WO2001074350A1 - Nasal administration of agents for the treatment of gastroparesis - Google Patents

Nasal administration of agents for the treatment of gastroparesis Download PDF

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Publication number
WO2001074350A1
WO2001074350A1 PCT/US2001/010356 US0110356W WO0174350A1 WO 2001074350 A1 WO2001074350 A1 WO 2001074350A1 US 0110356 W US0110356 W US 0110356W WO 0174350 A1 WO0174350 A1 WO 0174350A1
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Prior art keywords
nasal
gastroparesis
day
metoclopramide
administered
Prior art date
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PCT/US2001/010356
Other languages
French (fr)
Inventor
Laura S. Lehman
David Tierney
Anastassios D. Retzios
Michael Petrone
David Young
Carol B. Trapnell
Ruth Oliver
Original Assignee
Questcor Pharmaceuticals, Inc.
Shire Us Inc.
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Filing date
Publication date
Application filed by Questcor Pharmaceuticals, Inc., Shire Us Inc. filed Critical Questcor Pharmaceuticals, Inc.
Priority to AU2001249684A priority Critical patent/AU2001249684A1/en
Priority to EP01922935A priority patent/EP1274414B1/en
Priority to DK01922935.0T priority patent/DK1274414T3/en
Priority to AT01922935T priority patent/ATE466569T1/en
Priority to CA2403994A priority patent/CA2403994C/en
Priority to DE60142037T priority patent/DE60142037D1/en
Publication of WO2001074350A1 publication Critical patent/WO2001074350A1/en

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K9/00Medicinal preparations characterised by special physical form
    • A61K9/0012Galenical forms characterised by the site of application
    • A61K9/0043Nose
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K31/00Medicinal preparations containing organic active ingredients
    • A61K31/16Amides, e.g. hydroxamic acids
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K31/00Medicinal preparations containing organic active ingredients
    • A61K31/16Amides, e.g. hydroxamic acids
    • A61K31/165Amides, e.g. hydroxamic acids having aromatic rings, e.g. colchicine, atenolol, progabide
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K31/00Medicinal preparations containing organic active ingredients
    • A61K31/16Amides, e.g. hydroxamic acids
    • A61K31/165Amides, e.g. hydroxamic acids having aromatic rings, e.g. colchicine, atenolol, progabide
    • A61K31/166Amides, e.g. hydroxamic acids having aromatic rings, e.g. colchicine, atenolol, progabide having the carbon of a carboxamide group directly attached to the aromatic ring, e.g. procainamide, procarbazine, metoclopramide, labetalol
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K45/00Medicinal preparations containing active ingredients not provided for in groups A61K31/00 - A61K41/00
    • A61K45/06Mixtures of active ingredients without chemical characterisation, e.g. antiphlogistics and cardiaca
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P1/00Drugs for disorders of the alimentary tract or the digestive system
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P1/00Drugs for disorders of the alimentary tract or the digestive system
    • A61P1/14Prodigestives, e.g. acids, enzymes, appetite stimulants, antidyspeptics, tonics, antiflatulents

Definitions

  • the present invention is directed to a method for treating gastroparesis. More ⁇ - particularly, the present invention is directed to a method for treating gastroparesis typically caused by diabetes mellitus (including type 1 and type 2 diabetes), postviral syndromes, anorexia nervosa, malnutrition, alcoholism, surgery on the stomach or vagus nerve, medications, particularly anticholinergics and narcotics which slow contractions in the intestine, gastroesophageal reflux disease, smooth muscle disorders such as amyloidosis and . 0 scleroderma, nervous system diseases (including abdominal migraine and Parkinson's disease), or metabolic disorders (including hypothyroidism) with the nasal administration of metoclopramide.
  • diabetes mellitus including type 1 and type 2 diabetes
  • postviral syndromes including anorexia nervosa
  • malnutrition including alcoholism
  • alcoholism surgery on the stomach or vagus nerve
  • medications particularly anticholinergics and narcotics which slow
  • vagus nerve controls the movement of food through the digestive tract.
  • stomach muscles contract about three times a minute and the stomach empties within 90-120 minutes after eating.
  • stomach muscles do not work properly and the stomach contraction becomes sluggish and/or less frequent. As a result, the movement of food is slowed or stopped.
  • Gastroparesis is the
  • Typical symptoms of gastroparesis are nausea, vomiting, early satiety, weight loss, abdominal bloating, abdominal discomfort, epigastric pain, anorexia. These symptoms may be mild or severe.
  • gastroparesis can lead to complications such as bacterial overgrowth from the fermentation of food, hardening ye of food into solid masses which are called bezoars that may cause nausea, vomiting, and obstruction in the stomach. Bezoars can be dangerous if they block the passage of food into the small intestine.
  • gastroparesis Major causes of gastroparesis include diabetes, postviral syndromes, anorexia nervosa, surgery on the stomach or vagus nerve, medications, particularly anticholinergics
  • narcotics drugs that slow contractions in tl e intestine
  • gastroesophageal reflux diseases smooth muscle disorders such as amyloidosis and scleroderma
  • nervous system diseases such as abdominal migraine and Parkinson's disease
  • metabolic disorders such as hypothyroidism.
  • Metoclopramide in oral and injectable forms have been investigated for the treatment of gastroparesis.
  • Metoclopramide (MCP) stimulates stomach muscle contractions to help empty food. It also helps reduce
  • Metoclopramide is taken 20 to 30 minutes before meals and at bedtime. Traditionally, treatment of gastroparesis is via injection or oral route. Metoclopramide is currently available in a tablet form, injection form, and syrup form under the name Reglan® (A.H. Robbins Company). The injection form has an onset of action of about 1-3 minutes after intravenous administration and an onset of action of about 10-15
  • r 18 subjects show that oral bioavailability of metoclopramide is approximately 80% ⁇ 15.5%. Peak plasma concentrations occur at about 1-2 hours after a single oral dose.
  • metoclopramide absorption through the GI tract is unpredictable and far less effective, with predictability and effectiveness having an inverse relationship to the severity of the symptom, i.e., the more severe the symptoms, the less likely that oral r. administration is an option.
  • Further complicating the matter of oral administration of metoclopramide is the fact that patients with gastroparesis often have symptoms such as vomiting and nausea. If vomiting takes place, the amount of metoclopramide that remains in the stomach is unknown, and the result of treatment is even less predictable.
  • U.S. Patent No. 4,624,965 discusses nasal administration of MCP. No experience with human subjects using a nasal spray formulation of MCP (MCP ns) is disclosed within Wenig. Furthermore, Wenig did not disclose using any forms of MCP, or any particular regimen for the purpose of treating gastroparesis.
  • Psilogenis is solely directed to t - nasal administration of MCP for the treatment of a specific disease state known as delayed onset emesis, particularly emesis induced by chemotherapy. Psilogenis did not disclose nasal administration of MCP for the purpose of treating gastroparesis.
  • Yet another object of the present invention is to provide a method for treating 2 Q gastroparesis caused by diabetes by using a dosage form of MCP that avoids or reduces the problem of patient non-compliance.
  • Figure 1 is a bar graph of the adjusted mean change from baseline to the end of the _. study for individual symptom scores
  • Figures 2A, 2B and 2C contain the mean (linear) of metoclopramide plasma concentration over hours 0 through four following a single oral or nasal spray dose of metoclopramide on the first day of study;
  • Figure 2A is a graph of lOmg oral;
  • Figure 2B is lOmg nasal;
  • Figure 2C is 20mg nasal; ! 0
  • Figures 3 A, 3B and 3C contain the mean (linear) of metoclopramide plasma concentration over hours 0 through twenty-four following a single oral or nasal spray dose of metoclopramide on the first day of study;
  • Figure 3 A is a graph of lOmg oral;
  • Figure 3B is lOmg nasal;
  • Figure 3C is 20mg nasal;
  • Figures 4 A, 4B and 4C contain the mean (linear) of metoclopramide plasma j j- concentration over hours 0 through twenty-four following a single oral or nasal spray dose of metoclopramide on the forty-second day of study;
  • Figure 4A is a graph of lOmg oral;
  • Figure 4B is lOmg nasal;
  • Figure 4C is 20mg nasal.
  • the invention is directed to a method for treating and controlling gastroparesis by nasally administering MCP or a pharmaceutically acceptable salt thereof.
  • MCP is formulated to contain a therapeutically effective amount of MCP such that upon administration by the intranasal route, a therapeutically effective amount of MCP is delivered to the patient.
  • the therapeutically effective amount of MCP in both
  • 2 ⁇ aqueous and non-aqueous formulations is chosen to minimize the severity and incidence of untoward side-effects and drug-interactions encountered with MCP.
  • intranasal administration of MCP has the advantage of being painless, effective, safe, and consistent, particularly for patients with gastroparesis.
  • the relative bioavailability (nasal versus oral) was 3 determined to be 52/57% in terms of AUC 0.inf (area under the plasma concentration-time curve extrapolated to infinity) and 31/41% in terms of C max (maximum observed concentration).
  • the absolute bioavailability (nasal versus IN) in terms of AUC 0.inf was 42/45% (two different nasal spray concentrations were evaluated, 200 mg/ml and 400 mg/ml).
  • gastroparesis is treated by intranasally administering a pharmaceutically acceptable MCP nasal dosage form at a therapeutic dosage
  • the duration of treatment is preferably about 5 weeks to about 8 weeks, and most preferably about 6 weeks.
  • a method for treating gastroparesis is provided by intranasally administering a pharmaceutically acceptable MCP nasal dosage
  • all therapeutic dosage levels from about 20 mg/day to about 160 mg/day are encompassed in the invention, including but not limited to, dosage levels of 30 mg/day, 35 mg/day, 40 mg/day, 45 mg/day, 55 mg/day, 60 mg/day, 65 mg/day, 70 mg/day, 75 mg/day, 80 mg/day, 85 mg/day, 90 mg/day, 95 mg/day, 100 mg/day, 105 mg/day, 110 mg/day, 115 0 mg/day, 120 mg/day, 125 mg/day, 130 mg/day, 135 mg/day, 140 mg/day, 145 mg/day, 150 mg/day, 155 mg/day, and 160 mg/day.
  • These daily dosages may be administered in smaller doses.
  • Preferred smaller doses are 10 mg, 20 mg, and 30 mg.
