions of the intestinal tract, hyperactive gastric motility, asthma, hypertension, migraine, and eating disorders.
- seizure disorders such as epilepsy, neuropathic pain, inflammation, overactive bladder, urinary incontinence, functional bowel disorders, ulcerative conditions of the intestinal tract, hyperactive gastric motility, asthma, hypertension, migraine, and eating disorders.
- the modified release pharmaceutical compositions containing 2-amino-4-(-fluorobenzylamino)-l-ethoxycarbonylaminobenzene are useful as antidystonics, effectively reducing muscle tonicity and spasms. Additionally, these modified release compositions are useful as neuroprotective agents, for example, under conditions of reduced cerebral blood flow, such as during a stroke and other ischemia-related events, and for the treatment of vascular diseases affecting blood flow such as Raynaud's syndrome, impotence, premature ejaculation, female anoryasmia, clitoral erectile insufficiency, vaginal engorgement, dyspareunia and vaginismus.
- vascular diseases affecting blood flow such as Raynaud's syndrome, impotence, premature ejaculation, female anoryasmia, clitoral erectile insufficiency, vaginal engorgement, dyspareunia and vaginismus.
- the modified release composition is useful for achieving reversible cardiac arrest and restoring coronary blood flow.
- the modified release pharmaceutical composition is also useful for the treatment of neurodegeneration.
- Other disorders that are effectively treated by the modified release compositions include intermittent claudication, pollakiuria, nocturia, hyperreflexia, enuresis, alopecia, dysmenorrhea!, begnign prostatic hyperplasia, premature labor, disorders associated with diabetes, such as retinopathy, neuropathy, nephropathy, peripheral circulation disorder, and skin ulceration.
- the modified compositions are also useful for treating behavioral disorders such as nicotine addiction withdrawal, mania, bipolar disease, and anxiety disorders.
- modified release compositions of the invention exhibit properties unlike those of typical slow release or delayed release formulations.
- slow or delayed release formulations Generally, slow or delayed release
- formulations are based on delaying the rate of dissolution or release of active pharmaceutical ingredient (API) so as to retard delivery of portions of or the entire dose.
- API active pharmaceutical ingredient
- the in vivo adsorption profile of the API therefore parallels its in vitro dissolution profile. For example, if a slow release formulation releases an API over a 10 hour period, its absorption profile similarly will show an increasing or sustained plasma concentration over this 10 hour period, followed by a steady decline after release of most of the dose.
- Figure 1 exemplifies these slow and/or delayed release formulation properties for the two morphine formulations Avinza ® and Kapinol ® (Kadian ® ).
- Figure 1 A shows that the in vitro dissolution of Kadian ® is about 100% complete at about 7 hours under conditions that simulate intestinal fluid (e.g., pH 7.5). The in vitro dissolution of Avinza ® under these conditions is about 90% complete after about 24 hours.
- the in vivo adsorption profiles parallel these delayed release rates.
- Kadian® plasma concentrations peak at about 6-7 hours post administration followed by a marked decline thereafter.
- Avinza® plasma concentrations exhibit a concentration profile that has a much lower maximum value, that is relatively constant over the duration of the 24 hour release period, and is followed by a decline thereafter.
- the modified release formulations of the invention exhibit very different in vivo absorption characteristics compared to what would be expected based on their in vitro dissolution profiles under simulated intestinal conditions. As described further below, the modified release formulations result in a steady release of retigabine where about 80% or more becomes dissolved by about 4-6 hours under simulated intestinal conditions. However, the in vivo absorption profiles as measured by retigabine plasma concentrations do not parallel the dissolution profiles. Rather, maximum retigabine concentrations are observed well after its peak release and are maintained at a significant plasma level for at least about 4-8 times longer than would be expected.
- Figure 2 provides a simulation illustrating the effect of a change in the absorption rate constant (K a ), mimicking a change in the rate of retigabine dissolution, over a range of times that allows for 75% release and absorption of retigabine up to approximately 27 hours.
- K a absorption rate constant
- This simulation included a lag of 1 hour to account for the inclusion of an enteric polymer as part of a coating on a modified release formulation of the invention. Release of 75% of the active ingredient by 6.9 hours, as provided by an K a equal to 0.2 (dotted line), therefore represents a total of 7.9 hours following administration to a subject. This rate closely resembles observed in vitro dissolution results shown in Figure 4 and Example V below.
- An active pharmaceutical ingredient, or API or active ingredient refers to the chemical or substance in a drug that is pharmaceutically active. These terms are used herein synonymously and include all such art recognized meanings.
- An active pharmaceutical ingredient of the invention includes pharmaceutically acceptable forms of the chemical or substance.
- a specific example of an active pharmaceutical ingredient useful in the formulations of the invention is N-(2-amino-4-(4-fluorobenzylamino)-phenyl) carbamic acid ethyl ester or 2-amino-4-(4- fluorobenzylamino)-l-ethoxycarbonylaminobenzene. This compound also is known in the art as retigabine and has the structure:
- Pharmaceutically acceptable forms of an active ingredient include, for example, variations of the referenced active pharmaceutical ingredient that are physiologically tolerable at doses to be administered and retain pharmaceutical activity.
- Pharmaceutically acceptable forms of an active pharmaceutical ingredient include, for example, solvates, hydrates, isomorphs, polymorphs, pseudomorphs, neutral forms, acid addition salt forms, base salts, esters and prodrugs.
- the term "pharmaceutically acceptable acid salts” refers to acid addition salts formed from acids which provide non-toxic anions.
- the pharmaceutically acceptable anions include, but are not limited to, acetate, aspartate, benzoate, bicarbonate, carbonate, bisulfate, sulfate, chloride, bromide, benzene sulfonate, methyl sulfonate, phosphate, acid phosphate, lactate, maleate, malate, malonate, fumarate, lactate, tartrate, borate, camsylate, citrate, edisylate, esylate, formate, fumarate, gluceptate, glucuronate, gluconate oxalate, palmitate, pamoate, saccharate, stearate, succinate, tartrate, tosylate and trifluoroacetate salts, among a great many other examples.
- Hemi- salts including but not limited to hemi-sulfate salts, are likewise directed to the invention.
- suitable salts see "Handbook of Pharmaceutical Salts: Properties, Selection, and Use” by Stahl and Wermuth (Wiley- VCH, Weinheim, Germany, 2002).
- the pharmaceutically acceptable acid addition salts of the compound of retigabine are prepared using methods well known in the art by treating a solution or suspension of the free base with about one chemical equivalent of a pharmaceutically acceptable acid. Conventional concentration and recrystallization techniques are employed in isolating the salts.
- solvate refers to a molecular complex including an active pharmaceutical ingredient and a stoichiometric or non-stoichoimetric amount of one or more pharmaceutically acceptable solvent molecules, including but not limited to water and ethanol.
- solvate includes a hydrate as one example and an ethanolate as another example.
- concentration of an active pharmaceutical ingredient is intended to mean the maintenance of a plasma API concentration within about 50% of the peak plasma concentration for an extended period of time.
- a sustained concentration includes maintenance of the plasma API concentration within about 48%, 45%, 43%, 40%, 35%, 33%, 30%, 28%, 25%, 23%, 20%, 18%, 15% 12%, 10%, 9%, 8%, 7%, 6%, 5%, 4%, 3%, 2% or 1% of the peak plasma concentration.
- the term is intended to include minor concentration variations within the prolonged period.
- a prolonged period of time refers to at least about 3 hours (hrs) and can include periods of 30 hours or more.
- Exemplary prolonged periods for sustained API plasma concentrations include, for example, 4 hrs, 5 hrs, 6 hrs, 7 hrs, 8 hrs, 9 hrs, 10 hrs, 1 1 hrs, 12 hrs, 13 hrs, 14 hrs, 15 hrs, 16 hrs, 17 hrs, 18 hrs, 19 hrs, 20 hrs, 21 hrs, 22 hrs, 23 hrs, 24 hrs, 25 hrs, 26 hrs, 27 hrs, 28 hrs, 29 hrs and 30 hrs or more as well as all periods of time in between these exemplary points. Additionally, a prolonged period of time also can be less than 3 hours so long as there is a recognizable plateau in the API plasma concentration.
- a sustained concentration is the maintenance of retigabine plasma concentration at about 200 ng/ml beginning from about 8 hours post dose to approximately 30 hours post dose as shown in Figure 3 (formula 3, fed).
- Figure 3 also exemplifies 3 additional sustained concentrations using the pharmaceutical formulations of the invention.
- drug delivery matrix is intended to mean an inert substance that provides structural stability and controls the release of an active pharmaceutical ingredient.
- Drug delivery matrices used in the formulation of the invention include those characterized by a long-lasting, slow and relatively regular incremental release of the active pharmaceutical ingredient upon administration. Examples of drug delivery matrices include non- sucrose fatty acid esters, methylcellulose, ethylcellulose, hydroxypropylmethylcellulose, or polycarbophil.
- excipient is intended to mean a pharmaceutically inactive substance.
- Excipients can be included in a formulation of the invention for a wide variety of purposes and include, for example, pharmaceutically acceptable bulking agents, binders, disintegrants, lubricants, surfactants, drug delivery matrices, release modifying agents, glidants, diluents, vehicles, buffers, stabilizers, tonicity agents, sweeteners, cryoprotectant, lyoprotectant, anti-oxidant, chelating agent and/or preservative.
- disintegrant is intended to mean an excipient or a mixture of excipients which promote breakup or disintegration of a solid pharmaceutical formulation such as a tablet or capsule after administration. Therefore, disintegrants are excipients that promote release of a formulation's components, including the active pharmaceutical ingredient.
- Disintegrants useful in the pharmaceutical formulations of the invention include, for example, a variety of cross-linked cellulose compositions such as crospovidone, croscarmellose sodium and sodium starch glycolate.
- Other disintegrants well known in the art also can be used in the formulations of the invention and include, for example, corn and potato starch.
- surfactant is intended to mean a substance that functions to reduce the surface tension of a liquid in which it is dissolved.
- Surfactants include, for example, amphiphatic organic compounds that exhibit partial solubility in both organic solvents and aqueous solutions.
- General characteristics of surfactants include their ability to reduce the surface tension of water, reduce the interfacial tension between oil and also form micelles.
- Surfactants of the invention include non-ionic and ionic surfactants.
- Surfactants are well known in the art and can be found described in, for example, Holmberg et al., Surfactants and Polymers in Aqueous Solution, 2d Ed., John Wiley & Sons Ltd. (2003); Surfactants: A Practical Handbook, K. Robert Lange, ed., Hanser Gardner Publications (1999); Vogel, A.I., Vogel's Textbook of Practical Organic Chemistry, 5th Ed., Prentice Hall (1996).
- non-ionic surfactants include, for example, alkyl poly (ethylene oxide), alkyl polyglucosides such as octyl glucoside and decyl maltoside, fatty alcohols such as cetyl alcohol and oleyl alcohol, cocamide MEA, cocamide DEA, and cocamide TEA.
