WO2005020903A2 - Methods of improving the safety of zonisamide therapy - Google Patents

Abstract

Methods to increase the safety of patients taking pharmaceutical formulations of zonisamide by providing information that increases the awareness of pancreatitis; as a possible side effect wherein both the patient and treating physicians and other medical care providers may monitor effectively for pancreatitis and methods for increasing the probability of a positive outcome in the few patients who experience pancreatitis associated with zonisamide therapy.

Description

METHODS OF IMPROVING THE SAFETY OF ZONISAMIDE THERAPY

BY IVAN LIEBERBURG

DESCRIPTION OF THE INVENTION

Field of the Invention

[001] The present invention relates to methods of improving the safety of administration of zonisamide (3-benzisoxazole methylene sulfonamide) to humans who are in need of zonisamide therapy.

Background of the Invention

[002] In the United States, over 2 million serious adverse drug reactions (ADRs) occur ever year, with 100,000 associated deaths. This places ADRs as the fourth leading cause of death, ranking ahead of pulmonary disease, diabetes, AIDS, pneumonia, accidents, and automobile deaths. Compounding this problem is the fact that ADRs increase exponentially in patients who take four or more medications concurrently. (See http://www.fda.gov/cder/drug/drugReactions/default.htm, last checked 8/20/03.)

[003] Most drugs are approved by a Food and Drug Administration review process after an average of 1 ,500 patient exposures. Clinical trials involving this number of subjects (both healthy volunteers and patients in need of the therapeutic effect of the drug under review) provide a statistically relevant sample of the population τrom which ah assessment of safety and efficacy can be; evaluated. However, some drugs have very rare tpxicity profiles. Bromfenac, for example, causes hepatotoxicity in 1 out of 20,000 patients. For drugs with rare toxicity, more than 100,000 patients must be exposed to generate a signal. In these rare adverse events associated with human therapeutics, there must be post-approval follow-up that occurs after a drug is taken to market.

[004] Examples of very serious post-marketing events that have been identified in the recent past include Fen-Phen (fenfluramine - phentermine combination therapy) for weight loss and Rezulin (troglitazone) for diabetes, both of which were later removed from the market because the ADR risks outweighed the therapeutic benefits. Statistical and clinical analysis of large adverse event databases collected by post-marketing surveillance is one method by which identification of the rarer ADRs can be made. For more background on the occurrence and identification of ADRs see, for example, Lazarou, J. et al. JAMA 279(15):1200-1205 (1998), and Gurwitz, J.H. et al. Am J. Med. 109(2):87-94 (2000). For a discussion of techniques and difficulties inherent in identifying ADRs in adjunctive therapies of epileptic seizures, see French, J. Epilepsia 43(9): 951-955 (2002), which is hereby incorporated by reference in its entirety, while no admission is made or implied that this reference constitutes prior art.

[005] While Rezulin and Fen-Phen are notable for their extreme and potentially irreversible nature, other adverse drug reactions can be minimized or more easily reversed if they are recognized early, and appropriate and timely medϊcal interyention is made. A few examples of frequently reversible adverse events are cardiac arrhythmias, liver fundtion, abnormalities, and irregularities in hernatopoiesis. Thus, there remains a need for identification of, methods for detecting and for treating adverse events associated with drug therapy, in. a timely and informed manner. SUMMARY OF THE INVENTION

[006] Unexpectedly, it has been found that zonisamide therapy in a very small percentage of patients (available estimates in the United States are about one in seven thousand four hundred fifty-five (1 :7,455)) can precipitate acute pancreatitis (about one in six thousand two hundred thirteen (1 :6,213) when elevated amylase/lipase lab results are the predominant finding without an absolute diagnosis of pancreatitis being made). It has also been found that by curtailing (either by removal or tapering off) the administration of zonisamide dosing, alone or in conjunction with other concomitant medications, alleviation and minimization of this severe adverse event is possible. This is particularly the case when medical intervention to manage the disease and/or removal or tapering off of zonisamide is instituted rapidly.

[007] The present invention provides methods of improving the safety profile for zonisamide therapy, particularly to a patient prescribed zonisamide for a pharmaceutical regulatory agency-approved use.

[008] The invention also provides methods to increase the safety of patients taking pharmaceutical formulations of zonisamide by increasing their awareηess of pancreatitis as a possible side effect. The invention also includes methods of increasing the probability of a positive outcome in the few patients who experience pancreatitis associated with zonisamide therapy.