  • Preferred times for administration are 3-4 smaller dosages at equally spaced intervals within a 24-hour period for about 1-8 weeks. Alternative preferred times for administration are before meals,
  • a method for treating gastroparesis is provided by intranasally administering a pharmaceutically acceptable MCP nasal dosage form at a therapeutic dosage level of between about 40 mg/day to about 80 mg day for about 1 to about 8 weeks.
  • the duration of treatment is preferably about 5 weeks to about 8 weeks, and most preferably about 6 weeks.
  • a method for treating gastroparesis is provided by intranasally administering a pharmaceutically acceptable MCP nasal dosage form at a therapeutic dosage level of about 80 mg/day in 3 to 4 smaller dosages at equally spaced intervals within 24 hours for about 1 to about 8 weeks.
  • the duration of treatment is preferably about 5 weeks to about 8 weeks, and most preferably about 6 weeks.
  • the invention is directed to a method for treating gastroparesis caused by a number of origins, including but not limited to, diabetes (including type 1 and type 2), postviral syndromes, anorexia nervosa, surgery on the on the stomach or vagus nerve, medications, particularly anticholinergics and narcotics which slow contractions in the intestine, gastroesophageal reflux disease, smooth muscle disorders such as amyloidosis and
  • r scleroderma r scleroderma
  • nervous system diseases including abdominal migraine and Parkinson's disease
  • metabolic disorders including hypothyroidism
  • the gastroparesis is of diabetic origin, including type 1 and type 2 diabetes.
  • Treatment generally involves intranasally administering a pharmaceutically acceptable MCP nasal spray dosage form at a therapeutic dosage level of
  • treatment involves intranasally administering a pharmaceutically acceptable MCP nasal dosage form at a therapeutic dosage level of ⁇ between about 40 mg/day to about 80 mg/day in 3 to 4 smaller dosages at equally spaced intervals within 24 hours for about 1 to about 8 weeks, preferably for about 5 weeks to about 8 weeks, and most preferably for about 6 weeks.
  • the MCP nasal formulation administered to deliver a dose of 10 mg four times a day comprises:
  • the MCP nasal formulation is given to patients as either 1 puffin one and only one , nostril (i.e., 1 puff at lOmg/puff (lOmg/O.lml and O.lml/puff)) four times a day (1 puff QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks), or 1 puff per nostril in both nostrils (i.e., 2 puffs at 5mg/puff (lOmg/O.lml and 0.05ml/puff)) four times a day (2 puffs QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks).
  • the above formulation is sterile with a bacteria count of 10 below the level allowed by the U.S.P. on a per ml basis. In addition, pathogens are absent.
  • the pH of , ,- the above formulation is about 4.0.
  • the MCP nasal formulation is given to patients as either 1 puff in one and only one nostril (i.e., 1 puff at 20mg/puff (20mg/0.1ml and O.lml/puff)) four times a day (1 puff QID TM for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks), or 1 puff per nostril in both nostrils (i.e., 2 puffs at lOmg/puff (20mg/0.1ml and 0.05ml/puff)) four times a day (2 puffs QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks).
  • the above formulation is sterile with a bacteria count of 10 below the level allowed by the U.S.P. on a per ml basis. In addition, pathogens are absent.
  • the pH of the above formulation is about 4.0.
  • the MCP nasal formulation is given to patients as either 1 puffin one and only one nostril (i.e., 1 puff at 30mg/puff (30mg/0.1ml and 0.1 ml/puff)) four times a day (1 puff QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks), or 1 puff per nostril in both nostrils (i.e., 2 , . puffs at 15mg/puff (20mg/0.1ml and 0.075ml/puff)) four times a day (2 puffs QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks).
  • the above formulation is sterile with a bacteria count of 10 below the level allowed by the U.S.P. on a per ml basis. In addition, pathogens are absent.
  • the pH of the above formulation is about 4.0.
  • Additional formulations may be prepared to deliver other doses of metoclopramide 20 for nasal administration and may be formulated as above, substituting the amount of metoclopramide per milliliter, i.e., a dose of 15 mg would be 15 mg/0.1 ml, a dose of 30 mg would be 30 mg/0.1 ml, etc.
  • nasal formulations having different concentrations of MCP such as, for example, formulations 2 ⁇ where 1 puff of 0.1 ml/puff would deliver 25 mg/puff, 35 mg/puff, 40 mg/puff, etc.
  • 1 puff of 0.1 ml/puff would deliver 25 mg/puff, 35 mg/puff, 40 mg/puff, etc.
  • one of skill in the art is presumed to know the appropriate concentration of MCP/puff depending on the desired administration i.e., 1 puff/nostril for one nostril or, alternatively, both nostrils and is expected to adjust the concentrations of MCP accordingly.
  • suitable nontoxic pharmaceutically acceptable nasal carriers for MCP will - 3 Q be apparent to those skilled in the art of nasal pharmaceutical formulations. Also see
  • nasal dosage forms are solutions, suspensions and gels.
  • ingredients such as pH adjusters (e.g., a base such as NaOH), emulsifiers or dispersing agents, buffering agents, preservatives such as agents which prevent degradation of MCP and in particular the oxidation of MCP, wetting agents, jelling agents (e.g., methylcellulose) and flavoring agents may also be present.
  • pH adjusters e.g., a base such as NaOH
  • emulsifiers or dispersing agents e.g., a base such as NaOH
  • buffering agents e.g., a base such as NaOH
  • preservatives such as agents which prevent degradation of MCP and in particular the oxidation of MCP
  • wetting agents e.g., methylcellulose
  • jelling agents e.g., methylcellulose
  • flavoring agents e.g., methylcellulose
  • edetate disodium or another agent which prevents oxidation of metoclopramide
  • menthol or menthol c crystals
  • the nasal composition is isotonic.
  • sustained release nasal compositions e.g., sustained release gels, or when a more highly insoluble form is desired, a long chain carboxylic acid salt of the drug can be conveniently employed.
  • the carboxylic acid portion of the salt preferably contains 10 to 20 carbon atoms. Alternatively, equimolar
  • - amount of MCP for treating gastroparesis will vary with the age, size, weight and general physical condition of the patient as well as the severity of the disease.
  • Frequency of administration will likewise vary with the formulation of nasal metoclopramide (i.e, the concentration of MCP, whether it is in the form of sustained release, etc.) and can be adjusted so that any suitable number of doses per day may be used.
  • compositions will normally be prepared in dosage unit forms to contain systemic, therapeutically effective amounts of the selected MCP.
  • Typical MCP nasal dosage forms are solutions or suspensions that can be administered as a nasal spray. However, nasal drops may also be used. Nasal spray or nasal
  • 2 ⁇ - drops may comprise aqueous or non-aqueous solutions or suspensions of MCP.
  • the MCP nasal spray dosage formulation contains the active agent in any suitable form and pharmaceutically acceptable salt thereof (e.g. metoclopramide hydrochloride).
  • a typical MCP nasal formulation is in solution form having a light amber color and being non-cloudy to the naked eye with an pH of between about 3.0-5.0.
  • - ⁇ formulation may contain benzyl alcohol of at least about 13.5 mg/ml containing practically no impurities as determined by high pressure liquid chromatography (HPLC) and having a bacterial count of less than 250 ufc/ml and free of pathogens sufficient to form an acceptable pharmaceutical nasal spray dosage form.
  • HPLC high pressure liquid chromatography
  • the solvent is maybe purified water suitable for use in nasal dosage forms or any equivalent water (e.g. injectable water) that is allowed for
  • a typical dose is that dose which is therapeutically effective and which minimizes side-effects and drug interactions.
  • the formulations used in the methods of the invention also include one or more other drugs being co-administered with the nasal metoclopramide. These drugs can be administered concurrently with metoclopramide or at separate time intervals. Alternatively, r one or more other drugs may be incorporated into the metoclopramide nasal formulation. These drugs include pain relievers, insulin and other drugs useful in the management of diabetes, steroids, especially steroids that prevent nasal irritation, and antidepressants. It is preferred that the co-administered drug be one that is not known to cause adverse side effects when administered with metoclopramide.
  • a typical nasal dosage of MCP for the treatment and control of gastroparesis depends upon the degree and severity of gastroparesis experienced by a typical patient (e.g. caused by diabetes). Some individuals with diabetic gastroparesis may experience symptom-free periods interspersed with intermittent acute exacerbations. Others may have chronic, ongoing symptoms that wax and wane over time. Disease severity falls along a
  • the dosage of the nasally administered MCP may be varied between about 20 mg/day to about 160 mg/day. Above about 160 mg/day, the dosage may be undesirable due to untoward side effects experienced by patients receiving more than about 160 mg/day from the MCP nasal dosage form.
  • a preferred dosage of MCP nasal spray is 40 to 80 mg/day. 5
  • administration of, for example, 80 mg/day is given as 20mg four times a day (for example, either (1) 2 puffs of 10 mg/0.1 ml of MCP nasal spray, one puff per nostril, (2) 2 puffs of 10mg/0.05 ml of MCP nasal spray, one puff per nostril, or (3) 1 puff of 20mg/0.1ml of MCP nasal spray in one and only one nostril).
  • Narious techniques may be used to access the severity of the gastroparesis and go gastric emptying.
  • Methods well known in this art include, for example, questioning the patient on symptoms related to the disease as well as techniques such as radioscintigraphy, ultrasonography, and techniques using radiopaque markers such as barium. Radioscintigraphy appears to be the preferred method, due to its relatively high sensitivity and specificity, ease of use, and low exposure to radiation. All of these methods can be used 5 to determine, together with teachings of the present invention, the appropriate dosage for a particular patient.
  • the weight of the patient may also affect the dosage to be administered. Typically, a dose of between about 0.1 mg/kg to about 2.5 mg/kg is given to an patient suffering from gastroparesis.
  • the dosages can be either about 0.1 mg/kg, 0.2 mg/kg, 0.3 mg/kg, 0.4 mg/kg, 0.5 mg/kg, 0.6 mg/kg, 0.7 mg/kg, 0.8 mg/kg, 0.9 mg/kg, 1.0 mg/kg, 1.1 mg/kg, 1.2 mg/kg, 1.3 mg/kg, 1.4 mg/kg, 1.5 mg/kg, 1.6 mg/kg, 1.7 mg/kg, 1.8 mg/kg, 1.9 mg/kg, 2.0 mg/kg,
  • a preferred nasal dosage is between about 0.06 to about 1.2 mg/kg of body weight. Other preferred nasal dosages are about .06 mg/kg, .08 mg/kg, 1.0 mg/kg, 1.2 mg/kg and 1.4 mg/kg.