- non-ionic surfactants include the polysorbates including, for example, polysorbate 20, polysorbate 28, polysorbate 40, polysorbate 60, polysorbate 65, polysorbate 80, polysorbate 81 , polysorbate 85 and the like; the poloxamers including, for example, poloxamer 188, also known as poloxalkol or poly(ethylene oxide)-poly(propylene oxide), poloxamer 407 or polyethylene -polypropylene glycol, and the like, and sucrose esters including, for example, linear or branched, saturated or unsaturated, optionally mono- or polyhydroxylated fatty acids.
- Polysorbate 20 is synonymous with Tween 20, PEG(20) sorbitan monolaurate and polyoxyethylene (20) sorbitan monolaurate.
- Ionic surfactants include, for example, anionic, cationic and zwitterionic surfactants.
- Anionic surfactants include, for example, sulfonate-based or carboxylate -based surfactants such as soaps, fatty acid salts, sodium dodecyl sulfate (SDS), ammonium lauryl sulfate and other alkyl sulfate salts.
- Cationic surfactants include, for example, quaternary ammonium-based surfactants such as cetyl trimethylammonium bromide (CTAB), other alkyltrimethylammonium salts, cetyl pyridinium chloride, polyethoxylated tallow amine (POEA) and benzalkonium chloride.
- Zwitterionic or amphoteric surfactants include, for example, dodecyl betaine, dodecyl
- binder is intended to mean an excipient or mixture of excipients that impart cohesive qualities, uniform consistency and/or solidification to a solid particle or powdered material, ensuring that a pharmaceutical formulation remains intact after compression and promoting its free-flowing qualities. Binders are also intended to include polymers that modify the release properties and are therefore also include "modified release polymers.” Binders are well known in the art and include, for example, povidone, copovidone, methylcellulose, Hypromellose 2910, polyethylene glycol (PEG) such as PEG 6000 and/or PEG 8000, and hydroxypropylcellulose.
- PEG polyethylene glycol
- lubricant is intended to mean an excipient or mixture of excipients that reduce or prevent adhesion of the formulation components to the manufacturing equipment. Lubricants also can reduce interparticle friction, improve rate of flow of the powder substances through manufacturing equipment.
- An exemplary lubricant useful in the formulations of the invention includes, for example, magnesium stearate.
- Other lubricants well known in the art also can be used in the formulations of the invention and include, for example, talc, calcium stearate, stearic acid, hydrogenated vegetable oils, sodium dodecyl sulfate and polyethylene glycol (PEG).
- glidant is intended to mean a substance which improves the flow characteristics of powder substance.
- An exemplary glidant which can be used in the formulations of the invention includes, for example, colloidal silicon dioxide.
- nerve system hyperexcitability when used in reference to a disorder is intended to mean a state of unusual or excessive nervous system activity.
- the activity generally is associated with the central nervous system (CNS), but the meaning of the term also includes hyperexcitability of the peripheral nervous system (PNS).
- Nervous system hyperexcitability also can be characterized by aberrant potassium channel activity including, for example, voltage-gated potassium channels such as KCNQ2, KCNQ3 and/or KCNQ5 potassium channel in mammals.
- Exemplary disorders characterized by nervous system hyperexcitability include, for example, seizures, epilepsy, convulsions, neuropathic pain, neuralgia, acute and/or chronic reduced cerebral blood supply, neurodegenerative disorders, medicament withdrawal, intoxication and overactive bladder, as well as other disorders exemplified previously.
- a specific example of a seizure disorder is epilepsy.
- Specific examples of neuropathic pain include allodynia and hyperalgesa.
- Specific examples of neuralgia include trigeminal neuralgia (TN), atypical trigeminal neuralgia (ATN), and post-therapeutic neuralgia.
- Reduced blood supply include, for example, conditions such as stroke and exemplary neurodegenerative disorders include Alzheimer's disease, amyotrophic lateral sclerosis and Parkinson's disease.
- Overactive bladder includes loss of bladder control such as urinary incontinence, bladder instability, nocturia, bladder hyperreflexia and enuresis.
- treating when used in reference to a disorder or disease is intended to mean preventing, ameliorating or reducing the severity of a clinical symptom indicative of the referenced disorder or disease.
- the term is intended to include administration to inhibit, arrest or mitigate a targeted disorder or symptom as well as prophylactic treatment to forestall development of a targeted disorder or symptom.
- a specific example of treating a disorder is administration of 2-amino-4-(- fluorobenzylamino)-l-ethoxycarbonylaminobenzene in a formulation of the invention to reduce the severity or frequency of occurrence of a seizure.
- pharmaceutical formulation of the invention is intended to mean an amount of the active pharmaceutical ingredient to ameliorate at least one symptom associated with a targeted disorder or disease.
- modified release means a composition which has been designed to produce a desired pharmacokinetic profile by choice of formulation.
- modified release can include delayed, pulsed and sustained release either alone or in any combination.
- pharmaceutically acceptable embraces compounds, compositions and ingredients for both human and veterinary use. For example the term
- pharmaceutically acceptable salt embraces a veterinarily acceptable salt.
- pharmaceutically acceptable solvates include hydrates.
- C max refers to the mean maximum plasma level concentration.
- AUC refers to the mean area under the plasma
- the present invention provides a modified release
- compositions that includes about 30-70% N-(2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester (retigabine), or a pharmaceutically acceptable salt, solvate or hydrate thereof, about 5-30% of a drug delivery matrix that includes hydroxypropylmethylcellulose (HPMC), and an enteric polymer.
- Formulations of the invention produce a sustained plasma concentration of retigabine following administration to a subject for 4-20 hours longer than the time required for in vitro release of 80% of retigabine.
- the present invention provides a modified release
- Formulations of the invention produce a sustained plasma concentration of retigabine following administration to a subject for 4-20 hours longer than the time required for in vitro release of 80% of retigabine.
- the invention is directed to a modified release pharmaceutical formulation suitable for use with an active pharmaceutical ingredient.
- the modified release formulations are useful for delivering a sustained plasma concentration of retigabine.
- Retigabine or a pharmaceutically acceptable salt, solvate or hydrate thereof can be formulated in a modified release pharmaceutical formulation of the invention in a wide variety of doses and amounts depending on the intended use and treatment regime.
- retigabine can be included in a formulation at between about 30-70% of the total weight of the formulation. More particularly, retigabine or a pharmaceutically acceptable form thereof, can be included in a formulation of the invention at percentages between about 40-60% and between about 49-58%.
- Retigabine or a pharmaceutically acceptable form thereof, also can be included at, for example, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41 , 42, 43, 44, 45, 46, 47, 48, 49, 50, 51 , 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68 or 69%, including all values in between these exemplary percentages.
- the amount of retigabine in a formulation of the invention can therefore include all weights corresponding to these percentages. Exemplary retigabine percentages are described below in the Examples.
- Retigabine can be administered in a doses ranging from about 5 mg to about 800 mg, including in a range from about 100 mg to about 700 mg, and including in a range from between about 400 mg to about 700 mg.
- the dose of retigabine can represent quantities used for dosing once daily, twice daily, thrice daily, or more.
- the doses can include all quantities of retigabine between 5mg and 800 mg, including, for example, 5 mg, 10 mg, 20 mg, 50 mg, 100 mg, 150 mg, 200 mg, 250 mg, 300 mg, 350 mg, 400 mg, 450 mg, 500 mg, 550 mg, 600 mg, 650 mg, 700 mg, 750 mg, 800 mg and all values in between.
- retigabine can be provided in any of its known polymorphic forms.
- U.S. Patent No. 6,538,151 which is incorporated by reference herein in its entirety, describes three retigabine polymorphs, A, B, and C.
- formulations of the present invention can utilize pure single polymorphs.
- polymorph A in pure form, can be included in formulations of the present invention.
- formulations of the present invention can include pure polymorph B or pure polymorph C.
- formulations of the present invention can provide any combination of two or more polymorph forms, such as A and B, or A and C, or B and C, or A, B, and C.
- the polymorphs can be present in any ratio.
- a modified release pharmaceutical formulation of the invention also includes a drug delivery matrix.
- the amount of drug delivery matrix included in a formulation of the invention can assist to prolong retigabine bioavailability for about 4-20 hours or more longer than about 80% of its release at neutral pH.
- a drug delivery matrix is included in a formulation of the invention between about 7.5-30% of the total formulation weight. Such a proportion will yield a sustained retigabine plasma concentration following administration to a subject much longer than its release under simulated intestinal conditions.
- Drug delivery matrices also can be included in a formulation of the invention at percentages between about 10-20% including, for example, about 8, 9, 10, 1 1, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28 or 29%, as well as all values in between these exemplary percentages.
- the actual amount of a drug delivery matrix in a formulation of the invention can therefore include all weights corresponding to these percentages. Exemplary percentages of drug delivery matrix are provided below in the Examples.
- a specific example of a drug delivery matrix useful in the pharmaceutical formulations of the invention is hydroxypropylmethylcellulose (HPMC).
- HPMC hydroxypropylmethylcellulose
- exemplary types of hydroxypropylmethylcellulose drug delivery matrices include, for example, hypromellose 2208, including MethocelTM K4M and MethocelTM K4M CR.
- Other drug delivery matrices useful in the formulations of the invention include, for example MethocelTM E Premium, MethocelTM K15M Premium, MethocelTM K100LV Premium and ethylcellulose.
- Other drug delivery matrices include for example, high molecular weight hypromellose (HPMC) 2910 (also known as E),
- methylcellulose polyethylene oxide, hydroxypropyl cellulose, xanthan gum, guar gum, Eudragit NM, Eudragit NE, Kollidon SR, galactomannans, dextran, ethylcellulose, carbomer, carbopol, polycarbophil, sodium carboxymethylcellulose, hydroxyethylcellulose, hydroxyethylmethyl- cellulose, shellac, zein, cellulose acetate or combinations thereof.
- Such drug delivery matrices can be used alone or in combination.
- Dicalcium phosphate also can be included with the drug delivery matrix.
- the ratio of retigabine to the drug delivery matrix can be in a range from between about 20: 1 to about 2: 1, including any ratio in between. In some embodiments, the ratio of retigabine to the drug delivery matrix can be in a range from between about 4: 1 to about 2: 1, including any ratio in between.
- the surfactant in a modified release formulation of the invention can be used in proportions up to about 10% of the total composition. Accordingly, surfactants can constitute between about 1.0 to about 10% of the formulation and generally will constitute between about 3 to about 6%, about 3.5 to about 5.5% or about 4 to about 4.5% of the formulation.