. [009] Other methods of the invention provide patients receiving zonisamide therapy methods of self-monitoring for signs and symptoms of pancreatitis, such as abdominal pain, nausea, shock (also referred to as hypovolemia), vomiting, and/or anorexia, that signals a patient to present to physicians for appropriate tests, diagnosis, and treatment.

[010] Other methods of the invention involve providing methods to prescribing physicians and other health care professionals for recognizing and minimizing the risk associated with an adverse event, namely pancreatitis, which rarely occurs in some patients who receive zonisamide therapy.

[011] Other advantages and uses of the present invention will become apparent to those skilled in the art in studying this disclosure; therefore this recitation is not intended to limit the scope of the claims attached hereto.

DESCRIPTION OF THE EMBODIMENTS

[012] Zonisamide is an antiseizure drug, chemically classified as a sulfonamide and unrelated to other antiseizure agents. Antiepileptic drugs are commonly abbreviated as "AEDs." The active ingredient is zonisamide, 1 ,2- benzisoxazole-3-methanesulfonamide. Zonisamide was approved in 2000 for adjunctive i.e., taken in conjunction with one or more other AED, treatment of epilepsy in the United States. It was first introduced in Japan approximately 12 years ago, where it has also been used as monotherapy, i.e., without other AEDs as concomitant therapeutics. Zonisamide is not known to be a hepatic enzyme inducer and has been administered adjunctively, with almost all of the other regulatory-r approved AEDs either in the United States or abroad.

[013] The. precise mechanism(s) by which zonisamide exerts its anti- seizure effect is unknown. Zonisamide may produce antiseizure effects through action at sodium and calcium channels. In vitro pharmacological studies suggest that zonisamide blocks sodium channels and reduces voltage-dependent, transient inward currents (T-type Ca²⁺ currents), consequently stabilizing neuronal membranes and suppressing neuronal hypersynchronization, thus suppressing hyperexcitablity in epileptic foci. In vitro binding studies have demonstrated that zonisamide binds to the GABA/benzodiazepine receptor ionophore complex in an allosteric fashion, which does not produce changes in chloride flux. Other in vitro studies have demonstrated that zonisamide (10-30 μg/mL) suppresses synaptically- driven electrical activity without affecting postsynaptic GABA or glutamate responses (cultured mouse spinal cord neurons) or neuronal or glial uptake of [ ³H]-GABA (rat hippocampal slices). Thus, zonisamide does not appear to potentiate the synaptic activity of GABA. In vivo microdialysis studies demonstrated that zonisamide facilitates both dopaminergic and serotonergic neurotransmission. Zonisamide also has weak carbonic anhydrase inhibiting activity (about 1/50^th the inhibition compared to acetazolamide), and this pharmacologic effect is not thought to be a major contributing factor in the anti-seizure activity of zonisamide.

[014] ZONEGRAN^® (the human therapeutic pharmaceutical formulation containing zonisamide) is indicated as adjunctive therapy for the treatment of partial seizures in adults and is supplied by prescription in the form of 25, 50, and 100 mg capsules. The capsule may be divided, so as to offer smaller increments in dosage. Recommended dosing is once or twice daily, the recommended daily dosα of 100 mg at the initiation of therapy should not be divided. ZONEGRAN^® is given orally and can be taken with or without food. While other therapeutic uses of zonisamide such as treatment of obesity and eating disorders have been reported, treatment of neuropathic pain, prophylaxis of migraine attacks, and treatment of mania, these are not indications approved by the Food and Drug Administration (FDA) in the United States, and so are called "off-label" uses. Off-label uses, which are within the discretion of the prescribing physician to write, are also encompassed in the methods presented herein.

[015] Prescribing physicians are informed in the product insert (which contains prescribing information approved by the FDA) that because of the long half- life of zonisamide, up to two weeks may be required to achieve steady-state levels upon reaching a stable dose or following dosage adjustment. Although the regimen described below has been shown to be tolerated, the prescriber may wish to prolong the duration of treatment at the lower doses in order to fully assess the effects of zonisamide at steady state, noting that many of the side effects of zonisamide are more frequent at doses of 300 mg per day and above. Although there is some evidence of greater response at doses above 100-200 mg/day, the increase appears small and formal dose-response studies have not been conducted.

[016] The initial dose should be 100 mg daily. After two weeks, the dose may be increased to 200 mg/day for at least two weeks. It can be increased to 300 mg/day and 400 mg/day, with the dose stable for at least two weeks to achieve steady state at each level. Evidence from controlled trials suggests that ZONEGRAN^® doses of 100-600 nig/day are effective, but there is no suggestion of increasing response above 400 mg/day.