  • the aforementioned dosages for the treatment and control of gastroparesis are usually given before meals and before bed time.
  • nasal metoclopramide would be expected to result in significant CNS side effects and is not indicated for such duration.
  • nasal doses of 80 mg/day were well tolerated for an extended period of six weeks.
  • nasal metoclopramide may be substituted for intravenous administration in patients with severe gastroparesis for
  • Intranasal Medication The metoclopramide 200 mg/ml solution was packaged with a Nalois NP7-50 pump which delivers 0.05 ml per spray for the 10 mg strength, and with a Nalois , NP7-100 pump which delivers 0.1 ml per spray for the 20 mg strength. Patients randomized to receive metoclopramide nasal spray 10 mg or 20 mg received one spray per dose.
  • the formulation was as follows:
  • the patient skipped a meal he/she was instructed to still take medication as scheduled. If the patient ate more than three meals in one day, he/she was instructed to not take additional medication. If a dose of medication was forgotten, he/she was advised to take it as soon as he/she remembered. Doses greater than 2 hours late were omitted. The , 5 patients were instructed not to take a double dose of the medication at the next scheduled time if a dose was missed.
  • o asked to rate the frequency of each of six target symptoms during the week prior to the assessment.
  • the target symptoms were nausea, vomiting, anorexia, bloating, early satiety and meal tolerance.
  • Patients assigned each symptom a predefined ordinal frequency score of zero to four.
  • IAQ Investigator's Assessment Questionnaire
  • N total symptom score was calculated as the sum of the ratings of the SAQ and IAQ.
  • Entry criteria for the study included a total score of between 8 and 20 on each of the 5 SAQ and IAQ, based upon a moderate or greater grading of at least two symptoms and varying grading on other symptoms. Patients with a score higher than 40 were excluded. On each of the scales (SAQ and IAQ), a minimum of two out of six symptoms must have been rated moderate (2) or higher.
  • Efficacy measurements included the patient's SAQ and IAQ scores. Both questionnaires were completed at baseline and once per week during the 6 week treatment period: Days 7, 14, 21, 28, 35 and 42, respectively.
  • the SAQ and IAQ each had 6 symptom items, including nausea, vomiting, loss of , 5 appetite, feeling bloated, feeling full after eating a small amount of food, and persistent fullness after eating.
  • the SAQ assessed the frequency of the symptoms, whereas the IAQ examined the severity. The SAQ was completed first since the physician needed to discuss the symptoms with the patient prior to the completion of the IAQ.
  • the primary efficacy endpoint was the change from the baseline to the end of the study in the total symptom score.
  • the total symptom score is the sum of the six patient- rated frequency items plus the sum of the six investigator-rated severity items. If a patient terminated prematurely from the study, the last available total symptom assessment score
  • the secondary efficacy endpoints involved both changes from baseline in the weekly total symptom scores and combined severity and frequency score (severity score plus ⁇ 0 frequency score) for each individual symptom. Each combined item has a possible score of 0 to 8.
  • the primary efficacy endpoint for the study was the change in total symptom score between baseline and week 6.
  • the primary analysis of efficacy was an intent-to-treat analysis where all patients who were randomized to one of the three treatments and had at least on e post-randomization assessment (including SAQ and IAQ) were included. Of the 89 patients who were randomized, two patents (04/002 and 05/919) were excluded because there were no data to assess efficacy collected after they are randomized.
  • the secondary analysis of efficacy was a "per protocol" analysis which included all patients who completed the study per protocol. This per protocol analysis was performed only for the primary efficacy endpoint, i.e., the change from baseline to the end of the study in the total symptom score. Patients who did not meet the baseline SAQ/IAQ score criteria were excluded. The SAQ and IAQ taken during the time internal in which prohibited concomitant therapies were taken was also excluded from the per protocol analysis. The statistical analysis results for the Individual Symptom Score analysis and for the per protocol analysis are provided in Table 1 and Table 2, respectively.
  • PROTOCOL Emitasol Nasal Spray
  • PROTOCOL Emitasol Nasal Spray
  • Table 3 summarizes the change overtime in total symptom scores for patients enrolled into the clinical study.
  • PROTOCOL Emitasol Nasal Spray Table 3
  • the mean total symptom scores reduced more than 13 points from baseline after one week of treatment with both nasal treatments scoring above the oral.
  • a treatment effect was seen for all 6 items scored, i.e., there was a reduction in the scores for each of the symptoms: nausea, vomiting, loss of appetite, feeling bloated, feeling full after eating a small amount of food, and persistent fullness after eating.
  • PROTOCOL Emitasol Nasal Spray
  • metoclopramide nasal spray 20 mg was statistically significantly superior to metoclopramide oral 10 mg tablets with respect to mean change from baseline in total symptom scores.
  • the results were consistent from analyses based on both intent-to-treat approach and per protocol approach.
  • both metoclopramide nasal spray 10 mg and 20 mg showed better response over metoclopramide oral 10 mg in total symptom scores after 6 weeks of treatment.
  • a statistically significant difference was observed for nasal 20 mg on 3 items: loss of appetite, feeling full after eating a small amount of food, and persistent fullness after eating.
  • a statistically significant difference was observed for nasal 10 mg on feeling full after eating a small amount of food.
  • the analysis of safety includes all patients who were randomized and received at least one dose of study drug. There were 89 patients enrolled into the clinical study. Eight- two (82) patients completed the study. Seven patients failed to complete the study.
  • the mean maximum concentration C max was higher following administration of the 1 0 20 mg nasal spray in comparison to the 10 mg tablet formulation with mean values of 48.68 (range: 12.10- 107.00) and 36.41 (range: 12.5- 61.10) ng/mL, respectively.
  • the mean maximum concentration of the 10 mg nasal spray was lower and more variable with a mean maximum concentration of 29.13 (range: 2.21 - 103.00) ng/mL.
  • AUC 0 . The area under the plasma concentration-time curve up to the last quantifiable , 5 concentration, AUC 0 . folk was greatest following administration of the 20 mg nasal spray in comparison to the 10 mg tablet formulation, with mean values of 359.10 (range: 83.30- 883.97) and 265.52 (range: 92.32 - 633.94).
  • the mean AUC 0 . t for the 10 mg nasal spray was lower than the 10 mg tablet formulation with a mean exposure of 221.44 (range: 31.13 - 800.97) ng.h/mL. 2 In terms of total exposure, AUC 0 .
  • the mean terminal half-lives were 6.89h, 6.90h and 7.63h for the 10 mg oral, 10 mg nasal and 20 mg nasal spray treatment groups, respectively.
  • the mean maximum concentrations on Day 42 were comparable between the 20 mg nasal and 10 mg oral treatment groups, with mean values of 67.23 (range: 2.96 - 152.00) and 61.21 (range: 22.60 - 106.00) ng/mL, respectively.
  • the mean C max value for the 10 mg nasal treatment group was 41.11 (range: 11.10- 146.00) ng/mL, approximately 67% of the mean , o value observed for the 10 mg oral treatment group, but with much higher variability.
  • the mean AUC 0 . t for the 20 mg nasal and the 10 mg oral treatment groups were comparable with mean values of 483.44 (range: 21.22 - 1094.63) and 481.11 (range: 119.46- 988.34) ng.h/mL.
  • the mean AUC 0 _ t for the 10 mg nasal treatment group was 411.05 (range: 75.76-2198.68) ng.h/mL, approximately 85% of the mean 5 exposure measured in the 10 mg tablet treatment group. This variability between patients was observed in all three treatment groups.
  • the mean terminal half-livers were 8.44 h, 8.86 h and 8.03 h for the 10 mg oral, 10 2 mg nasal and 20 mg nasal treatment groups, respectively.
  • the median time to reach the maximum concentration C max , T max was 1.00 h for the 10 mg oral and 20 mg nasal, and 1.50 h for the 10 mg nasal treatment group.
  • the mean AUC tau values were greatest following the 20 mg nasal spray treatment in comparison with the 10 mg nasal spray treatment, with mean values of 20 196.41 ng.h/mL and 138.37 ng.h/mL, respectively.
  • the NUC tau for the 10 mg nasal spray treatment was lower in comparison to the 10 mg oral treatment group, with a mean value of 113.39 ng.h mL.
  • the mean observed accumulation determined as the ratio of the AUC 0 _ ⁇ on day 42 to the AUC 0 . ⁇ on day 1, for a given treatment group were 1.95 (range: 0.96 - 4.47), 2.55 (range: 0.29 - 19.04) and 1.89 (range: 0.07 -6.35), for the 10 mg oral, 10 mg nasal spray and the 20 mg nasal spray, respectively. These ratio's indicate that at steady-state, the average plasma concentration of metoclopramide is approximately twice that following a single dose administration.

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Abstract

The present invention is directed to a method for the treatment of gastroparesis by the use of metoclopramide nasal formulation.

Description

NASAL ADMINISTRATION OF AGENTS FOR THE TREATMENT OF GASTROPARESIS
1. Field of the Invention
The present invention is directed to a method for treating gastroparesis. More <- particularly, the present invention is directed to a method for treating gastroparesis typically caused by diabetes mellitus (including type 1 and type 2 diabetes), postviral syndromes, anorexia nervosa, malnutrition, alcoholism, surgery on the stomach or vagus nerve, medications, particularly anticholinergics and narcotics which slow contractions in the intestine, gastroesophageal reflux disease, smooth muscle disorders such as amyloidosis and .0 scleroderma, nervous system diseases (including abdominal migraine and Parkinson's disease), or metabolic disorders (including hypothyroidism) with the nasal administration of metoclopramide.
2. Background of the Invention
, <- The vagus nerve controls the movement of food through the digestive tract.
Normally, stomach muscles contract about three times a minute and the stomach empties within 90-120 minutes after eating. When the vagus nerve is damaged or dysfunctional, stomach muscles do not work properly and the stomach contraction becomes sluggish and/or less frequent. As a result, the movement of food is slowed or stopped. Gastroparesis is the
~r. medical term for this condition.