- Surfactants also can be included at, for example, 0.5, 0.75, 1.0, 1.25, 1.5, 1.75, 2.0, 2.25, 2.5, 2.75, 3.0, 3.25, 3.5, 3.75, 4.0, 4.25, 4.5, 4.75, 5.0, 5.25, 5.5, 5.75, 6.0, 6.25, 6.5, 6.75, 7.0, 7.25, 7.5, 7.75, 8.0, 8.25, 8.5 or 8.75%, including all values in between these exemplary percentages.
- the amount of a surfactant in a formulation of the invention can therefore include all weights corresponding to these percentages. Exemplary percentages of a surfactant are shown herein below and in the Examples for formulations having different total weights.
- Exemplary surfactants of the invention include the anionic surfactant sodium dodecyl sulfate (SDS) and the non-ionic sucroesters.
- surfactants in a formulation of the invention can include between about 2-6% sucroester surfactant.
- sucroester surfactants can be absent.
- a combination of surfactants can be used. Such combinations can include sucroester surfactants or not.
- surfactants in a formulation of the invention can include between about 2-6% SDS surfactant.
- SDS surfactant can be absent.
- surfactants SDS can be included or not.
- other surfactants such as those described previously or others well known in the art also can be included in a pharmaceutical formulation of the invention.
- the anionic surfactant sodium lauryl sulfate can be used in place of SDS.
- Disintegrants can be included to constitute up to about 5% of the total formulation, including percentages up to about 4%, 3%, 2% or 1%.
- Single or multiple disintegrants including two or three or more disintegrants, can be included in a formulation to constitute up to about 10% of the total formulation.
- one or more disintegrants can be included in a formulation at a percentage between about 0.5-5.5%, 1-5.0%, 2-4.5%, 2.5-4.0% or 3.0-3.5% as well as all ranges in between these values up to about 5% each of the total formulation.
- Exemplary disintegrants applicable in a formulation of the invention include, for example, crospovidone, croscarmellose sodium or a combination thereof.
- a pharmaceutical formulation of the invention can include, for example, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5 or 5.0% crospovidone as well as all values in between these percentages.
- a pharmaceutical formulation of the invention also can include, for example, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5 or 5.0% croscarmellose sodium as well as all vales in between these percentages.
- These exemplary disintegrants as well as others known in the art can be included individually or in any combination thereof up to about 10% of the total formulation.
- disintegrant amounts and combinations of a formulation of the invention include 0.5-5.5% crospovidone, croscarmellose sodium or a combination thereof comprises 0.5-2.5% crospovidone, 2.0-5.5% croscarmellose sodium or 0.5-2.5% crospovidone and 2.0-5.5% croscarmellose sodium.
- a modified release pharmaceutical formulation of the invention can further include a wide variety of excipients.
- Excipients are well known in the art and are useful to facilitate, for example, manufacturing processes, dosage amounts and delivery of the active pharmaceutical ingredient.
- Exemplary excipients of the formulations of the invention have been described above and further below in Table 1.
- excipients include, for example, binders, disintegrants, surfactants, lubricants and glidants.
- a further excipient that can be included in a formulation of the invention includes binders.
- One or more binders can be included in a formulation of the invention to constitute up to about 40% of the total formulation weight including percentages up to about 35%, 30%, 25%, 20%, 15%, 10% or 5%.
- a single binder can be included in a formulation, or alternatively, two, three, or four or more different binders can be included to constitute the total percentage of binders in the formulation.
- one or more binders can be included in a formulation of the invention at a percentage between about 5-40%, 20-35%, 25-30% as well as within ranges between about 1-6%, 1-5%, 1-4%, 2-5% or 3-5% including all ranges in between and above these values up to about 40% of the total formulation by weight.
- binders applicable in the formulations of the invention include for example, microcrystalline cellulose, hypromellose 2910, copovidone, povidone, starch and polyethlylene glycol as well as all combinations thereof up to about 40% of the total formulation by weight.
- binders and combinations thereof applicable in the formulations of the invention include, for example, about 5-40% microcrystalline cellulose, 0-10% hypromellose 2910, 0-10% copovidone, 0-10%, polyethlylene glycol.
- a pharmaceutical formulation of the invention can include, for example, 1 ,
- a formulation of the invention also can include, for example, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 5.5, 6.0, 6.5, 7.0, 7.5, 8.0, 8.5, 9.0, 9.5 or 10% hypromellose 2910 as well as all values in between these percentages.
- a formulation of the invention also can include, for example, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 5.5, 6.0, 6.5, 7.0, 7.5, 8.0, 8.5, 9.0, 9.5 or 10% copovidone as well as all values in between these percentages.
- Binders such as polyethylene glycol and the like can additionally be included in a formulation of the invention at, for example, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 5.5, 6.0, 6.5, 7.0, 7.5, 8.0, 8.5, 9.0, 9.5 or 10%, including all values in between these percentages.
- binder amounts and combinations of a formulation of the invention are 25-30% microcrystalline cellulose, 25-30% microcrystalline cellulose and 3-5% copovidone, 25-30% microcrystalline cellulose and 1-4% hypromellose 2910 or 25-30% microcrystalline cellulose, 1-4% hypromellose and 3-5% copovidone.
- a number of other specific examples of binder amounts and combinations thereof are exemplified further below in Tables 1-3.
- Lubricants and glidants also can be included in a modified release pharmaceutical formulation of the invention to constitute up to about 2% or more for each excipient. Accordingly, percentages of up to about 0.25, 0.5, 0.75, 1.0, 1.25, 1.5, 1.75 or 2.0% for a lubricant or for glidant can be included in a formulation. Various combinations of two or three or more different lubricants or two or three or more glidants also can be included in a formulation of the invention up to about 2% for each excipient.
- An exemplary lubricant useful in the formulations of the invention includes, for example, magnesium sterate.
- An exemplary glidant useful in the formulations of the invention includes silicone dioxide such as colloidal silicone dioxide. Specific examples of lubricant and glidant amounts in a formulation of the invention include 0.5-2.0% magnesium stearate and 0.25- 1.5% silicone dioxide, respectively.
- a formulation of the invention includes about 30-70% N-(2- amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester (retigabine), or a pharmaceutically acceptable salt, solvate or hydrate thereof in about 5-30% of a drug delivery matrix.
- the formulations also include an agent for retarding release in the gastric environment.
- the resultant formulation exhibits a plasma concentration vs. time profile that is substantially flat over an extended period lasting for about 4 to about 36 hours, as shown for example, in Figure 3 and in Tables 5 and 6 below.
- the agent for retarding release in the gastric environment can also delay the solubility of retigabine.
- the solubility of retigabine drops off precipitously above pH 3.
- retigabine is first exposed to an environment of the lower intestine which is at a higher pH than the stomach.
- the pH in the lower intestine is typically in a range higher than where retigabine exhibits good solubility.
- the agent that retards the release into the gastric environment includes an enteric polymer.
- enteric polymers operate by presenting a surface that is stable at the pH found in the stomach. However, such polymers tend to break down at less acidic pH, such as that found in the lower intestine.
- Materials that can be used as enteric polymers include fatty acids, waxes, and shellac as well as plastics.
- the enteric polymer is selected from polyvinylacetate phthalate, hydroxypropylmethylcellulose acetate succinate (HPMC-AS), and a copolymer of two or more of methyl methacrylate, methacrylic acid, ethyl acrylate, and methyl acrylate.
- the enteric polymer is selected from cellulose acetate phthalate, cellulose acetate succinate, methylcellulose phthalate, ethylhydroxycellulose phthalate,
- enteric polymers can be used either alone or in combination, or together with other polymers that can serve as agents to retard the release into the gastric environment.
- the enteric polymer can be used in conjunction with other substances to modify the release properties of the formulation, such as alkyl cellulose derivatives as exemplified by ethyl cellulose, crosslinked polymers such as styrene-divinylbenzene copolymer, polysaccharides such as dextran, cellulose derivatives which are treated with bifunctional crosslinking agents such as epichlorohydrin, dichlorohydrin, 1, 2-, 3, 4-diepoxybutane, etc.
- the enteric polymer can also be used in conjunction with starch and/or dextrin.
- the agent retarding release in the gastric environment can further include a delivery matrix as described herein above or selected from hydroxypropylmethylcellulose, hydroxypropylcellulose, polyethylene oxide, and a copolymer of polyvinylacetate and polyvinylpyrrolidone.
- the enteric polymer materials are pharmaceutically acceptable methacrylic acid copolymers and the like possessing anionic character.
- exemplary copolymers are based on methacrylic acid and methyl methacrylate, for example having a ratio of free carboxyl groups; methyl-esterified carboxyl groups of 1 :>3, e.g. around 1 : 1 or 1 :2, and with a mean molecular weight of 135,000.
- Such polymers are sold under the trade name EudragitTM, such as the Eudragit L series e.g.
- Non-aqueous plasticizers also include the above mentioned aqueous plasticizers as well as diethyl and dibutyl phthalate and dibutyl sebacate.
- the enteric polymer can also be used in conjunction with an anti-tack agent such as talc, silica or glyceryl monostearate.
- the enteric polymer can be used in conjunction with between about 10 to about 25 wt. % plasticizer based on the total coating weight and up to about 50 wt % of an anti tack agent, including, for example, between about 5 to about 20 wt. % of anti-tack agent based on the total coating weight.
- the invention further provides a pharmaceutical formulation that includes 30-70%
- N-(2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester (retigabine), or a
- the pharmaceutical formulation producing a sustained plasma concentration of the retigabine for about 4-20 hours longer than the time required for in vitro release of 80% of the retigabine following administration to a subject.
- excipients other than those exemplified above and known in the art also can be included in a modified release pharmaceutical formulation of the invention.
- excipients having various useful functions in, for example, the manufacture, storage and/or delivery of a pharmaceutical formulation. Any of such excipients can be included in a formulation of the invention so long as its addition or substitution does not substantially alter the ability of the formulations of the invention to produce a sustained plasma concentration of active pharmaceutical ingredient for about 4-20 hours longer than the time required for in vitro release of the active ingredient (retigabine) under simulated in vivo conditions.
- excipients such as pharmaceutically acceptable carriers, including auxiliary substances, carriers and/or diluents also can be included in a formulation of the invention.
- compositions of the invention containing various combinations and proportions of some or all of the above components are exemplified further below in the Examples and in Tables 1-3.
- Pharmaceutical formulations of the invention having the components exemplified herein result in a modified release of the active pharmaceutical ingredient such that a plateau or an approximate peak plasma concentration is sustained for an extended period to time compared to immediate release or compared to slow release formulations.
- Figure 3 illustrates such sustained plasma concentrations for a few exemplary formulations of the invention in both the fed and fasted state. As shown therein, active ingredient rises to an approximate maximum concentration within about 2-5 hrs or more depending on the specific formulation and whether the individual is in a fed or fasted state. Concentrations approaching an approximate maximum concentration are sustained out to about 25-30 hrs.