[017] Adjunctive therapy for partial seizures in adults denotes that these patients are already on other anti-epileptic medications, but that they are continuing to seize at a rate that has been deemed by their treating physician to require additional (add-on) therapy. The use of multiple anti-epileptic medications in the adjunctive setting increases the likelihood of confluent or interactive ADRs, but also may confuse the treating physician as to the causal agent. Thus, the confounding effects of other anti-epileptic medications could further delay a diagnosis of pancreatitis owing to zonisamide therapy. For a recent review of AEDs currently available to American physicians, their efficacies for particular types of epileptic seizures and associated ADRs, see: llo eppik, Epilepsia 42(Suppl.4): 1-6 (2001).

[018] While valproate (DEPAKOTE®, valproate (sodium salt): valproic acid 1 :1 ) has been associated with numerous incidents of pancreatitis, including resultant fatalities, zonisamide has not been known to cause pancreatitis in patients receiving

ZONEGRAN® therapy. However, a careful review of the data generated in

American clinical trials, as well as in ADR reports gathered once commercial marketing began, yielded the discovery that zonisamide may independently induce AP in a small number of patients, and has been implicated in AP in patients receiving adjunctive therapy.

[019] Acute pancreatitis (AP) is defined as an acute inflammatory process of the pancreas with variable involvement of peripancreatic tissues or remote organ systems. A review article, containing the current classification, definition and terminology, epidemiology and etiology, pathogenesis and pathological findings, clinical and laboratory findings, and as well as more modem techniques of pancreatic imaging and the associated findings, with emphasis on cross-sectional imaging modalities such as ultrasound, computed tomography, and magnetic resonance imaging can be found in Merkle, Elmar M. et al., European Radiology (Germany) 12(8) p. 1979-92 (August 2002), which is hereby incorporated by reference in its entirety, while no admission is made or implied that this reference constitutes prior art.

[020] Acute pancreatitis causes pathologic changes in the pancreas ranging from a mild edematous process to an overwhelming necrotizing lesion, which may be fatal. While its symptoms are variable, it is principally characterized by epigastric pain radiating to either the upper quadrant or directly through to the back, and frequently shock develops due to circulating vasoactive substances or retroperitoneal hemorrhage. The typical pain is gnawing, of sudden onset, of exceeding severity, unremitting, and sometimes colicky in character. It is not relieved by vomiting, which is another symptom of pancreatitis, and is little affected by morphine, for example. Other symptoms common in pancreatitis are nausea, anorexia and shock (also referred to as hypovolemia).

[021] Laboratory tests from fluids (serum, urine, ascites) sampled from a patient can be used as diagnostics for AP. Patients with this condition are also usually found to have persistent, high amylase levels in the blood and urine, as well as high lipase levels in the blood. Elevated levels of serum amylase of more than three times the upper limit of normal, . ahd/όr a urinary amylase concentration over twice the upper limit of normal, is taken as a. decisive indicator of AP (absent overt salivary gland disease and gut perforation or infarction). Serum amylase activity of more than three times the upper limit of normal, and/or a urinary amylase concentration over twice the upper limit of normal, are taken as indicative. After 48 to 72 hours, even with continuing evidence of pancreatitis, total serum amylase levels tend to return to normal; therefore, serum lipase levels are measured for elevated levels concomitantly in making a diagnosis. Serum lipase activity increases in parallel with amylase activity, and measurement of both increases the diagnostic yield.

[022] Other means of diagnosing pancreatitis are available and known to those of skill in the art. These other means and methods include, but are not limited to, imaging techniques, such as computerized tomography (CT scans) with or without contrast enhancing agents, ultrasound and nuclear magnetic resonance, and other lab tests, such as measurement of elevated serum trypsin, or urine amylase reatine clearance ratio (C_am/C_Cr), evidence of leukcoytosis, and a hematocrit of over 50% owing to loss of plasma into the peritoneum.

[023] A CT scan, especially a contrast-enhanced dynamic CT scan (CECT), provides valuable information to the treating physician on the severity and prognosis of AP. In particular, CECT allows estimation of the presence and extent of pancreatic necrosis. Studies suggest that the likelihood of prolonged pancreatitis or serious complication is negligible when the CT reveals an image that scores in the severity ranking index of 1 to 2 and is low with scores of 3 to 6. However, patients with scores of 7 to 10 had 92 percent morbidity and 17 percent mortality.