Typical symptoms of gastroparesis are nausea, vomiting, early satiety, weight loss, abdominal bloating, abdominal discomfort, epigastric pain, anorexia. These symptoms may be mild or severe. In addition, since food lingers too long in the stomach, gastroparesis can lead to complications such as bacterial overgrowth from the fermentation of food, hardening ye of food into solid masses which are called bezoars that may cause nausea, vomiting, and obstruction in the stomach. Bezoars can be dangerous if they block the passage of food into the small intestine.
Major causes of gastroparesis include diabetes, postviral syndromes, anorexia nervosa, surgery on the stomach or vagus nerve, medications, particularly anticholinergics
-« and narcotics (drugs that slow contractions in tl e intestine), gastroesophageal reflux diseases, smooth muscle disorders such as amyloidosis and scleroderma, nervous system diseases such as abdominal migraine and Parkinson's disease, and metabolic disorders such as hypothyroidism.
As stated above, diabetes is a major cause of gastroparesis. Blood glucose levels of
-jr diabetic patients often remain high over a long period of time. High blood glucose causes chemical-changes in nerves and damages the blood vessels that carry oxygen and nutrients to the vagus nerves. As a result, at least 20 percent of people with type 1 diabetes develop gastroparesis. Gastroparesis also occurs in people with type 2 diabetes, although less often.
Metoclopramide in oral and injectable forms, cisapride, erythromycin, and domperidone have been investigated for the treatment of gastroparesis. Metoclopramide (MCP) stimulates stomach muscle contractions to help empty food. It also helps reduce
_- nausea and vomiting. Metoclopramide is taken 20 to 30 minutes before meals and at bedtime. Traditionally, treatment of gastroparesis is via injection or oral route. Metoclopramide is currently available in a tablet form, injection form, and syrup form under the name Reglan® (A.H. Robbins Company). The injection form has an onset of action of about 1-3 minutes after intravenous administration and an onset of action of about 10-15
, r. minutes after intramuscular administration. However, injections, particularly daily multiple injections, are often very painful and inconvenient. Intravenous administration often requires a hospital setting. As a result, compliance (compliance = following dosage regimen prescribed) is often very poor. Metoclopramide in the tablet or syrup form can be effectively and rapidly absorbed through the GI tract by healthy persons. Pharmacokinetics studies of
, r 18 subjects show that oral bioavailability of metoclopramide is approximately 80% ± 15.5%. Peak plasma concentrations occur at about 1-2 hours after a single oral dose. However, for patients with gastroparesis, metoclopramide absorption through the GI tract is unpredictable and far less effective, with predictability and effectiveness having an inverse relationship to the severity of the symptom, i.e., the more severe the symptoms, the less likely that oral r. administration is an option. Further complicating the matter of oral administration of metoclopramide is the fact that patients with gastroparesis often have symptoms such as vomiting and nausea. If vomiting takes place, the amount of metoclopramide that remains in the stomach is unknown, and the result of treatment is even less predictable.
Side effects of metoclopramide include fatigue, sleepiness, depression, anxiety, and jc difficulty with physical movement. Mental depression has occurred in patients with and without prior history of depression. Symptoms range from mild to severe, including suicidal ideation and suicide. Other symptoms such as involuntary movements of limbs and facial grimacing, torticollis, oculogyric crisis, rhythmic protrusion of tongue, bulbar type of speech, trismus, and dystonic reactions such as stridor and dyspnea. or. These side effects may interfere with patient compliance with the drug regimen prescribed, as well as interfere with the patient's ability to effectively communicate the nature and severity of this and other side effects. Poor compliance or non-compliance is observed in about 25% of patients with an oral medication regimen. Due to nausea and vomiting associated with gastroparesis, patients are even more reluctant to comply with the
35 oral regimen. U.S. Patent No. 4,624,965 (hereinafter Wenig) discusses nasal administration of MCP. No experience with human subjects using a nasal spray formulation of MCP (MCP ns) is disclosed within Wenig. Furthermore, Wenig did not disclose using any forms of MCP, or any particular regimen for the purpose of treating gastroparesis.
U.S. Patent No. 5,760,086 to Psilogenis (hereinafter Psilogenis) is solely directed to t- nasal administration of MCP for the treatment of a specific disease state known as delayed onset emesis, particularly emesis induced by chemotherapy. Psilogenis did not disclose nasal administration of MCP for the purpose of treating gastroparesis.
In view of the above, there is a clear need for an improved method of treating gastroparesis. Specifically, there is a need to develop an improved method of administering , 0 metoclopramide. More specifically, there is a need to develop an improved method of administering metoclopramide safely, effectively, and consistently.
3. Summary of the Invention
The present invention is directed to providing a method for treating gastroparesis by -, . using a dosage form of MCP that avoids or reduces the incidence of patient non-compliance. Another object of the present invention is to provide a method for treating gastroparesis by nasally administering MCP which avoids or reduces the incidence of side-effects experienced by patients.
Yet another object of the present invention is to provide a method for treating 2Q gastroparesis caused by diabetes by using a dosage form of MCP that avoids or reduces the problem of patient non-compliance.
It is still another object of the present invention to provide a method for treating gastroparesis caused by type 1 or type 2 diabetes by using a dosage form of MCP that avoids or reduces the problem of patient non-compliance. 2^ It is yet still another object of the present invention to provide a method for sufficiently treating gastroparesis caused by diabetes using a dosage form of MCP that avoids or reduces the incidence of side-effects experienced by patients.
It is even yet still another object of the present invention to provide a method for sufficiently treating gastroparesis caused by type 1 or type 2 diabetes using MCP nasal spray that avoids or reduces the severity of side-effects experienced by patients.
It is further an object of the present invention to provide a method for sufficiently controlling gastroparesis caused by diabetes by nasally administering MCP that avoids or reduces the problems associated with patient non-compliance.
These and other objectives of the present invention are accomplished by 35 administering intranasally to patients suffering from gastroparesis a therapeutically effective dosage of MCP in a pharmaceutically acceptable dosage form which is therapeutically and medically acceptable.
4. Brief Description of the Drawings
Figure 1 is a bar graph of the adjusted mean change from baseline to the end of the _. study for individual symptom scores;
Figures 2A, 2B and 2C contain the mean (linear) of metoclopramide plasma concentration over hours 0 through four following a single oral or nasal spray dose of metoclopramide on the first day of study; Figure 2A is a graph of lOmg oral; Figure 2B is lOmg nasal; Figure 2C is 20mg nasal; ! 0 Figures 3 A, 3B and 3C contain the mean (linear) of metoclopramide plasma concentration over hours 0 through twenty-four following a single oral or nasal spray dose of metoclopramide on the first day of study; Figure 3 A is a graph of lOmg oral; Figure 3B is lOmg nasal; Figure 3C is 20mg nasal;
Figures 4 A, 4B and 4C contain the mean (linear) of metoclopramide plasma j j- concentration over hours 0 through twenty-four following a single oral or nasal spray dose of metoclopramide on the forty-second day of study; Figure 4A is a graph of lOmg oral; Figure 4B is lOmg nasal; Figure 4C is 20mg nasal.
5. Detailed Description
JQ The invention is directed to a method for treating and controlling gastroparesis by nasally administering MCP or a pharmaceutically acceptable salt thereof. MCP is formulated to contain a therapeutically effective amount of MCP such that upon administration by the intranasal route, a therapeutically effective amount of MCP is delivered to the patient. In addition, the therapeutically effective amount of MCP, in both
2^ aqueous and non-aqueous formulations, is chosen to minimize the severity and incidence of untoward side-effects and drug-interactions encountered with MCP. Compared to the injectable form and oral form of MCP, intranasal administration of MCP has the advantage of being painless, effective, safe, and consistent, particularly for patients with gastroparesis.
2Q 5.1 Pharmacokinetic Data: Selection of Doses in the Study
The pharmacokinetic data from three single dose, crossover pharmacokinetic studies in healthy patients was evaluated to determine appropriate dose selection for the clinical study described in sections 6 and 7.
In one study (data not shown), the relative bioavailability (nasal versus oral) was 3 determined to be 52/57% in terms of AUC0.inf (area under the plasma concentration-time curve extrapolated to infinity) and 31/41% in terms of Cmax (maximum observed concentration). The absolute bioavailability (nasal versus IN) in terms of AUC0.inf was 42/45% (two different nasal spray concentrations were evaluated, 200 mg/ml and 400 mg/ml).
In a second study (data not shown), the relative bioavailability (nasal versus oral) was determined to be 97% in terms of AUC0.inf and 72% in terms of Cmax. The absolute t- bioavailability (nasal versus IN) in terms of AUC0.inf was also 97%.
In a third study (data not shown), the absolute bioavailability of the nasal spray (nasal versus IN) was determined to be 69%.
Given the disparity in these studies, a pooled analysis of the data from the first and second study was performed. This resulted in a relative bioavailability of 58% (90% CI:
10 49% - 68%) for AUC0.inf and 45% (90% CI: 36%-57%) for Cmax.
It was therefore determined appropriate to study safety and efficacy of both 10 mg and 20 mg doses of nasal spray for the treatment of diabetic gastroparesis.
In one embodiment of the present invention, gastroparesis is treated by intranasally administering a pharmaceutically acceptable MCP nasal dosage form at a therapeutic dosage
, ,- level of between about 20 mg day to about 160 mg/day for about 1 to about 8 weeks. The duration of treatment is preferably about 5 weeks to about 8 weeks, and most preferably about 6 weeks.