- the modified release pharmaceutical formulations of the invention can deliver a sustained plasma concentration from about 3 to about 36 hrs, from about 3 to about 28 hrs, from about 4 to about 25 hrs, from 5 to about 20 hrs, from 6 to about 15 hrs or about 5 to about 10 hrs.
- formulations of the invention can produce a sustained plasma concentration of retigabine following administration to a subject for 4-20 hours longer than the time required for in vitro release of 80% of retigabine.
- the observed 4-20 hour sustained plasma concentration in vivo relative to the in vitro dissolution profile under simulated in vivo conditions for modified release formulations of the invention was unexpected.
- the in vitro release of retigabine under simulated in vivo conditions involves subjecting the retigabine formulation to a period of exposure to acidities that can simulate gastric conditions.
- gastric conditions are simulated by initial exposure of the retigabine formulation to 0.1 N HC1 for one hour.
- Formulations of the invention that incorporate an enteric polymer are expected to exhibit minimal release of retigabine under these conditions as shown in Figure 4 and Example V.
- the sample is then exposed to a pH 7.5 borate buffer system. It will be apparent to one of skill in the art, that these conditions are merely exemplary and other conditions can be employed in a simulation.
- In vitro dissolution profiles can be obtained under conditions that are designed to be indicative of in vivo performance or bioavailability. Such in vitro conditions are well known in the art and include, for example, the borate buffer system employed in Example V. Other indicative in vitro-in vivo conditions are readily apparent to one of skill in the art and have been the subject of regulatory and industry standardization (United States, Dept. of Health and Human Services, Food and Drug Administration, Guidance for Industry, SUPAC-MR: Modified Release Solid Oral Dosage Forms, Scale-Up and Postappr oval Changes: Chemistry, Manufacturing, and Controls; In Vitro Dissolution Testing and In Vivo Bioequivalence Documentation GPO 1997.).
- IVIVC In vitro -in vivo correlation
- IVIVC In vitro -in vivo correlation
- This classification system is based on drug dissolution and gastrointestinal permeability as fundamental parameters in controlling the rate and extent of drug absorption.
- the drug classes have been defined as: 1. High solubility-high permeability drugs, 2. Low solubility-high permeability drugs, 3. High solubility- low permeability drugs, and 4.
- An exemplary correlative in vitro experiment can be run using a basket spin or paddle method. 2) An acceptable speed for these two methods is typically about 50 rpm. 3)
- the pH of the system can be in a range from between about 6.8 to about 7.5 with 7.4 being typical. The pH can be maintained by any buffer system that can operate in this range, and includes phosphate and borate buffers, for example. 4)
- the dissolution experiments include a surfactant.
- the amount of surfactant is the minimum amount required based on the solubility of the pharmaceutical active ingredient. Any amount over the minimum amount can also be used, however, such an experiment would be used to study other aspects of the formulation rather than providing an in vivo correlation.
- the IVIVC methodology is based on the physiological and physical chemical properties controlling drug absorption. This methodology can utilize conditions under which little in vitro-in vivo correlation may be expected e.g. rapidly dissolving low permeability drugs.
- a one point dissolution test is all that may be needed to insure bioavailability.
- a dissolution profile is used with multiple time points in systems which can include low pH, physiological pH, and surfactants and the in vitro conditions that can mimic in vivo processes.
- in vitro release conditions can also be designed for other purposes.
- dissolution rates can be altered using conditions modified to achieve a particular goal other than being indicative of in vivo performance, such as to measure solubility or to decrease the time for dissolution.
- modified dissolution conditions can include, for example, increased amounts of surfactant, change paddle speeds, and/or use flow- through techniques to modulate the in vitro dissolution rates.
- Exemplary sustained plasma concentrations of the active pharmaceutical ingredient produced from single dose modified release formulations of the invention include, for example, at least about 20 ng/ml after administration once a day, at a dosage of about 400 mg, in the fed or fasted state and more particularly at least about 50, 100, 150, 200, 250, 300 or 350 ng/ml or higher, at a dosage of about 400 mg.
- exemplary formulations of the invention produce a C max , in the fasted state, between about lOOng/mL to about 300 ng/mL, or within a 90% confidence interval thereof.
- concentration of retigabine in plasma versus time curve (AUC) after administration in the fasted or fed state can be used to assess the sustained concentration of active ingredient.
- the formulations of the invention provide an AUCo-inf value in the fasted state that is in a range from between about 3000 ng-hr/L to about 7000 ng-hr/L.
- the AUCo-inf can be between about 4000 ng-hr/L to about 6800 ng- hr/L, and between about 4000 ng-hr/L to about 10,000 ng-hr/L in further embodiments.
- C max and AUCo-inf can vary with different dosage amounts and frequency compared to the above exemplary values without substantially affecting the modified release performance of the formulations as they are exemplified herein.
- Dosages can be formulated for administration every other day, twice-daily, three times daily, and four times daily, for example, without substantially altering C max and the AUC results shown for the 400 mg dose.
- the modified release formulations of the invention also exhibit a steady rate of clearance compared to immediate release formulations.
- the modified release formulations of the invention release at least a portion of the active pharmaceutical ingredient from between about 0.5 to 2 hours after administration.
- the modified release formulations can also be used in conjunction with an enteric coating that can delay the release of at least a portion of the active pharmaceutical ingredient from between about 4 to 6 hours. This can be beneficial by allowing slower sustained release in the intestine. This can be useful in reducing side effects by effectively lowering C max , while still assuring prolonged bioavailability of the active ingredient.
- Release of an active pharmaceutical ingredient refers to the amount or percentage of free compound that is dissociated or relinquished from other components in the formulation, which then subsequently dissolve. In comparison, immediate release formulations result in greater than 90% of the active ingredient within the first hour following administration.
- the modified release formulations release no greater than 90% of the active pharmaceutical ingredient from the formulation during the first 2 hours after administration.
- the formulations of the invention release no greater than 80%, no greater than 70% or no greater than about 60% of the active pharmaceutical ingredient during the first 2 hours following administration.
- the time to release at least about 80% of an active pharmaceutical ingredient can be, for example, at least about 4 hours.
- the release rates of exemplary formulations of the invention are illustrated in Figures 2 and 3.
- the release of the active ingredient in vivo is between about 3 to 6 hours after in vitro release.
- Methods for assessing the amount or rate at which an active ingredient is released from a formulation are well known in the art.
- Exemplary methods include, for example, EA residual and direct tests. Briefly, the residual test measures the amount of active ingredient remaining in a formulation following selected time periods in solution. Subtraction of the amount released at each time period from the amount initially present for each time period provides the rate of release. The direct test measures the concentration of active pharmaceutical ingredient in the dissolution medium at each time point to calculate the rate or amount of release.
- Exemplary release rates of an active pharmaceutical ingredient from the formulations of the invention range from about 8 to 100% at 0.5 hours, 18 to 100% at 1 hour, 34-100% at 2 hours, 53-100% at 3 hours and 66- 100% at 4 hours however more detailed release rate information is provided in the Examples below.
- the formulations of the invention can be characterized by a plasma concentration versus time profile having a substantially flat portion that lasts between about 4 to about 36 hours in some embodiments, and between about 10 and 20 hours in other embodiments.
- the extended period of time at which the plasma level of retigabine is at C max can relate to a biological mechanism such as recirculation.
- numerous drugs undergo enterohepatic recycling which involves elimination via the bile in an unchanged or conjugated form. Drugs secreted into the bile enter into the gall bladder, which is periodically emptied into the small intestine. Entry into the small intestine provides a means by which the drug is absorbed back into the body and prolongs the time required for the drug to be eliminated from the body.
- the extended period of time at which the plasma level of retigabine is at C max can relate to the formation of a quasi-stable complex between retigabine and the delivery matrix. Still another reason for the extended period of time at which the plasma level of retigabine is at C max can relate to a combination of enterohepatic recirculation and complex formation. Yet another reason for the extended period of time can relate to the solubility profile of retigabine. Under the influence of an enteric polymer, the retigabine formulation bypasses the more acidic environment of the stomach and enters the lower intestine where the acidity is high enough impact drug solubility and systemic release.
- the modified release pharmaceutical formulations of the invention can be manufactured into a dry powder pharmaceutical including into a variety of different solid dosage forms well known in the art. Solid dosage forms are particularly useful for delivering an accurate dosage to a specific site, usually orally, but also can be administered sublingually, rectally or intravaginally. Solid dosage forms include, for example, tablets, pills, chewable tablets, capsules, caplets, pellets or granules and the like. [0080] The modified release pharmaceutical formulations of the invention can be manufactured to contain any desired solid dosage amount of an active pharmaceutical ingredient and in any desired total weight of the solid dosage form so long as the component proportions set forth herein are retained in the final dosage form.
- the active pharmaceutical ingredient can be, N- (2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester or a compound having solubility characteristics similar to N-(2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester.
- solid dosage forms can be manufactured to contain 5, 10, 15, 25, 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 450, 500, 550, 600, 650, 700, 750, 800 mg or more of active ingredient per dosage form, including any value in between.
- Exemplary total weight of a dosage form can include, for example, 25, 50, 100, 150, 200, 250, 300, 350, 400, 450, 500, 550, 600, 650, 700, 750, 800, 850, 900, 1000 mg or more. All weights in between, above and below these exemplary amounts of active ingredient and total weights also can be manufactured given the teachings and guidance provided herein. Because the modified release formulations of the invention result in a sustained plasma concentration they are particularly useful in dosage forms prepared to have an effective amount of active pharmaceutical ingredient for administration three times daily (TID, twice daily (BID),once daily (QD), every other day, three times weekly, twice weekly, once a week or for longer dosing periods. Such lower dosing regimes similarly promote greater patient compliance. Such solid dosage forms can be packaged and stored following pharmaceutical practices known in the art.
- Methods for manufacturing dry powder pharmaceuticals well known in the art can be used for the production of a modified release pharmaceutical formulation of the invention.
- Such methods include, for example, direct compression, mixing and/or granulation.
- Powder formulations that can be mixed well can be, for example, compressed into a tablet or other solid dosage form by direct compression.
- Mixing includes, for example, convective mixing, shear mixing and/or diffusive mixing.
- Granulation methods including, for example, wet granulation, dry granulation, fluidized bed granulation and extrusion granulation, can be used for manufacturing other powder formulations, followed by compression into a table or other solid dosage form.
- Formulation homogeneity can be improved by, for example, wet or dry milling to reduce particle size and/or by, for example, combining and blending formulation components in stages.
- an active pharmaceutical ingredient can be granulated with one or more of the components by, for example, dry or wet granulation, and then blended with the remaining components.
- an active pharmaceutical ingredient can be, for example, first dry blended with one or more drug delivery matrices, while other excipients, such as glidants, lubricants and the like, are be subsequently admixed in one or more blending operations. If desired, prior to blending one or more of the components can be sized by screening or milling or both.