[024] It was noted as early as 966 that dogs suffering from an. . experimental model of severe pancreatitis diα not αie as frequently if their abdomen was washed with Ringer's lactate to remove the pancreatic-associated ascitic fluid (PAAF). (See Rogers, R.E., et al., Am. J. Surgery 111(6):792-4 (1966).) Ascitic fluid is a serous effusate that accumulates in the abdominal cavity, in the present application, as a result of AP. It was suggested that peritoneal lavage removed some toxic substance(s) within the PAAF. During the 1970s and early 1980s, researchers conducted experiments to attempt to determine the factor or factors present in the pancreatic ascites, which was responsible for the systemic effects seen during acute pancreatitis. Their studies showed that a substance present in PAAF was responsible for the hemoconcentrating effect, as well as hypotension seen during severe AP attacks (Ellison et al., J. Surg. Res. 30(3):241-8 (Mar. 1981)). They subsequently demonstrated that adult respiratory distress syndrome (ARDS) could be induced when the lungs of healthy animals were lavaged with small amounts of PAAF. Hepatic mitochondrial respiration and oxygen consumption was diminished in vitro when hepatic cells were exposed to PAAF. This toxin, therefore, was not specific for one cell or tissue type; in fact, it had profound effects on all organ systems examined. These findings demonstrate the potentially life- threatening sequelae of acute pancreatitis that is allowed to progress. Thus, it is of great importance to begin supportive treatment of patients exhibiting signs and symptoms of AP as quickly as possible.

[025] A standard traditional rationale in treating AP is to "set the gland to rest." This method of treatment is implemented by restricting the intake of food, administering fluids, and maintaining electrolyte balance in afflicted patients. When diagnosed, the severity of the disease is usually rated as mild (abdominal pain and tension), moderate (tension with guarding and paralytic ileus), or severe (paralytic ileus with diffused peritonitis and/or shock). The level of severity determines the type of medical treatment necessary to support the patient. The more severe the disease the closer the monitoring and medical intervention is required.

[026] In most patients (approximately 85 to 90 percent) with acute pancreatitis, the disease is self-limited and subsides spontaneously, usually within three to seven days after treatment is instituted. If a patient develops AP while on zonisamide therapy, the treating physician should search for other causes of AP. Should no other obvious causes be identified, zonisamide should ordinarily be removed, or alternatively tapered down, and alternative treatment for the underlying medical condition be initiated as clinically indicated. If another cause for the attack is identified, e.g., ethanol, pancreatic duct obstruction, etc., then it would be possible to carefully rechallenge with zonisamide once the acute attack of AP has subsided. If the patient again appears to be developing AP or is diagnosed with AP, then switching to another AED is warranted.

[027] Conventional support measures for AP of mild severity include (1 ) analgesia for pain; (2) intravenous fluids and colloids to maintain normal intravascular volume; (3) no oral intake of foods; and (4) optional nasogastric suction to decrease gastrin release from the stomach and prevent gastric contents from entering the duodenum may also be implemented. For moderate to severe AP, the same treatments apply but are increased. Augmenting this supportive treatment in moderate to severe AP is: obligatory use of nasogastric suction in severe cases; and treatment with antibiotics if infection is apparent or if there is extensive pancreatic necrosis. [028] Other complications must be treated as they arise, and a skilled physician of emergency or internal medicine knows such treatments. For example, abruptly removing anti-epileptic drug therapy from an epileptic patient may result in more severe or more frequent seizures or status epilepticus. Therefore, removal of zonisamide therapy carries the risk of more severe seizures. However, a hospital physician or emergency medical personnel will have access to other pharmacological interventions for short-term control of generalized seizure activity such as either intravenous lorazepam, at a dose of 0.1 mg/kg, or diazepam at 0.2 mg/kg. If sedatives prove insufficient, then a patient may also, be administered fosphenytoin, or in status epilepticus, phenobarbital, with careful monitoring for respiratory depression. Intravenous administration is preferred since this route will provide the most rapid attainment of therapeutic serum levels. Additionally, at the treating physician's discretion, an alternate AED may be substituted for zonisamide.

[029] Prevalence In Zonisamide Treated Patients:

[030] The pharmacovigilance data that were collected, reviewed, and analyzed provided the following information in respect of the incidence of AP in the zonisamide-treated patient population. A total of 11 cases fulfilled the criteria of potential pancreatitis cases. These cases were reviewed in detail for evaluation of possible safety signals.