In another embodiment of the invention, a method for treating gastroparesis is provided by intranasally administering a pharmaceutically acceptable MCP nasal dosage
2 form at a therapeutic dosage level of between about 40 mg/day to about 160 mg/day in 3 to 4 smaller dosages at equally spaced intervals within 24 hours for about 1 to about 8 weeks. It is understood that the daily dosing is varied with the particular needs of the patients to be treated and that one of skill in the art is expected to modify dosing in a manner most suitable for a particular patient, i.e. , one dose per day, two, three, four, five or any other regime most ^ efficacious for the patient's needs. Thus, any suitable number of doses per day may be used. Further, all therapeutic dosage levels from about 20 mg/day to about 160 mg/day, are encompassed in the invention, including but not limited to, dosage levels of 30 mg/day, 35 mg/day, 40 mg/day, 45 mg/day, 55 mg/day, 60 mg/day, 65 mg/day, 70 mg/day, 75 mg/day, 80 mg/day, 85 mg/day, 90 mg/day, 95 mg/day, 100 mg/day, 105 mg/day, 110 mg/day, 115 0 mg/day, 120 mg/day, 125 mg/day, 130 mg/day, 135 mg/day, 140 mg/day, 145 mg/day, 150 mg/day, 155 mg/day, and 160 mg/day. These daily dosages may be administered in smaller doses. Preferred smaller doses are 10 mg, 20 mg, and 30 mg. Preferred times for administration are 3-4 smaller dosages at equally spaced intervals within a 24-hour period for about 1-8 weeks. Alternative preferred times for administration are before meals,
,,- assuming 2 to 4 meals per day, and before bedtime. The duration of treatment is preferably about 5 weeks to about 8 weeks, and most preferably about 6 weeks. In still another embodiment of the invention, a method for treating gastroparesis is provided by intranasally administering a pharmaceutically acceptable MCP nasal dosage form at a therapeutic dosage level of between about 40 mg/day to about 80 mg day for about 1 to about 8 weeks. The duration of treatment is preferably about 5 weeks to about 8 weeks, and most preferably about 6 weeks.
- In an additional embodiment of the invention, a method for treating gastroparesis is provided by intranasally administering a pharmaceutically acceptable MCP nasal dosage form at a therapeutic dosage level of about 80 mg/day in 3 to 4 smaller dosages at equally spaced intervals within 24 hours for about 1 to about 8 weeks. The duration of treatment is preferably about 5 weeks to about 8 weeks, and most preferably about 6 weeks.
, In particular, the invention is directed to a method for treating gastroparesis caused by a number of origins, including but not limited to, diabetes (including type 1 and type 2), postviral syndromes, anorexia nervosa, surgery on the on the stomach or vagus nerve, medications, particularly anticholinergics and narcotics which slow contractions in the intestine, gastroesophageal reflux disease, smooth muscle disorders such as amyloidosis and
, r scleroderma, nervous system diseases (including abdominal migraine and Parkinson's disease), or metabolic disorders (including hypothyroidism).
In a preferred embodiment, the gastroparesis is of diabetic origin, including type 1 and type 2 diabetes. Treatment generally involves intranasally administering a pharmaceutically acceptable MCP nasal spray dosage form at a therapeutic dosage level of
2 between about 40 mg/day to about 160 mg/day in 3 to 4 smaller dosages at equally spaced intervals within 24 hours for about 1 to about 8 weeks, preferably for about 2 weeks to about 8 weeks, and most preferably for about 6 weeks.
In a preferred embodiment, treatment involves intranasally administering a pharmaceutically acceptable MCP nasal dosage form at a therapeutic dosage level of ^ between about 40 mg/day to about 80 mg/day in 3 to 4 smaller dosages at equally spaced intervals within 24 hours for about 1 to about 8 weeks, preferably for about 5 weeks to about 8 weeks, and most preferably for about 6 weeks.
In one embodiment, the MCP nasal formulation administered to deliver a dose of 10 mg four times a day comprises:
30
5 lOmg/O.lml metoclopramide hydrochloride
1.5 mg benzyl alcohol
0.8 mg NaCl
0.320 mg glacial acetic acid
0.077 mg sodium acetate
, 6.425 mg sorbitol
0.8-1 mg/ml menthol
1 mg/ml edetate disodium
0.1 ml purified water (qs ad to 0.1 ml)
The MCP nasal formulation is given to patients as either 1 puffin one and only one , nostril (i.e., 1 puff at lOmg/puff (lOmg/O.lml and O.lml/puff)) four times a day (1 puff QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks), or 1 puff per nostril in both nostrils (i.e., 2 puffs at 5mg/puff (lOmg/O.lml and 0.05ml/puff)) four times a day (2 puffs QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks). The above formulation is sterile with a bacteria count of 10 below the level allowed by the U.S.P. on a per ml basis. In addition, pathogens are absent. The pH of , ,- the above formulation is about 4.0.
In other embodiment, the MCP nasal formulation administered to deliver a dose of 20 mg four times a day comprises (formulation per 0.1 ml of MCP nasal (MCP n = metoclopramide nasal dosage form)):
20mg/0.1ml metoclopramide hydrochloride
2 1.5 mg benzyl alcohol
0.8 mg NaCl
0.320 mg glacial acetic acid
0.077 mg sodium acetate
6.425 mg sorbitol
2^ 0.8-1 mg/ml menthol
1 mg/ml edetate disodium
0.1 ml purified water (qs ad to 0.1 ml).
The MCP nasal formulation is given to patients as either 1 puff in one and only one nostril (i.e., 1 puff at 20mg/puff (20mg/0.1ml and O.lml/puff)) four times a day (1 puff QID ™ for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks), or 1 puff per nostril in both nostrils (i.e., 2 puffs at lOmg/puff (20mg/0.1ml and 0.05ml/puff)) four times a day (2 puffs QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks). The above formulation is sterile with a bacteria count of 10 below the level allowed by the U.S.P. on a per ml basis. In addition, pathogens are absent. The pH of the above formulation is about 4.0.
35 In yet another embodiment, the MCP nasal formulation administered to deliver a dose of 30 mg four times a day comprises (formulation per 0.1 ml of MCP nasal spray (MCP n = metoclopramide nasal dosage form)):
30mg/0.1ml metoclopramide hydrochloride
1.5 mg benzyl alcohol
5 0.8 mg NaCl
0.320 mg glacial acetic acid
0.077 mg sodium acetate
6.425 mg sorbitol
0.8-1 mg/ml menthol
. 1 mg/ml edetate disodium
0.1 ml purified water (qs ad to 0.1 ml)
The MCP nasal formulation is given to patients as either 1 puffin one and only one nostril (i.e., 1 puff at 30mg/puff (30mg/0.1ml and 0.1 ml/puff)) four times a day (1 puff QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks), or 1 puff per nostril in both nostrils (i.e., 2 , . puffs at 15mg/puff (20mg/0.1ml and 0.075ml/puff)) four times a day (2 puffs QID for about 1, 2, 3, 4, 5, 6, 7, or 8 weeks). The above formulation is sterile with a bacteria count of 10 below the level allowed by the U.S.P. on a per ml basis. In addition, pathogens are absent. The pH of the above formulation is about 4.0.
Additional formulations may be prepared to deliver other doses of metoclopramide 20 for nasal administration and may be formulated as above, substituting the amount of metoclopramide per milliliter, i.e., a dose of 15 mg would be 15 mg/0.1 ml, a dose of 30 mg would be 30 mg/0.1 ml, etc.
Thus, it is expected that one of ordinary skill would be able to formulate nasal formulations having different concentrations of MCP such as, for example, formulations 2^ where 1 puff of 0.1 ml/puff would deliver 25 mg/puff, 35 mg/puff, 40 mg/puff, etc. Also, one of skill in the art is presumed to know the appropriate concentration of MCP/puff depending on the desired administration i.e., 1 puff/nostril for one nostril or, alternatively, both nostrils and is expected to adjust the concentrations of MCP accordingly.
Further, suitable nontoxic pharmaceutically acceptable nasal carriers for MCP will -3 Q be apparent to those skilled in the art of nasal pharmaceutical formulations. Also see
REMINGTON'S PHARMACEUTICAL SCIENCES, any edition. Obviously, the choice of suitable carriers will depend on the exact nature of the particular nasal dosage form required, e.g., whether the drug is to be formulated into a nasal solution (for use as drops or as a spray, can be either oil or aqueous-based), a nasal suspension, a nasal ointment, a nasal gel or o <- another nasal form, all of which are encompassed by the present invention. Preferred nasal dosage forms are solutions, suspensions and gels. Minor amounts of ingredients such as pH adjusters (e.g., a base such as NaOH), emulsifiers or dispersing agents, buffering agents, preservatives such as agents which prevent degradation of MCP and in particular the oxidation of MCP, wetting agents, jelling agents (e.g., methylcellulose) and flavoring agents may also be present. Preferably about 1 mg/ml of edetate disodium (or another agent which prevents oxidation of metoclopramide) and about 0.08-1 mg/ml of menthol or menthol c crystals is added.
Most preferably, the nasal composition is isotonic. If desired, sustained release nasal compositions, e.g., sustained release gels, or when a more highly insoluble form is desired, a long chain carboxylic acid salt of the drug can be conveniently employed. The carboxylic acid portion of the salt preferably contains 10 to 20 carbon atoms. Alternatively, equimolar
1 0 amounts of the drug free base and the long chain carboxylic acid are combined in methanol. That mixture is then added to a small volume of water, causing the desired salt (e.g., drug stearate) to precipitate out. One of skill in the art is presumed to be aware of other suitable aqueous and non-aqueous embodiments for sustained release formulations.
Those skilled in the art will be aware that a systemic, therapeutically effective
, - amount of MCP for treating gastroparesis will vary with the age, size, weight and general physical condition of the patient as well as the severity of the disease. Frequency of administration will likewise vary with the formulation of nasal metoclopramide (i.e, the concentration of MCP, whether it is in the form of sustained release, etc.) and can be adjusted so that any suitable number of doses per day may be used.
2 As a practical matter the selected therapeutic compositions will normally be prepared in dosage unit forms to contain systemic, therapeutically effective amounts of the selected MCP.
Typical MCP nasal dosage forms are solutions or suspensions that can be administered as a nasal spray. However, nasal drops may also be used. Nasal spray or nasal
2<- drops may comprise aqueous or non-aqueous solutions or suspensions of MCP. The MCP nasal spray dosage formulation contains the active agent in any suitable form and pharmaceutically acceptable salt thereof (e.g. metoclopramide hydrochloride).
A typical MCP nasal formulation is in solution form having a light amber color and being non-cloudy to the naked eye with an pH of between about 3.0-5.0. The typical
-^ formulation may contain benzyl alcohol of at least about 13.5 mg/ml containing practically no impurities as determined by high pressure liquid chromatography (HPLC) and having a bacterial count of less than 250 ufc/ml and free of pathogens sufficient to form an acceptable pharmaceutical nasal spray dosage form. The solvent is maybe purified water suitable for use in nasal dosage forms or any equivalent water (e.g. injectable water) that is allowed for
35 use in such nasal dosage forms. See REMINGTON'S PHARMACEUTICAL SCIENCES, any edition from 1980-1996. For the adequate and/or sufficient treatment and control of gastroparesis, a typical dose is that dose which is therapeutically effective and which minimizes side-effects and drug interactions.