- the compressed dosage forms can undergo further processing, such as coating, polishing, and the like.
- further processing such as coating, polishing, and the like.
- A.R. Gennaro ed.
- Remington The Science and Practice of Pharmacy (20th ed., 2000)
- H.A. Lieberman et al. (ed.)
- Pharmaceutical Dosage Forms Tablets, Vol. 1-3(2 ⁇ ed., 1990)
- D.K. Parikh & C.K.Parikh Handbook of Pharmaceutical Granulation Technology, Vol. 81 (1997).
- the invention provides a method of preparing a pharmaceutical formulation.
- the method includes mixing a milled active pharmaceutical ingredient such as N-(2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester with a drug delivery matrix, a surfactant and a binder, for example, and/or other components exemplified herein in proportions exemplified above or set out below in Tables 1 -3.
- the mixing process is followed by compressing the mixture in an appropriate shape tablet.
- the tablet, capsule or other dosage form may then be optionally completed with an enteric coating or other types of coating.
- the method includes wet granulation methods of preparing a pharmaceutical formulation of the invention such as the method exemplified below in Example II.
- the granulation can be performed in a high share mixer or fluid bed dryer.
- This exemplary formulation also is lubricated and compressed to prepare a desired dosage form.
- the dosage form may be optionally completed with an enteric coating.
- Pharmaceutical formulations prepared by the methods of the invention exhibit long-term stability of the active ingredient suitable for storage or immediate use.
- the solid dosage forms of a pharmaceutical formulation of the invention are useful for delivering a controlled amount of active pharmaceutical ingredient over a sustained period of time.
- the invention provides a method of controlling the release of an active pharmaceutical ingredient.
- the method includes administering to an individual a pharmaceutical formulation having 30-70% active pharmaceutical ingredient, 1-30% drug delivery matrix, up to 9% surfactant and an excipient, the pharmaceutical formulation producing a sustained plasma concentration of the active pharmaceutical ingredient for about 4-20 hours following administration to an individual, the active pharmaceutical ingredient retigabine or a compound having solubility characteristics substantially similar to that of N-(2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester, or a pharmaceutically acceptable salt, solvate or hydrate thereof.
- a method of treating a disorder characterized by nervous system hyperexcitability includes administering to a subject in need thereof an effective amount of a pharmaceutical formulation having 30-70% active pharmaceutical ingredient, 1-30% drug delivery matrix, up to 9% surfactant and an excipient, the pharmaceutical formulation producing a sustained plasma concentration of the active pharmaceutical ingredient for about 4-20 hours following administration to the subject, the active pharmaceutical ingredient comprising retigabine or a compound having solubility characteristics substantially similar to that of N-(2- amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester, or a pharmaceutically acceptable salt, solvate or hydrate thereof.
- Active ingredients having a structure of retigabine or compound with similar structure and/or solubility profile can be included in a pharmaceutical formulation of the invention for the treatment of a wide range of disorders characterized by nervous system hyperexcitability.
- disorders include, for example, seizure, seizure disorders such as epilepsy, convulsions, and neuropathic pain as well as those exemplified further below.
- Compounds including the 1 ,2,4- triaminobenzene derivatives related to retigabine have been described to treat these and other disorders or diseases characterized by nervous system hyperexcitability.
- Employing the modified release pharmaceutical formulations in conjunction with retigabine or related compounds is particularly useful because it provides for lower dosing and greater efficacy due to the production of a long lasting sustained plasma concentration.
- compounds such as retigabine are effective for treating or reducing the severity of seizures, epileptic seizures, benign familial neonatal convulsions which is an inherited form of epilepsy, complex partial seizures, convulsions and/or other seizure disorders (see, for example, U.S. Patent No. 5,384,330; Bialer et al., Epilepsy Research 34: 1-41 (1999); Blackburn- Munro and Jensen, Eur. J. Pharmacol. 460: 109-1 16 (2003); Wickenden et al., Expert Opin. Ther. Patents 14: 1-13 (2004); Porter et al., Neurotherapeutics 4: 149-154 (2007); Rogawski, Trends in Neurosciences 23:393-398 (2000)).
- Retigabine and related compounds such as flupirtine, also are effective for treating or reducing the severity of neuropathic pain (see, for example, U.S. Patent No. 6,117,990, including references cited therein, and Blackburn-Munro and Jensen, supra), including, for example, allodynia, hyperalgesia and phantom limb pain.
- Allodynia refers to the perception of stimuli which are not painful per se, such as contact or heat/cold, as pain.
- Hyperalgesic refers to the feeling of painful stimuli more strongly than a normal person.
- Phantom pain refers to the perception of pain which is non-existent.
- the terms reflex sympathetic dystrophy (RSD) and sympathetically maintained pain (SMP) are furthermore used.
- retigabine or related compounds included in a modified release pharmaceutical formulation of the invention are useful to treat disorders manifested by lower pain thresholds as well as disorders manifested by higher pain sensations.
- disorders and diseases causing neuropathic pain include, for example, viral infection such as Herpes Zoster which produces postherpetic neuralgia (PHN), a painful and common complication of shingles, Acquired Immune Deficiency Syndrome, burn wounds, cancer, cytostatic or cytotoxic treatment of cancer, nerve damage and/or nerve compression.
- Promotion of other effects useful for retigabine or related compounds in a modified release formulation of the invention include, for example, those which are useful for the treatment of pain such as muscle relaxation, fever reduction and/or peripheral analgesia (see, for example, U.S. Patent Nos. 5,384,330; 6,326,385).
- Retigabine or related compounds in a modified release formulation of the invention are further useful to promote a neuroprotective effective useful for treating, for example, neurodegenerative disorders and/or stroke as well as secondary or aftereffects of acute or chronic reduced cerebral blood supply such as those caused by neurodegenerative disorders and stroke (see, for example, U.S. Patent No. 5,852,053).
- Exemplary neurodegenerative disorders applicable for treatment with retigabine or related compounds as the active ingredient in a modified release formulation of the invention include, for example, Alzheimer 's disease,
- Huntington 's chorea multiple sclerosis, amyotrophic lateral sclerosis, Parkinson 's disease, infection-related encephalopathy including encephalopathy mediated by an infection from Human Immunodeficiency virus, rubella viruses, herpes viruses and borrelia, Creutzfeld- Jakob disease, trauma-induced neurodegeneration or neuronal hyperexcitation state, withdrawal from intoxication, a disorder of the peripheral nervous system and/or a polyneuropathy or polyneuritide disorder.
- retigabine or related compounds include, for example, conditions caused by aberrant or undesirable smooth muscle contraction.
- retigabine or related compounds are useful to inhibit smooth muscle contraction.
- Conditions exhibiting undesirable smooth muscle contraction include, for example, irritable bowel syndrome, chronic obstructive pulmonary disease (COPD), gall bladder disorders, hypertension and esophageal hyperactivity.
- COPD chronic obstructive pulmonary disease
- one molecular site of action for retigabine or related compounds, such as flupirtine includes potassium channels.
- N-(2-amino-4-(fluorobenzylamino)-phenyl) carbamic acid ethyl ester is a potassium channel modulator which activates or opens voltage-gated potassium channels.
- Channel opening results in reduced neuronal excitability and/or lower neurotransmitter release for the potassium KCNQ2/3 channel, for example (Delmas and Brown, Nat. Revs Neurosci. 6:850-62 (2005); Wickenden et al., Mol. Pharmacol. 58:591-600 (2000); Main et al, Mol. Pharmcol.58:253-62 (2000); Wuttke et al, Mol Pharmacol. 67: 1009-17 (2005)).
- Treatment of any of the above disorders or diseases can be accomplished by administering a modified release formulation of the invention having an effective amount of an active ingredient.
- Effective amounts include an amount sufficient to alleviate at least one symptom and can vary depending on the disorder and the desired treatment regime. Effective amounts can range from about 5-1 ,500 mg per day or from about 0.1-5.0 mg/kg per dose.
- a subject can be administered a modified release formulation of the invention having an effective amount of an active ingredient between about 10-1 ,200 mg, 20-1,000 mg, about 30-800 mg, about 40-600 mg, about 50-400 mg, about 60-200 mg or about 70-100 mg per day.
- effective amounts of an active ingredient in a modified release formulation of the invention include, for example, 1.0, 2.5, 5.0, 7.5, 10, 12, 15, 18, 20, 22, 25, 28, 30, 32, 35, 38, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95 or 100 mg per day.
- Other effective amounts of an active ingredient in a modified release formulation of the invention include, for example, 400, 425, 450, 500, 550, 600, 650, 700, and 750 mg per day. All amounts in between the above exemplary effective amounts also can constitute an effective amount of an active ingredient in a modified release formulation of the invention.
- the corresponding amount per weight to those amounts exemplified above also can be used as a measure of an effective amount.
- An effective amount will generally be delivered in dosing periods of about three times daily (TID, twice daily (BID),once per day (QD), thrice weekly, twice weekly or in greater dosing intervals. However, depending on the dosage form an effective amount also can be delivered in more frequent dosing intervals including, for example, two or more times a day or 4, 5 or 6 times a week.
- modified release pharmaceutical formulations of the invention are also applicable to a variety of different modes of administration.
- the modified release formulations are exemplified herein as solid dosage forms to be, for example, orally administered.
- solid dosage forms also can be admixed with a pharmaceutical carrier, liquid diluent or syrup, for example, administered by other routes.
- Dilution into a liquid pharmaceutically acceptable medium can occur immediately prior to administration or prior to substantial release of the active ingredient.
- Particularly useful media include, for example, a buffer or other solution having a pH that retards or inhibits release of the active ingredient.
- the invention further provides a method of treating disorder characterized by nervous system hyperexcitability wherein the disorder includes a seizure disorder, neuropathic pain, a neurodegenerative condition or a disorder characterized by activation of voltage-gated potassium channels or aberrant smooth muscle contraction.
- the modified release formulations of the invention also can be used to produce, for example, an anti-seizure, muscle relaxing, fever reducing, peripherally analgesic or anti-convulsive effect.
- Other effects include increase the channel opening probability of KCNQ2/3 channels or increasing neuronal M currents.
- the present invention provides an oral dosage form that includes retigabine or a pharmaceutically acceptable salt or solvate thereof, which provides a mean (over a patient group) flattened plasma profile for an extended period of time, for example about 4 to about 24 hours, for example about 4 to about 15 hours, and in some embodiments, about 4 to about 12 after administration.
- a dosage form is considered to be suitable for twice daily or even once daily administration.
- IR immediate release
- Such a dosage form is also indicated for administration in both fasted and fed states, with substantially no clinically relevant food effect, i.e. no dose dumping under fed conditions. Additionally the oral dosage forms of the present invention can provide less interpatient variability in the pharmacokinetics than previous modified release formulations of retigabine.
- the present invention provides an oral dosage form that includes: (i) an erodable core, which core comprises a first modified release composition including retigabine or a pharmaceutically acceptable salt or solvate thereof, and a pharmaceutically acceptable carrier therefore; and (ii) an erodable coating around said core, which coating includes one or more openings extending substantially completely through said coating but not penetrating said core and communicating from the environment of use to said core, wherein release of retigabine or a pharmaceutically acceptable salt or solvate thereof, from the erodable core occurs substantially through the said opening(s) and through erosion of said erodable coating under predetermined pH conditions.
- the invention provides an oral dosage form wherein (i) the erodable core includes a first modified release composition and a second composition such that each composition includes retigabine or a pharmaceutically acceptable salt or solvate thereof, and a pharmaceutically acceptable carrier therefore, such that the first and second compositions are arranged to release drug at differing release rates on administration such that the rate of release of the drug from the dosage form is substantially independent of pH and (ii) an erodable coating around the core, which coating includes one or more openings extending substantially completely through the coating but not penetrating the core and communicating from the environment of use to the core, wherein release of retigabine or a pharmaceutically acceptable salt or solvate thereof, from the erodable core occurs substantially through the the opening(s) and through erosion of tje erodable coating under pre-determined pH conditions.
- a modified release composition provides delayed release of retigabine or a pharmaceutically acceptable salt or solvate thereof.
- the release rate of the drug from the second composition is substantially greater than from the first composition.
- the second composition is an immediate release composition.
- the erodible coating can be an enteric coating layer, such as a non-permeable enteric coating layer.
- the second composition can be formulated so that it provides immediate release of retigabine or a pharmaceutically acceptable salt or solvate thereof, on contact with aqueous media.
- the first composition is formulated so that it provides modified release of retigabine or a pharmaceutically acceptable salt or solvate thereof, on contact with aqueous media.
- the second composition is arranged so that in use it releases at least 50% of the retigabine or a pharmaceutically acceptable salt or solvate thereof, in the stomach.
- the second composition can be arranged so that in use it releases at least 60% of the retigabine or a pharmaceutically acceptable salt or solvate thereof, in the stomach.
- the second composition can be arranged so that in use it releases at least 75% of the retigabine or a pharmaceutically acceptable salt or solvate thereof, in the stomach.
- the first composition can arranged so that in use it releases at least 90% of the retigabine or a pharmaceutically acceptable salt or solvate thereof in the intestines. In some embodiments, the first composition can be arranged so that in use it releases at least 95% of retigabine or a pharmaceutically acceptable salt or solvate thereof in the intestines. In some embodiments, the dosage form is a tablet.
- the oral dosage form can be arranged to release retigabine or a pharmaceutically acceptable salt or solvate thereof, such that the mean maximum plasma level concentration ("C max ") value of the drug is maintained substantially independent of food during use, i.e. no dose dumping occurred in the fed states during use.
- the oral dosage form releases the drug such that the mean area under the plasma concentration versus time curve over the dosing interval at steady state (“AUC") observed on administration is maintained substantially independent of food during use, i.e. the observed AUC is similar in both fasted and fed states during use.
- the oral dosage form can be arranged to release retigabine or a pharmaceutically acceptable salt or solvate thereof, such that the mean area under the plasma concentration versus time curve over the dosing interval at steady state (“AUC”) is maintained substantially independent of food during use, i.e. the observed AUC is similar in both fasted and fed states during use.
- the oral dosage form releases retigabine or a pharmaceutically acceptable salt or solvate thereof, so that both the C max value and AUC observed on administration are maintained substantially independent of food during use, i.e. no dose dumping occurs in the fed states during use.
- the compositions can be formed in any shape or mutual conformation providing the required objective of the invention is met.
- the above reference to a core being erodable includes a situation where the core disintegrates partially or wholly, or dissolves, or becomes porous, on contact with the relevant environmental fluid so as to allow the fluid to contact the active agent.
- the core disintegrates partially, while in other embodiments the core disintegrates wholly.
- the core dissolves and in some embodiments, the core becomes porous.
- the invention provides an erosion of a coating in a pH dependent manner, while the core can release retigabine or a pharmaceutically acceptable salt or solvate thereof, by eroding in a non-pH dependent manner.
- the core can be formulated so as to release drug to substantially the same extent in both the stomach and the intestines, i.e. the core is formulated to compensate for the pH dependency of retigabine.
- the above reference to the coating being erodable includes the situation where the coating disintegrates partially or wholly, or dissolves, or becomes porous, on contact with an environmental fluid so as to allow the fluid to contact the core.
- the coating can disintegrate partially.
- the coating disintegrates wholly.
- the coating dissolves.
- the coating becomes porous.
- the erodable coating is an enteric coating, i.e. it has a defined, pre-determined pH threshold at which it dissolves. In some embodiments, the coating erodes at pH greater than 4.5. In some embodiments, the coating erodes in the pH range from 4.5 to 8. In some embodiments, the coating erodes in the pH range 5 to 7. In some embodiments, the enteric coating is non-permeable.
- Materials and their blends suitable for use as a pH-dependent erodable coating material in this invention include various polymethacrylate polymers, co-processed polyvinylacetate phthalate, cellulose acetate trimellitate, cellulose acetate phthalate, shellac,
- the coating material is selected from cellulose acetate trimellitate (CAT), polyvinyl acetate phthalate, hydroxypropylmethylcellulose phthalate 50,
- the coating material is EudragitTM L30 D.
- the erodable coating can be modified by addition of plasticizers or anti-tack agents.
- suitable materials for this purpose include waxy materials such as glycerides, for example glyceryl monostearate, or mono-/di-glycerides.
- Typical sizes for the opening(s), when circular, to be formed in the coating are in the range 0.9 mm - 6 mm of diameter, such as 1, 2, 3, 4 or 5 mms in diameter, depending on the overall size of the tablet and the desired rate of release.
- the openings are circular with diameters of 2 or 4 mms.
- the openings are circular with diameters of 3, 4 or 5mm.
- the opening(s) can have any convenient geometrical shape, but a rounded shape, e.g. substantially circular or elliptical, is generally sufficient. More elaborate shapes, such as text characters or graphics, can also be formed, provided that the release rate can be made uniform in individual dosage forms.
- Typical sizes of non-circular openings are equivalent in area to the above mentioned sizes for circular openings, thus in the range of from about 0.6 to about 30 mm2.
- opening is synonymous with hole, aperture, orifice, passageway, outlet etc.
- the opening(s) may be formed by methods disclosed in US 5,004,614. Typically opening(s) may be formed by drilling, for example using mechanical drill bits or laser beams, or by punches that remove the cut area. The formation of the opening(s) may by default remove a small portion of the exposed core. It is also possible to purposely form a cavity below the aperture as a release rate controlling device, the cavity exposing a greater initial surface area of core than a flat surface. Suitably, the opening(s) extend through the entire erodable coating such that there is immediate exposure of the core to the environmental fluid when the device is placed in the desired environment of use.
- the opening(s) in situ when the dosage form is administered, by forming a coating containing pore-forming agents i. e. material that will dissolve in the stomach to create pores in the coating.
- pore-forming agents i. e. material that will dissolve in the stomach to create pores in the coating.
- the pore forming agent is erodable in the pH range from 1 to 3.
- the opening(s) includes about 10 - 60 % of the total face area of the tablet i. e. the upper and lower surfaces of a biconvex tablet.
- the opening(s) may comprise 0.18 to 20%, such as 1 to 20% of the total face area.
- the rate controlling effect of the opening(s) may be related to the total circumference of the opening(s).
- the coating of the core is provided with two or more openings.
- the erodable coating surrounding the core is provided with two or more openings extending substantially completely through the coating but not penetrating the core and communicating from the environment of use to said core.
- the openings can be located on the same surface of the oral dosage form, or on different surfaces.
- the oral dosage form has two openings, for example one on each of opposing surfaces.
- the oral dosage form is a tablet having two opposed primary surfaces, each surface having one opening through the coating, and, in some embodiments, substantially completely through the coating.
- the core can be arranged so that one opening provides access to the first composition and the another opening provides access to the second composition.
- the seal coat may be a sub-coat or over-coat to the erodable coating. Additionally it can be desirable to provide a color coating to either the core, or to the dosage form after formation of the opening(s).
- the seal coat may be a sub-coat or over-coat to the erodable coating.
- a further aspect of the present invention is a process for preparing an oral dosage form that includes (i) an erodable core, which core including a first modified release composition that includes retigabine or a pharmaceutically acceptable salt or solvate thereof, and a pharmaceutically acceptable carrier therefore; and (ii) an erodable coating around the core, which coating comprises one or more openings extending substantially completely through the coating but not penetrating the core and communicating from the environment of use to the core, wherein release of retigabine or a pharmaceutically acceptable salt or solvate thereof, from the erodable core occurs substantially through the the opening(s) and through erosion of said erodable coating under pre-determined pH conditions which process includes the steps of i) formulating retigabine or a pharmaceutically acceptable salt or solvate thereof into a core; ii) coating the core with an erodable coating; and iii) creating one or more openings in the coating, the openings extending substantially completely through the coating but not penetrating
- a process for preparing an oral dosage form which dosage form includes a first modified release composition and a second composition, each composition including retigabine or a pharmaceutically acceptable salt or solvate thereof ("the drug”) and a pharmaceutically acceptable carrier therefor, wherein the first and second compositions are arranged to release drug at differing release rates on
- administration such that the rate of release of the drug from the dosage form is substantially independent of pH; which process includes the steps of sequentially or simultaneously: (i) formulating the drug into the first composition; and (ii) formulating the drug into the second composition; (iii) coating the core with an erodable coating; and (iv) creating one or more openings in the coating, the openings extending substantially completely through the coating but not penetrating the core and communicating from the environment of use to the core.
- the first and second compositions can be prepared by compressing suitable ingredients in conventional manner to form a compacted mass in multiple layers, which includes the core of the dosage form (also referred to herein as "tablet core").
- the tablet core can be prepared using conventional tablet excipients and formulation compression methods.
- the core typically includes the active agent or agents along with excipients that impart satisfactory processing and compression characteristics such as diluents, binders and lubricants.
- Additional excipients that can form part of the core of the device include disintegrants, flavorants, colorants, release modifying agents and/or solubilizing agents such as surfactants, pH modifiers and complexation vehicles.
- the active agent and excipients are thoroughly mixed prior to compression into a solid core.
- the core of the device can be formed by wet granulation methods, dry granulation methods or by direct compression.
- the core can be produced according to any desired pre-selected shape such as bi-convex, hemi-spherical, near hemi-spherical, round, oval, generally ellipsoidal, oblong, generally cylindrical or polyhedral, e.g. a triangular prism shape.
- the term "near hemi-spherical” is intended to be construed in the manner described in US 5,004,614.
- the core is formulated into a bi-convex shape, e.g. having two domed opposite surfaces.