The formulations used in the methods of the invention also include one or more other drugs being co-administered with the nasal metoclopramide. These drugs can be administered concurrently with metoclopramide or at separate time intervals. Alternatively, r one or more other drugs may be incorporated into the metoclopramide nasal formulation. These drugs include pain relievers, insulin and other drugs useful in the management of diabetes, steroids, especially steroids that prevent nasal irritation, and antidepressants. It is preferred that the co-administered drug be one that is not known to cause adverse side effects when administered with metoclopramide.
, A typical nasal dosage of MCP for the treatment and control of gastroparesis depends upon the degree and severity of gastroparesis experienced by a typical patient (e.g. caused by diabetes). Some individuals with diabetic gastroparesis may experience symptom-free periods interspersed with intermittent acute exacerbations. Others may have chronic, ongoing symptoms that wax and wane over time. Disease severity falls along a
, wide continuum. Some diabetics may be completely asymptomatic despite measurable delays in gastric emptying. Others may have symptoms that affect their lifestyles or daily activities to varying degrees. Although rare, complete gastric atony can be a life-threatening complication of diabetic gastroparesis, requiring hospitalization and supportive measures of intravenous hydration or nutrition. All of the above states of gastroparesis disease are
20 encompassed by the invention.
The dosage of the nasally administered MCP may be varied between about 20 mg/day to about 160 mg/day. Above about 160 mg/day, the dosage may be undesirable due to untoward side effects experienced by patients receiving more than about 160 mg/day from the MCP nasal dosage form. A preferred dosage of MCP nasal spray is 40 to 80 mg/day. 5 Typically, administration of, for example, 80 mg/day is given as 20mg four times a day (for example, either (1) 2 puffs of 10 mg/0.1 ml of MCP nasal spray, one puff per nostril, (2) 2 puffs of 10mg/0.05 ml of MCP nasal spray, one puff per nostril, or (3) 1 puff of 20mg/0.1ml of MCP nasal spray in one and only one nostril).
Narious techniques may be used to access the severity of the gastroparesis and go gastric emptying. Methods well known in this art include, for example, questioning the patient on symptoms related to the disease as well as techniques such as radioscintigraphy, ultrasonography, and techniques using radiopaque markers such as barium. Radioscintigraphy appears to be the preferred method, due to its relatively high sensitivity and specificity, ease of use, and low exposure to radiation. All of these methods can be used 5 to determine, together with teachings of the present invention, the appropriate dosage for a particular patient. The weight of the patient may also affect the dosage to be administered. Typically, a dose of between about 0.1 mg/kg to about 2.5 mg/kg is given to an patient suffering from gastroparesis. The dosages can be either about 0.1 mg/kg, 0.2 mg/kg, 0.3 mg/kg, 0.4 mg/kg, 0.5 mg/kg, 0.6 mg/kg, 0.7 mg/kg, 0.8 mg/kg, 0.9 mg/kg, 1.0 mg/kg, 1.1 mg/kg, 1.2 mg/kg, 1.3 mg/kg, 1.4 mg/kg, 1.5 mg/kg, 1.6 mg/kg, 1.7 mg/kg, 1.8 mg/kg, 1.9 mg/kg, 2.0 mg/kg,
- 2.1 mg/kg, 2.2 mg kg, 2.3 mg/kg, 2.4 mg/kg, 2.5 mg/kg. A preferred nasal dosage is between about 0.06 to about 1.2 mg/kg of body weight. Other preferred nasal dosages are about .06 mg/kg, .08 mg/kg, 1.0 mg/kg, 1.2 mg/kg and 1.4 mg/kg.
The aforementioned dosages for the treatment and control of gastroparesis are usually given before meals and before bed time.
10 The expected benefit of an intranasal formulation of metoclopramide for gastroparesis is to provide an alternative route of administration for this agent to patients who have uncomfortable gastrointestinal symptoms of gastroparesis. The intranasal formulation of metoclopramide will spare patients with active symptoms the potential additional discomfort of having to swallow an oral formulation and serves as an alternative
1 ^ to injectable formulations. As presented in greater detail below in Section 6, the nasal administration of metoclopramide treatment of gastroparesis offers many benefits, some of which are unexpected. For example, as illustrated below, one unexpected benefit is that while patents receiving the nasal form of the drug were exposed to less drug overall, 10 mg of nasal metoclopramide was superior to 10 mg oral metoclopramide in reducing symptoms
2 with particular significance in the categories of feeling full after eating and persistent fullness. Further, less exposure to metoclopramide reduces the opportunity for central nervous system (CNS) side effects (see the data relating to AUC0.inf for 10 mg oral versus nasal). Also, the benefit of the 20 mg nasal (80 mg day) was superior than 10 mg oral in for all symptoms studied and was well tolerated for six weeks. In contrast, 80 mg/day of oral
2 metoclopramide would be expected to result in significant CNS side effects and is not indicated for such duration. However, nasal doses of 80 mg/day were well tolerated for an extended period of six weeks. Further, because of its rapid onset of action (see Figures 2B and 2C showing higher initial blood levels, i.e., faster absorption), nasal metoclopramide may be substituted for intravenous administration in patients with severe gastroparesis for
^0 whom the oral form is not indicated. The benefits of nasal administration over intravenous administration being obvious to the skilled practitioner. In sum, the nasal form of metoclopramide, as demonstrated herein, provides heretofore unexpected benefits in the treatment of gastroparesis.
Various publications are cited herein, the disclosures of which are incorporated by reference in their entirety for all purposes. Having described the invention, the following examples are included to illustrate the benefits of the present invention. The examples are only illustrative and are not meant to unduly limit the scope of the present invention.
6. Examples 6.1 Overall Study Design and Plan
A multi-center, controlled, randomized, open-label, parallel design study in patients with diabetic gastroparesis was done. Eligible patients were randomized to receive metoclopramide nasal spray 10 mg, metoclopramide nasal spray 20 mg or oral metoclopramide 10 mg tablets in ratio 2:2:1 four times daily before meals and at bedtime for 0 six weeks.
6.2 Treatments Administered
Intranasal Medication: The metoclopramide 200 mg/ml solution was packaged with a Nalois NP7-50 pump which delivers 0.05 ml per spray for the 10 mg strength, and with a Nalois , NP7-100 pump which delivers 0.1 ml per spray for the 20 mg strength. Patients randomized to receive metoclopramide nasal spray 10 mg or 20 mg received one spray per dose. The formulation was as follows:
20mg/0.1ml metoclopramide hydrochloride
1.5 mg benzyl alcohol
20 0.8 mg ΝaCl
0.320 mg glacial acetic acid
0.077 mg sodium acetate
6.425 mg sorbitol
0.8-1 mg/ml menthol
2 1 mg/ml edetate disodium
0.1 ml purified water (qs ad to 0.1 ml).
6.3 Randomized Treatment or Crossover Phase
Patients who were determined eligible for inclusion in the study following the ~0 screening visit were block-randomized within each center in a 2:2:1 ratio (metoclopramide nasal spray 10 mg, metoclopramide nasal spray 20 mg and oral metoclopramide 10 mg respectively) with a block size of 5.
6.4 Method of Assigning Patients to Treatment Groups
-5 Patients were randomly assigned to receive their allocated treatment according to a computer-generated randomization schedule prepared prior to the start of the study. Study patients who were deemed eligible for the protocol following the screening visit were randomized in a 2:2:1 fashion in blocks of 5, randomized within study center to receive metoclopramide nasal spray 10 mg or 20 mg or oral metoclopramide 10 mg tablets, respectively.
5 6.5 Selection and Timing of Dose for Each Patient
All patients randomized to nasal spray were instructed to do the following: actuate the nasal spray device once into one nostril, four times daily, before meals and at bedtime; alternate nostrils with each application.
Patients randomized to oral metoclopramide tablets were instructed to take one tablet , o four times daily, 30 minutes before meals and at bedtime.
Ifthe patient skipped a meal, he/she was instructed to still take medication as scheduled. Ifthe patient ate more than three meals in one day, he/she was instructed to not take additional medication. If a dose of medication was forgotten, he/she was advised to take it as soon as he/she remembered. Doses greater than 2 hours late were omitted. The , 5 patients were instructed not to take a double dose of the medication at the next scheduled time if a dose was missed.
There were no dose adjustments allowed during the conduct of the study. Patients began taking the medication on study Day 1 and completed on Day 42.
20 6.6 Symptom Assessment A symptom assessment tool, modified from the tool described by Perkel and colleagues (M.S. Perkel, T. Hersh, C. Moore, E.D. Davidson, "Metoclopramide Therapy in Fifty-five Patients With Delayed Gastric Emptying"; Am J Gastroenterol 1980; 74:231-236) which is incorporated herein in its entirety, was used to assess symptoms and therapeutic
25 efficacy before, during, and at the conclusion of treatment. The modifications to the Perkel scale included removal of items which were redundant or are not considered hallmark symptoms of gastroparesis. Simple language changes (medical to layman terminology) and more precise response specifications were also included to increase inter-site consistency and were self-reported on the Symptom Assessment Questionnaire ("SAQ"). Patients were
., o asked to rate the frequency of each of six target symptoms during the week prior to the assessment. The target symptoms were nausea, vomiting, anorexia, bloating, early satiety and meal tolerance. Patients assigned each symptom a predefined ordinal frequency score of zero to four.
Also included was an assessment of severity in the evaluation of diabetic τ5 gastroparesis symptoms (W.S. Longo, A.M. Nernava; "Prokinetic Agents for Lower Gastrointestinal Motility Disorders", Dis Colon Rectum 1993; 36:696-708) and is incorporated by reference in its entirety. An Investigator's Assessment Questionnaire ("IAQ") was included to assess the severity of the symptoms and therapeutic efficacy before, during, and at the conclusion of treatment following speaking to the patient.
N total symptom score was calculated as the sum of the ratings of the SAQ and IAQ.