- Suitable materials for the first composition are a rate controlling polymer or matrix forming polymer, such as the drug delivery matrices described herein above.
- a rate controlling polymer or matrix forming polymer such as the drug delivery matrices described herein above.
- HPMC high molecular weight hypromellose
- E hypromellose
- 2208 also known as K
- methylcellulose polyethylene oxide
- hydroxypropyl cellulose xanthan gum
- guar gum Eudragit NM also known as K
- Kollidon SR galactomannans
- dextran ethylcellulose
- carbomer carbopol
- polycarbophil sodium carboxymethylcellulose
- hydroxyethylcellulose sodium carboxymethylcellulose, hydroxyethylcellulose
- high molecular weight hypromellose 2910 also known as E
- 2208 also known as K
- the rate controlling polymer for the first composition is high molecular weight hypromellose 2208 (also known as K). If only one composition is present in the core, the rate controlling polymer for the first composition can be high molecular weight hypromellose 2910 (also known as E). In one aspect of the invention the rate controlling polymer or matrix forming polymer comprises 10-30% by tablet weight.
- a lubricant can be added for example magnesium stearate, sodium stearyl fumarate, talc or stearic acid.
- Suitable materials for the second composition include saccharoses, for example lactose and maltose; mannitol, xylitol, calcium lactate, calcium silicate, dicalcium phosphate, trehalose or microcrystalline cellulose for example AvicelTM. Additionally disintergrants or superdisinitergrants such as croscarmellose sodium or sodium starch glycolate, surfactants such as sodium lauryl sulphate can be added.
- the second composition is predominantly mannitol.
- the second composition includes as excipients, mannitol and magnesium stearate.
- the retigabine can be wet granulated with other ingredients, for example mannitol, AvicelTM or HPMC to prepare granules which are then blended with other ingredients to form the first and second compositions which are then compressed as discussed above.
- the wet granulation process can be performed in a fluid bed processor, where the dry powder is fluidized by incoming air through the bottom of the equipment and the binder solution is sprayed into the fluidized powder. The wet powder is dried to the appropriate moisture level.
- the wet granulation process can be performed in a high shear mixer or an extruder or similar unit setup for continuous wet granulation.
- the same granule can be used in both composition or alternatively separate granules could be prepared for each composition.
- the retigabine can be micronized.
- Formulations containing micronized retigabine can allow administration of formulations containing lower drug quantities. They can provide more consistent pharmacokinetic profiles, and may allow a reduction in dosing regimen.
- Fluid energy milling or micronization is a frequently used process for size reducing pharmaceutical materials.
- the parent Active Pharmaceutical Ingredient (API) is fed into the milling chamber at a feed rate which is defined in the batch record and set up at the start of each batch. This product feed rate is monitored at intervals throughout the run.
- the injection gas creates a reduced pressure zone at the venturi, and the powder is pulled into the milling chamber.
- the mill has a number of nozzles which are evenly spaced along the interior wall of the milling chamber to create the necessary momentum for collisions to reduce the size of the input API.
- the milling chamber acts as a particle classifier by keeping larger particles inside the chamber through inertia and allowing smaller particles to escape with the gas into the collection bag through the internal classifier. Size reduction is achieved primarily through particle -particle collisions.
- the core can be coated with a suitable pH dependent erodable material by any pharmaceutically acceptable coating method.
- coating methods disclosed in US 5,004,614 and film coating, sugar coating, spray coating, dip coating, compression coating, electrostatic coating.
- Typical methods include spraying the coating onto the tablet core in a rotating pan coater or in a fluidised bed coater until the desired coating thickness is achieved.
- the coating is provided to add about 4 to 8 mg/ cm2 or 5 - 7 mg/ cm2 of dry polymer around the tablet surface area. Typically this results in an increase in weight (relative to the core) of from 3 - 10% or 5 - 10 % by weight.
- the coating has a thickness in the range 0.05 to 0.5 mm.
- the oral dosage form of the present invention can be considered to be suitable for twice or once daily administration and during use is indicated to provide a therapeutic effect over an extended period of time, such as up to 24 hours, for example, up to 12, 14, 16, 18, 20 and 24 hours, per unit dose.
- the oral dosage form provides sustained release retigabine or a pharmaceutically acceptable salt or solvate thereof, for example providing release of the active agent over a time period of up to 26 hours; suitably in the range of about 4 to about 24 hours; including in the range of about 4 to about 15 and for example about 4 to about 12 hours.
- the oral dosage form provides pulsed release of retigabine or a pharmaceutically acceptable salt or solvate thereof, for example providing up to about 4, for example 2, pulses of active agent per 24 hours.
- the quantity of retigabine or a pharmaceutically acceptable salt or solvate thereof to be used in accordance with the present invention is a matter to be determined based upon typical pharmaceutical considerations, e.g. known dosages for retigabine or a pharmaceutically acceptable salt or solvate thereof, and is not limited by the process of this invention.
- a suitable dosage range can include up to 1500 mg, for example, 10 to 1500mg, for example 20 to 800 mg, suitably 100 to 800mg.
- suitable oral dosage forms of the invention comprise 40, 80, 160, 200, 320, 400, 480 or 640mg of retigabine or a pharmaceutically acceptable salt or solvate thereof.
- the amount of retigabine or a pharmaceutically acceptable salt or solvate thereof present in the first composition and the second composition may be varied in accordance with the desired dissolution profile.
- the first composition comprises 2 to 3 times as much retigabine as the second composition, suitable 2 to 2.5 times.
- the oral dosage form includes about 480 mg of retigabine or a pharmaceutically acceptable salt or solvate thereof
- the tablet core suitably can include a layer comprising about 340 mg of retigabine or a
- the release rates in the different environmental conditions can be harmonized to obtain comparable release rates under different body environments, and so achieve more constant dosing to a patient.
- Dissolution rates can be assessed by in vitro testing in solutions of the appropriate pHs. For example, when comparing dissolution in the stomach and intestines, tests can be carried out initially at about pH 1.3 with a transfer to about pH 6.4 after about 2 hours or about4 hours, as an assumed time for residence in the stomach before emptying into the intestines of a notional patient in respectively fasted and fed conditions.
- retigabine or a pharmaceutically acceptable salt or solvate thereof when administered in an oral dosage form of this invention is indicated to be useful for the treatment and/or prophylaxis of the disorders describe above.
- retigabine can be administered in combination with a second therapeutic agent in various treatment regimens described herein above and below.
- the second therapeutic agent can be selected from, but not limited to, carbamazepine (Tegretol TM), valproate (Depakote TM), tiagabine (Gabitril TM), levetiracetam (Keppra TM), gabapentin ( eurontin TM), phenytoin (Dilantin TM), lamotrigine (Lamictal TM), clonazepam (Klonopin TM), Clorazepate dipotassium (Tranxene TM),
- acetazolamide (Diamox TM), diazepam (Valium TM), ethosuximide (Zarontin TM), felbamate (Felbatol TM), fosphenytoin (Cerebyx TM), lorazepam (Ativan TM), oxcarbazepine (Trileptal TM), phenobarbital, pregabalin (Lyrica TM), primidone ( Mysoline TM), tiagabine hydrochloride (Gabatril TM), topiramte (Topamax TM), trimethadione (Tridione TM), zonisamide (Zonegran TM), lacosamide (Vimpat TM), eslicarbazepine (Stedesa/Zebinix TM), rufinamide (Banzel TM), vigabatrin (Sabril TM), brivaracetam (Rikelta TM) and carisbamate (
- retigabine or a pharmaceutically acceptable salt or solvate thereof when administered in an oral dosage form of this invention is indicated to be useful for the treatment and/or prophylaxis of epilepsy.
- the present invention provides a method for the treatment and/or prophylaxis of the disorders described above; the method includes administering an oral dosage form in accordance with various embodiments disclosed herein that include retigabine or a pharmaceutically acceptable salt or solvate thereof, to a human or non-human mammal.
- the present invention provides a method for the treatment and/or prophylaxis of epilepsy.
- the method includes administering an oral dosage form described herein that includes retigabine or a pharmaceutically acceptable salt or solvate thereof, to a human or non-human mammal.
- the present invention provides an oral dosage form as described herein that includes retigabine or a pharmaceutically acceptable salt or solvate thereof for use in the treatment and/or prophylaxis of any of the above described diseases or disorders.
- the present invention provides an oral dosage form of the invention including retigabine or a pharmaceutically acceptable salt or solvate thereof for use in the treatment and/or prophylaxis of the epilepsy.
- Table 1 provides ingredients and proportions of ingredients for formulation of pharmaceutical compositions into a modified release dosage form.
- the proportion of active ingredient utilized ranges from 35% to 65% of the total dosage form with the remainder constituting binders, disintegrants, surfactants, release modifying agents, glidants or lubricants in ranges as shown in Table 1.
- the dry blend for direct compression or wet granulation of a portion of the formulation or wet granulation of entire formulation were used to manufacture granules and tablets.
- This Example describes the methods of preparing the modified release formulations of the present invention and provides the components and respective proportions utilized in preparation of modified release formulations of the invention.
- Table 2 shows ingredients and proportions utilized in preparing several embodiments of the claimed invention. It is to be understood that the amounts and proportion of components used in Tables 1 and 2 may be apportioned into smaller or larger amounts, while maintaining the ingredient ratios, to produce the different modified release formulations of the invention. It should be further understood that such an apportionment of ingredients is also within the scope of the claims and the present invention.
- Modified release formulations A, B, C, D, F and H were prepared as follows. Briefly, retigabine was milled and blended with microcrystalline cellulose, hypromellose 2208,
- Caplets were prepared by tablet compression and completed with an enteric coating.
- Modified release formulation E was prepared as follows. Retigabine was milled and blended with hypromellose 2208, copolyvidone, and granulated with a water solution of hypromellose 2910 in the fluid bed drier at a maximum temperature of 50 °C. The granulation was blended with croscarmellose sodium and lubricated. Tablets were compressed and enteric coated.
- Modified release formulation G was prepared as follows. Milled retigabine was mixed in a Robot Coupe high shear mixer with microcrystalline cellulose, hypromellose 2208, plasdone, and sodium dodecyl sulfate. While mixing at 1500 rpm binding solution was added. The wet granulation mass was passed through a sieve. The granulation was dried in an oven at 45 °C and subsequently blended with lubricant and croscarmellose sodium followed by compression into tablets.
- Modified release formulation I was prepared as follows. Briefly, milled retigabine was mixed with a portion of microcrystalline cellulose and sucroester and granulated with water solution and hypromellose 2910 in the fluid bed drier at a maximum temperature of 50 °C. The granulation was blended with hypromellose 2208, crospovidone and the remaining amount of the
- microcrystalline cellulose lubricated and compressed in caplet shaped tablets.
- Table 2 Ingredient proportions utilized in preparation of several modified release formulations of the invention.