Entry criteria for the study included a total score of between 8 and 20 on each of the 5 SAQ and IAQ, based upon a moderate or greater grading of at least two symptoms and varying grading on other symptoms. Patients with a score higher than 40 were excluded. On each of the scales (SAQ and IAQ), a minimum of two out of six symptoms must have been rated moderate (2) or higher.
1 0 6.7 Efficacy Parameters
Efficacy measurements included the patient's SAQ and IAQ scores. Both questionnaires were completed at baseline and once per week during the 6 week treatment period: Days 7, 14, 21, 28, 35 and 42, respectively.
The SAQ and IAQ each had 6 symptom items, including nausea, vomiting, loss of , 5 appetite, feeling bloated, feeling full after eating a small amount of food, and persistent fullness after eating. The SAQ assessed the frequency of the symptoms, whereas the IAQ examined the severity. The SAQ was completed first since the physician needed to discuss the symptoms with the patient prior to the completion of the IAQ.
2 6.8 Primary Efficacy Parameter
The primary efficacy endpoint was the change from the baseline to the end of the study in the total symptom score. The total symptom score is the sum of the six patient- rated frequency items plus the sum of the six investigator-rated severity items. If a patient terminated prematurely from the study, the last available total symptom assessment score
25 was used.
6.9 Secondary Efficacy Parameter
The secondary efficacy endpoints involved both changes from baseline in the weekly total symptom scores and combined severity and frequency score (severity score plus ~0 frequency score) for each individual symptom. Each combined item has a possible score of 0 to 8.
7. Results
7.1 Efficacy Analysis 2 The primary efficacy endpoint for the study was the change in total symptom score between baseline and week 6. The primary analysis of efficacy was an intent-to-treat analysis where all patients who were randomized to one of the three treatments and had at least on e post-randomization assessment (including SAQ and IAQ) were included. Of the 89 patients who were randomized, two patents (04/002 and 05/919) were excluded because there were no data to assess efficacy collected after they are randomized.
The secondary analysis of efficacy was a "per protocol" analysis which included all patients who completed the study per protocol. This per protocol analysis was performed only for the primary efficacy endpoint, i.e., the change from baseline to the end of the study in the total symptom score. Patients who did not meet the baseline SAQ/IAQ score criteria were excluded. The SAQ and IAQ taken during the time internal in which prohibited concomitant therapies were taken was also excluded from the per protocol analysis. The statistical analysis results for the Individual Symptom Score analysis and for the per protocol analysis are provided in Table 1 and Table 2, respectively.
Adjusted Mean Change From Baseline To The End of
Study For Total Symptom Score (ITT)
PROTOCOL: Emitasol Nasal Spray
Table 1
Adjusted Mean Change from Baseline to the End of
Study for Total Symptom Score
(Intent-to-Treat)
Difference From
Baseline Mean Change* Oral 10 mg
Treatment N Mean From Baseline Mean (95% CI.) P-value
Oral lO g 18 22.9 -14.3
Nasal lO mg 34 23.4 -16.8 -2.5 (-5.8, 0.8) 0.132
Nasal 20 mg 35 21.3 -18.0 -3.8 (-7.1, -0.5) 0.026 * Baseline total symptom score and study center adjusted mean change
Adjusted Mean Change From Baseline To The End of
Study For Individual Symptom Score (Per Protocol)
PROTOCOL: Emitasol Nasal Spray
Table 2
Adjusted Mean Change from Baseline to the End of Study for Total Symptom Score
(Per-Protocol)
5
Difference From Baseline Mean Change* Oral 10 mg Treatment N Mean From Baseline Mean (95% C.I.) P-value
Oral 10 mg 16 22.8 -13.9
10 Nasal 10 mg 30 23.4 -17.7 -3.8 (-7.1, -0.5) 0.026
Nasal 20 mg 30 21.3 -18.4 -4.6 (-7.9, -1.2) 0.008
* Baseline total symptom score and study center adjusted mean change
There was a statistically significant difference between the change from baseline in *5 the total symptom score between the nasal 20 mg and oral 10 mg cohorts at week 6 (p = 0.026). In addition, both the nasal 10 mg and the nasal 20 mg groups had better mean total symptom scores compared to the oral 10 mg group, i.e., compared to the oral 10 mg group the score was 2.5 points better for nasal 1 Omg and 3.8 points better for nasal 20 mg.
After the exclusion of protocol violators, similar results were observed in the per protocol analysis. In the per protocol analyses there was a significant difference in the total symptom score between baseline and week 6 for both the nasal 10 mg (p = 0.026) and nasal 20 mg (p = 0.008) cohorts compared to the oral 10 mg group.
7.1.2 Secondary Efficacy Parameters 5 Total Symptom Score Profile and Symptom Item Scores
Table 3 summarizes the change overtime in total symptom scores for patients enrolled into the clinical study.
0
5 Adjusted Mean Change From Baseline To The End of Study For Total Symptom Score by Treatment (ITT)
PROTOCOL: Emitasol Nasal Spray Table 3
Summary of Mean Change from Baseline to the End of Study for Total Symptom Score by Treatment (Intent-to-Treat)
End of Study Change From
Treatment N Baseline Mean Mean (SD) Baseline Mean (SD)
Oral lO mg 18 22.9 (6.1) 7.6 (7.0) -15.3 (8.7)
Nasal 10 mg 34 23.4 (6.5) 5.3 (7.0) -18.1 (8.9)
Nasal 20 mg 35 21.3 (4.9) 3.8 (4.3) -17.6 (4.9)
For all three metoclopramide groups, the mean total symptom scores reduced more than 13 points from baseline after one week of treatment with both nasal treatments scoring above the oral. A treatment effect was seen for all 6 items scored, i.e., there was a reduction in the scores for each of the symptoms: nausea, vomiting, loss of appetite, feeling bloated, feeling full after eating a small amount of food, and persistent fullness after eating.
Table 4 provides the analysis results for each of the 6 symptom items. There was a statistically significant difference for 3 symptoms in the change in score from baseline and week 6 between the nasal 20 mg and oral 10 mg groups: loss of appetite (p = 0.019), feeling full after eating a small amount of food (p = 0.010), and persistent fullness after eating
(p=0.003). There was a statistically significant difference between the nasal 10 mg and oral
10 mg groups for one symptom, feeling full after eating a small amount of food (p = 0.021).
All test p-values in Table 4 are presented without adjustment for multiplicity.
Adjusted Mean Change From Baseline To The End of Study
For Individual Symptom Score (ITT)
PROTOCOL: Emitasol Nasal Spray
Table 4
Adjusted Mean Change from Baseline to the End of Study for Individual Symptom Score
(Intent-to-Treat)
Difference
Mean From Oral Change* 10 mg
Baseline From Mean (95%
Symptom Treatment N Mean Baseline CI.) P-value Nausea Oral 10 mg 18 3.9 -2.5 Nasal 10 mg 34 3.7 -2.7 -0.2 (-1.0, 0.5) 0.564 Nasal 20 mg 35 2.9 -2.8 -0.3 (-1.1, 0.5) 0.423
Vomiting Oral lO mg 18 1.6 -0.9 Nasal 10 mg 34 1.1 -0.8 0.1 (-0.4, 0.5) 0.757 Nasal 20 mg 35 0.8 -1.1 -0.2 (-0.6, 0.3) 0.435 Loss of Oral 10 mg 18 3.8 -2.3 Appetite Nasal 10 mg 34 3.9 -2.8 -0.5 (-1.2, 0.2) 0.174 Nasal 20 mg 35 3.2 -3.1 -0.9 (-1.6, -0.1) 0.109
Feeling Oral 10 mg 18 4.8 -3.1 Bloated Nasal 10 mg 34 4.9 -3.3 -0.2 (-1.2, 0.8) 0.707 Nasal 20 mg 35 4.7 -3.4 -0.3 (-1.3, 0.7) 0.549 Feeling Oral 10 mg 18 4.3 -2.5 Full After Nasal 10 mg 34 5.0 -3.5 -1.0 (-1.8, -0.1) 0.021 Eating Nasal 20 mg 35 4.8 -3.6 -1.1 (-1.9, -0.3) 0.010
Persistent Oral lO mg 18 4.5 -2.9 Fullness Nasal 10 mg 34 4.8 -3.6 -0.7 (-1.4, 0.0) 0.061 Nasal 20 mg 35 4.9 -4.1 -1.1 (-1.8, -0.4) 0.003
* Baseline total symptom score and study center adjusted mean change
At the primary time point of week 6, metoclopramide nasal spray 20 mg was statistically significantly superior to metoclopramide oral 10 mg tablets with respect to mean change from baseline in total symptom scores. The results were consistent from analyses based on both intent-to-treat approach and per protocol approach.
Numerically, both metoclopramide nasal spray 10 mg and 20 mg showed better response over metoclopramide oral 10 mg in total symptom scores after 6 weeks of treatment. Compared to the oral 10 mg treatment in terms of change from baseline scores, a statistically significant difference was observed for nasal 20 mg on 3 items: loss of appetite, feeling full after eating a small amount of food, and persistent fullness after eating. A statistically significant difference was observed for nasal 10 mg on feeling full after eating a small amount of food.
8. Safety and Pharmacokinetic Evaluation
8.1 Extent of Exposure
The analysis of safety includes all patients who were randomized and received at least one dose of study drug. There were 89 patients enrolled into the clinical study. Eight- two (82) patients completed the study. Seven patients failed to complete the study.
Of the 82 patients who completed the clinical study, 79 (96.3%) received all doses of metoclopramide. Table 5 shows the extent of drug exposure on a biweekly basis for the
10 three treatments.
Overall, approximately 63% (56/89) patients reported at least one adverse event. Other than nasal irritation and soreness, adverse events included the following: asthenia, flu syndrome, headache, infection, pain, bloating, constipation, diarrhea, nausea, vomiting, leukopenia, hypoglycemia, dizziness, somnolence, bronchitis, epistaxis, rhinorrhea, sinus , pain and taste perversion. There was no statistically significant difference among treatment groups in terms of overall adverse events, although nasal irritation (generally mild) was reported by a significantly higher proportion of patients in the nasal groups (both 10 mg and 20 mg nasal groups).
20 Table 5 Number Of Patients Who Received Study Through Different Timepoints
5
Figure imgf000021_0001
8.2 Plasma Pharmacokinetic Analysis of Metoclopramide on Study Day 1 Mean (linear) plots plasma concentration-time profiles of metoclopramide following a single oral 10 mg dose, a single nasal dose of 10 mg and a single nasal dose of 20 mg are
30 presented in Figure 3 (A, B, and C), respectively. Mean and median plots (data for median plots not shown) indicated that the plasma concentrations after a 10 mg nasal spray dose were lower compared with the 10 mg oral dose. The mean plot indicated that the concentrations were higher following a 20 mg nasal spray in comparison the 10 mg oral dose. The median plot showed more comparable concentration-time profiles for the 10 mg
35 oral dose and 20 mg nasal spray treatment groups. The absorption of metoclopramide appeared to be rapid, with comparable rates of absorption for all three treatment groups, but with a small lag-time of approximately 20 minutes for the tablet in comparison to both the 10 and 20 mg nasal sprays. This absorption lag can be seen in the mean (linear) 0-4 h plasma concentration-time profiles presented in Figure 2 (A, B, and C). The lag-time difference between the oral and the nasal 5 formulations following a single dose may be due to the dissolution time of the tablet, or a combined effect of dissolution of the tablet and a rapid initial absorption of the nasal spray from the nasal ucosa. The elimination of the drug appeared to be monophasic in all three treatment groups.
The mean maximum concentration Cmax was higher following administration of the 10 20 mg nasal spray in comparison to the 10 mg tablet formulation with mean values of 48.68 (range: 12.10- 107.00) and 36.41 (range: 12.5- 61.10) ng/mL, respectively. The mean maximum concentration of the 10 mg nasal spray was lower and more variable with a mean maximum concentration of 29.13 (range: 2.21 - 103.00) ng/mL.
The area under the plasma concentration-time curve up to the last quantifiable , 5 concentration, AUC0.„ was greatest following administration of the 20 mg nasal spray in comparison to the 10 mg tablet formulation, with mean values of 359.10 (range: 83.30- 883.97) and 265.52 (range: 92.32 - 633.94). The mean AUC0.t for the 10 mg nasal spray was lower than the 10 mg tablet formulation with a mean exposure of 221.44 (range: 31.13 - 800.97) ng.h/mL. 2 In terms of total exposure, AUC0.inf, was greatest following administration of the 20 mg nasal spray in comparison to the 10 mg tablet formulation, with mean values of 412.12 (range: 105.57 - 1282.91) and 304.09 (range: 104.54-783.61) ng.h mL. The mean AUC0.inf for the 10 mg nasal spray was the lowest, with a value of 268.97 (range: 43.09 - 1056.29) ng.h/mL. For the majority of patients, the mean percentage of AUC0.iπf ex was less than 25 20%, but was larger for some patients in the nasal spray groups with a percentage extrapolated of up to 40.15%.
The mean terminal half-lives were 6.89h, 6.90h and 7.63h for the 10 mg oral, 10 mg nasal and 20 mg nasal spray treatment groups, respectively. The median time to reach Cmax, Tmax (time at which the maximum concentration was observed), was 1.5 h for all three 2 treatment groups.
8.3 Plasma Pharmacokinetic Analysis of Metoclopramide on Study Day 42 The mean (linear) plots plasma concentration-time profiles of metoclopramide following repeated QID dosing on Days 2 through 42 and a single dose on Day 42 for the 10 25 mg oral, 10 mg nasal and 20 mg nasal treatments are presented in Figure 4 (A, B, and C), respectively. Mean and median plots (data not shown) indicate that the plasma concentrations following a 10 mg nasal spray dose on Day 42 are lower when compared with those following the 10 mg oral dose. The mean and median plots showed similar concentrations after a 10 mg oral dose and 20 mg nasal spray dose.
Following multiple dosing there are minimal differences in systemic concentrations due to differences in dissolution and/or absorption routes. The elimination of the drug 5 appeared to be monophasic in the three treatment groups.
The mean maximum concentrations on Day 42 were comparable between the 20 mg nasal and 10 mg oral treatment groups, with mean values of 67.23 (range: 2.96 - 152.00) and 61.21 (range: 22.60 - 106.00) ng/mL, respectively. The mean Cmax value for the 10 mg nasal treatment group was 41.11 (range: 11.10- 146.00) ng/mL, approximately 67% of the mean , o value observed for the 10 mg oral treatment group, but with much higher variability.
In terms of exposure, the mean AUC0.t for the 20 mg nasal and the 10 mg oral treatment groups were comparable with mean values of 483.44 (range: 21.22 - 1094.63) and 481.11 (range: 119.46- 988.34) ng.h/mL. The mean AUC0_t for the 10 mg nasal treatment group was 411.05 (range: 75.76-2198.68) ng.h/mL, approximately 85% of the mean 5 exposure measured in the 10 mg tablet treatment group. This variability between patients was observed in all three treatment groups.
For the majority of patients, the mean percentage of AUC0.inf ex was less than 20%, but in some patients the percentage extrapolated was up to 37%.
The mean terminal half-livers were 8.44 h, 8.86 h and 8.03 h for the 10 mg oral, 10 2 mg nasal and 20 mg nasal treatment groups, respectively.
The median time to reach the maximum concentration Cmax, Tmax, was 1.00 h for the 10 mg oral and 20 mg nasal, and 1.50 h for the 10 mg nasal treatment group.
8.4 Accumulation 2 The area under the plasma concentration-time curve over the theoretical average dosing interval (tau), AUCtau (area under the plasma concentration-time curve over the theoretical average dosing interval tau) (AUC0.6). where tau = 6 h are as follows:
On Day 1, the mean AUCtau values were greatest following the 20 mg nasal spray treatment in comparison with the 10 mg nasal spray treatment, with mean values of 20 196.41 ng.h/mL and 138.37 ng.h/mL, respectively. In contrast, the NUCtau for the 10 mg nasal spray treatment was lower in comparison to the 10 mg oral treatment group, with a mean value of 113.39 ng.h mL.
On Day 42, the mean values of AUC(au in patients administered multiple dosing of the 20 mg nasal spray treatment were approximately 10% higher than the AUCtau values in 2 patients following multiple dosing with the 10 mg oral treatment. In contrast, the AUCtau in patients administered multiple dosing with the 10 mg nasal spray treatment were approximately 25% lower than the AUCtau inpatients in the 10 mg oral treatment groups.
The mean observed accumulation, determined as the ratio of the AUC0_τ on day 42 to the AUC0.τ on day 1, for a given treatment group were 1.95 (range: 0.96 - 4.47), 2.55 (range: 0.29 - 19.04) and 1.89 (range: 0.07 -6.35), for the 10 mg oral, 10 mg nasal spray and the 20 mg nasal spray, respectively. These ratio's indicate that at steady-state, the average plasma concentration of metoclopramide is approximately twice that following a single dose administration.

Claims

CLAIMS What is claimed is:
1. A method for treating or reducing the symptoms of gastroparesis in a patient comprising the step of: administering metoclopramide or a pharmaceutically acceptable salt thereof to a patient in need of gastroparesis treatment, wherein said metoclopramide is in a pharmaceutically acceptable nasal formulation and administered intranasally in a daily dosage between about 40 mg/day to about 160 mg/day for a duration of about 1 week to about 8 weeks so that one or more symptom of gastroparesis is reduced.
2. The method of claim 1 wherein said daily dosage is between 40 mg/day to 80 mg/day.
3. The method of claim 1 wherein said daily dosage is about 40 mg/day.
4. The method of claim 1 wherein said daily dosage is about 80 mg/day.
5. The method of claim 1 wherein said daily dosage is divided into 3 or 4 equal smaller doses and administered at equally spaced intervals within 24 hours.
6. The method of claim 1 wherein said daily dosage is divided into 3 or 4 equal smaller doses and administered before meals and before bedtime.
7. The method of claims 5, 6 or 7 wherein the smaller doses are about 10 mg each.
8. The method of claim 5, 6 or 7 wherein the smaller doses are about 20 mg each.
9. A method for treating or reducing the symptoms of gastroparesis in a patient comprising the step of: administering metoclopramide or a pharmaceutically acceptable salt thereof to a patient in need of gastroparesis treatment, wherein said metoclopramide is in a pharmaceutically acceptable nasal formulation and administered 5 intranasally in a daily dosage between about 0.1 mg/kg to about 2.5 mg/kg for a duration of about 1 week to about 8 weeks so that one or more symptom of gastroparesis is reduced.
10. The method of claim 9, wherein said daily dosage is between 0.6 mg/kg to 1 0 about 1.2 mg/kg.
11. The method of claim 1 or 9 wherein the metoclopramide or pharmaceutically acceptable salt thereof is in an aqueous-based carrier.
, 5 12. The method of claim 1 or 9 wherein the metoclopramide or pharmaceutically acceptable salt thereof is in a sustained release formulation.
13. The method of claim 1 or 9 wherein the metoclopramide or pharmaceutically acceptable salt thereof is co-administered with one or more additional drugs. 0
14. The method of claim 1 or 9 wherein said dosage is administered for treating gastroparesis caused by diabetes.
15. The method of claim 14 wherein said diabetes is selected from the group consisting of type 1 diabetes and type 2 diabetes.
16. The method of claim 1 or 9 wherein said dosage is administered for treating gastroparesis caused by diabetes (including type 1 and type 2 diabetes), postviral syndromes, anorexia nervosa, surgery on the on the stomach or vagus nerve, medications, particularly anticholinergics and narcotics which slow contractions in the intestine, gastroesophageal reflux disease, smooth muscle disorders such as amyloidosis and scleroderma, nervous system diseases (including abdominal migraine and Parkinson's disease), or metabolic disorders (including hypothyroidism).
17. The method of claim 1 or 9 wherein said daily dosage is administered for about 5 weeks to about 8 weeks.
18. The method of claim 1 or 9 wherein said daily dosage is administered for about 6 weeks.
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US11020361B2 (en) 2008-12-22 2021-06-01 Evoke Pharma, Inc. Nasal formulations of metoclopramide
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US20020065321A1 (en) 2002-05-30
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CA2403994C (en) 2011-08-23
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AU2001249684A1 (en) 2001-10-15
CA2403994A1 (en) 2001-10-11
US20030059374A1 (en) 2003-03-27
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