- Copolyvidone 15.2 16.0 16.0 16.0 16.0 16.0 13.0
- the modified release formulations of Table 2 were tested for dissolution characteristics, at pH 7.5 and pH 2.0, to determine the anticipated extent of dissolution in the stomach as well as in the gastrointestinal tract (GI tract). To make the determination, the rate of retigabine release into solution using USP dissolution apparatus, was determined for each of the modified release formulations of Table 2. In vitro dissolution studies were carried out using a buffered media similar to procedures employed in USP compendial dissolution testing.
- Table 3 shows the rate of retigabine release over 4 hours for modified release formulations A-I. All formulations demonstrated varying dissolution character in pH 7.5 borate buffer containing SDS. "A” demonstrated rapid dissolution with complete dissolution occurring within 0.5 hours. The release rate of "B” was measured at 46% with 100% percent of retigabine released after 3 hours. Modified release formulation "C” yielded a 23% rate of release at 0.5 hours and 84% retigabine release after 4 hours. The rate of release for modified release formulation "D” was relatively rapid yielding 75% rate of release at 0.5 hours and 100% release occurring at 2 hours. The rate of release of formulation "E” was not determined.
- Rate of release of formulation "F” was 40% at 0.5 hours with 94% released at the 4 hour time point.
- the percent release of formulation “G” was 28% at 0.5 hours and measured at 90% at 4 hours.
- Formulation “H” demonstrated a relatively slow rate of release with 14% of retigabine release occurring at 0.5 hours and 72% at 4 hours.
- Modified release formulation "I” was tested both in pH 7.5 buffered media and 0.1N HC1. In buffered media, modified release formulation "I” yielded a relatively low release rate with 8% retigabine release occurring at 0.5 hours and 66% in 4 hours. In 0.1N HC1, the rate of retigabine release at 0.5 hours was 11% and 34% at the 2 hour time point.
- This Example describes compositions and proportions of several modified release formulations of the invention containing 200 mg of retigabine.
- This Example provides a comparison of plasma retigabine pharmacokinetic parameters in fed and fasted subjects dosed with 400 mg retigabine modified release formulations.
- formulations 1 , 3, 5, and 6 containing 400 mg of retigabine were dosed orally in fed or fasted subjects and the results shown in Table 5 below.
- subjects were weighed and orally administered retigabine-containing modified release formulations.
- Fed subjects were dosed with food .
- Fasted subjects were fed 4 hours post dose and fasted overnight pre-dose.
- Blood was collected by venipuncture and plasma isolated by centrifugation. Plasma was frozen at - 80°C until time of analysis.
- Retigabine concentrations were determined by validated methods. Samples were analyzed in a standard reference standard concentration range that was linear throughout the range of concentrations.
- AUC area under the curve
- LS least squares
- mean ratio relative to a 200 mg dose of immediate release tablets
- 90% confidence interval of the mean ratio are provided in Table 5.
- Table 5 shows that all modified release formulations tested yielded comparable LS- means AUC values. Consistent with the administration of a 400 mg MR formulation dose, and a 200 mg IR formulation dose, the mean ratios of AUC values for all modified release formulations ranged from 144.48 to 235.7 (MR 5, 2x200mg, fasted). In addition, a food effect was observed for some formulations with increased AUC values measured in fed subjects versus fasted.
- Figure 3 shows a comparison of the pharmacokinetic profiles (PK; mean values) of Formulations 1, 3, 5, and 6 in subjects dosed orally in either a fasted or fed state compared to an immediate release control.
- This Example provides dissolution rates and profiles of retigabine formulated utilizing formulations 1-9.
- Formulations 1-9 were dissolved utilizing USP compendial dissolution procedures.
- Figure 4 provides the release profile. There was little dissolution of any of Formulations 1- 5 and 7-9 in 0.1 N HC1 (pH 2.0) while the immediate release (IR) retigabine formulation fully dissolves in this media in a 1 hour time period as shown.
- modified release formulations of the present invention allow for maintenance of dosage form integrity in the presence of a low pH environment (pH-2.0) as occurs in the stomach.
- the formulations also allow for modified and controlled dissolution of retigabine in higher pH environments such as occurs in the GI tract.
- This Example provides the solubility character of retigabine with varying pH values.
- Example VIII 480mg Tablet with a 2mm aperture
- Example IX 480mg Tablet with a
- the granules for Layers 1 and 2 were prepared separately using standard wet granulation procedures. The granules were then blended with the remaining ingredients for each layer and compressed. The two layers were then compressed together, film coated using standard procedures to add the color coat and then the enteric film coat was applied by spraying the coating onto the tablet core in a rotating pan coater. Apertures of 2mm or 4mm were mechanically drilled in the enteric coat producing tablets of Examples VIII and IX respectively.
- Dissolution profiles for the dosage forms of Examples VIII and IX are shown in Figure 8 of the accompanying drawings.
- the dissolution method used is as follows:
- Dissolution is determined in accordance with USP General Chapter ⁇ 71 1>.
- the procedure uses USP Apparatus 2 with a paddle speed of 100 rpm.
- the medium is 20 mM sodium citrate with 2.0% w/v sodium dodecyl sulphate, pH 6.4 (900 mL at 37C).
- the amount of dissolved retigabine is quantitated by UV spectroscopy using external standards.
- Retigabine Common granules are prepared by wet granulation.
- the granules are manufactured by fluidizing the retigabine and microcrystalline cellulose powder and spraying the hypromellose in solution onto the fluidized bed. After adding the appropriate amount of hypromellose, the wet granules are dried to an appropriate moisture level and milled to the desired
- Hypromellose K100LV 72.3 134.7 138.0 164.0
- Group 1 received each of the MR formulations and the IR formulation in a randomized 6-way crossover fashion in the fasted state.
- Table 10 Dosing Regimens for Group 1 (Fasted) Group 1 (fasted) 400mg IR (A) 480mg MR Formulation 1 - Example IX 480mg MR Formulation 2- Example VIII 480mg Formulation 3- Formulation 8 (Table 4) 480mg MR Formulation 4- Reference Formulation 480mg MR Formulation 5- Reference Formulation
- Subjects in Group 2 received the IR formulation and the MR formulations in a randomized manner (4-way crossover) and subjects in Group 3 received IR formulation and 2 MR formulations in a randomized manner (3 -way crossover) with a high fat meal (see Table 11)
- Part A Group 2 (high fat meal) Part A, Group 3 (high fat meal)
- Pharmacokinetics (AUC and C max ) for immediate release and modified release formulations were the primary pharmacokinetic parameters.
- the secondary pharmacokinetic parameters were t max and ti/ 2 of immediate release and modified release formulations.
- Plasma samples for retigabine pharmacokinetic analysis were obtained prior to dosing and up to 72 hours post dose on each dosing occasion. Plasma concentrations for pharmacokinetic analysis of retigabine were determined by validated assay methodologies.
- Table 12 Summary of Dose Normalized PK parameters following administration of IR tablets (400mg) and Modified Release tablets Example VIII and Example IX (480mg) in Fasted State
- Example IX and Formulation 8 of Table 4 resulted in a reduction of Cmax to between approximately 20% and 30% of that observed for IR.
- Tmax occurred between 10 and 48 hours post dose compared to between 0.5 and 4 hours for retigabine IR.
- Tmax for Formulation 8 of Table 4 occurred between 4 and 48 h.
- Tmax occurred between 6 and 24 hours post-dose compared to between 0.5 and 4 hours for retigabine.
- Tmax for Formulation 8 occurred between 4 and 48 h.
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Applications Claiming Priority (3)
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US12/690,889 US20100323015A1 (en) | 2008-07-18 | 2010-01-20 | Modified release formulation and methods of use |
US12/691,680 US20100323016A1 (en) | 2008-07-18 | 2010-01-21 | Modified release formulation and methods of use |
PCT/US2011/021498 WO2011090923A1 (en) | 2010-01-21 | 2011-01-18 | Modified release formulation and methods of use |
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EP2525660A1 true EP2525660A1 (de) | 2012-11-28 |
EP2525660A4 EP2525660A4 (de) | 2013-08-07 |
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EP11735033.0A Withdrawn EP2525660A4 (de) | 2010-01-20 | 2011-01-18 | Formulierung mit modifzierter freisetzung und verwendungsverfahren |
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EP (1) | EP2525660A4 (de) |
BR (1) | BR112012018173A2 (de) |
CL (1) | CL2012002014A1 (de) |
CO (1) | CO6592107A2 (de) |
EA (1) | EA201290663A1 (de) |
MX (1) | MX2012008475A (de) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2001066081A2 (de) * | 2000-03-08 | 2001-09-13 | Awd.Pharma Gmbh & Co.Kg | Pharmazeutische formulierungen enthaltend saccharosefettsäureester zur steuerung der wirkstofffreisetzung |
US20060251721A1 (en) * | 2003-09-26 | 2006-11-09 | Evangeline Cruz | Controlled release formulations of opioid and nonopioid analgesics |
WO2008066900A1 (en) * | 2006-11-28 | 2008-06-05 | Valeant Pharmaceuticals International | 1,4 diamino bicyclic retigabine analogues as potassium channel modulators |
WO2010009433A1 (en) * | 2008-07-18 | 2010-01-21 | Valeant Pharmaceuticals International | Modified release formulation and methods of use |
-
2011
- 2011-01-18 EP EP11735033.0A patent/EP2525660A4/de not_active Withdrawn
- 2011-01-18 MX MX2012008475A patent/MX2012008475A/es not_active Application Discontinuation
- 2011-01-18 BR BR112012018173A patent/BR112012018173A2/pt not_active IP Right Cessation
- 2011-01-18 EA EA201290663A patent/EA201290663A1/ru unknown
-
2012
- 2012-07-20 CL CL2012002014A patent/CL2012002014A1/es unknown
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2001066081A2 (de) * | 2000-03-08 | 2001-09-13 | Awd.Pharma Gmbh & Co.Kg | Pharmazeutische formulierungen enthaltend saccharosefettsäureester zur steuerung der wirkstofffreisetzung |
US20060251721A1 (en) * | 2003-09-26 | 2006-11-09 | Evangeline Cruz | Controlled release formulations of opioid and nonopioid analgesics |
WO2008066900A1 (en) * | 2006-11-28 | 2008-06-05 | Valeant Pharmaceuticals International | 1,4 diamino bicyclic retigabine analogues as potassium channel modulators |
WO2010009433A1 (en) * | 2008-07-18 | 2010-01-21 | Valeant Pharmaceuticals International | Modified release formulation and methods of use |
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Title |
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See also references of WO2011090923A1 * |
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MX2012008475A (es) | 2013-11-01 |
EA201290663A1 (ru) | 2013-03-29 |
BR112012018173A2 (pt) | 2017-08-29 |
CO6592107A2 (es) | 2013-01-02 |
CL2012002014A1 (es) | 2013-04-05 |
EP2525660A4 (de) | 2013-08-07 |
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