[U31J All 11 cases fulfilled serious criteria. Of these 11 cases, ten (10) cases were reported as pancreatitis and one (1 ) case was reported as amylase and lipase increase. [032] For adverse events reported as pancreatitis:

[033] All of the ten (10) pancreatitis cases originated in the United States. Of the ten (10) cases, three (3) were pediatric cases, six (6) were adult cases, and one (1 ) was of unknown age. Of the ten (10) cases, four (4) recovered, two (2) were recovering at time of report, three (3) had not recovered, and one (1) had an unknown outcome. None of these events were fatal. The development of pancreatitis occurred between three (3) days and three (3) to four (4) months of the initiation of zonisamide treatment.

[034] Of the ten (10) pancreatitis cases, five (5) cases had strong confounding factors, and seemed to be unrelated to zonisamide, but the possibility of zonisamide involvement could not be completely excluded. Four (4) cases had weak confounding factors, and zonisamide involvement may be possible. One (1 ) case did not seem to have relevant confounding factors, and zonisamide involvement seems possible.

[035] Based on these data, five (5) cases of pancreatitis occurred during zonisamide treatment with no_. or only weak confounding factors present. This amounts to an estimated incidence of 1:7,455 based upon estimated United States exposure.

[036] For adverse events reported as amylase and lipase increase;

[037] The one (1 ) case of amylase and lipase increase originated from the United States and involved an adult patient. The outcome of this case is unknown. The development of amylase and lipase increase occurred about 4-5 days after the increase of zonisamide dose from 200 mg to 300 mg daily. The patient had initiated zonisamide treatment about 9 to 10 months before the event onset. This case contains weak confounding factors, and zonisamide involvement may be possible.

[038] Based on this data, this case of amylase and lipase increase occurred during zonisamide treatment with only weak confounding factors present. This amounts to an estimated incidence of 1 :37,276, based upon estimated United States exposure. Combining these cases of pancreatitis and amylase/lipase increase, the estimated incidence of these events in the United States exposed population is 1 :6,213.

[039] The following examples are provided to support the practice of the present invention and are not meant and should not be construed to limit the scope of the claims appended hereto.

[040] Example 1 A 40-year old patient experienced acute pancreatitis and an elevated DILANTIN^® (phenytoin) plasma level during the use of ZONEGRAN^®. The patient had been administered ZONEGRAN^® 400mg daily and DILANTIN^® 600mg daily for the past 3 to 4 months. The patient was hospitalized with symptoms of DILANTIN® toxicity (plasma level of 24 to 25 mcg/ml), amylase and lipase levels in the 2000's U/L, abdominal discomfort, and nausea. The patient was diagnosed with acute pancreatitis (AP); however, a gastroenterology wόrk-up could not identify a cause for the AP. The DILANTIN® dose was reduced and the patient was tapered off ZONEGRAN^®. Subsequently, the patient's amylase and lipase levels decreased. The fact that the patient's AP subsided while still on phenytoin (at reduced doses) but only after zonisamide was tapered off, would indicate that zonisamide was the offending agent in this instance. ' [041] Example 2 An 83-year-old female patient receiving zonisamide for treatment of neuropathic pain developed difficulty breathing, fever, disorientation/ confusion, kidneys "not working well," irregular heart rate, elevated heart rate, elevated glucose level, and pancreatitis during the use of ZONEGRAN® for neuropathy of her feet.

[042] The patient was hospitalized for the treatment of pneumonia. While hospitalized, she complained of neuropathy described as a burning sensation in her feet, and soon after, ZONEGRAN® at 100 mg daily was initiated. The following day the patient experienced a fever and was disorientated and confused. After several days she was having difficulty breathing, her kidneys were "not working well," developed an irregular heart rate (the patient reported a heart rate in the 150's), and increased glucose levels. ZONEGRAN® was discontinued on that same day and the patient was placed on oxygen and transferred to the intensive care unit (ICU). She underwent dialysis and later was diagnosed with pancreatitis. Since the concomitant medicines she received (NEURONTIN®, clonidine and ELAVIL®) are not associated with pancreatitis the likely cause of the attack was the initiation of zonisamide therapy.

[043] While this invention has been described with respect to various specific examples and embodiments, it is to be understood that the invention is not limited thereby and should only be construed by interpretation of the scope of the appended claims.

Claims

WHAT IS CLAIMED IS: We claim:

1. A method of improving the safety of patients receiving zonisamide treatment for epileptic seizures comprising: providing a patient with a therapeutically effective amount of zonisamide, and informing the patient that during the course of zonisamide therapy, if (s)he experiences one or more symptoms chosen from the group of abdominal pain, hypOvolemia, shock, nausea, anorexia, vomiting, and abdominal distention, to seek immediate medical attention.

2. The method of claim 1 , wherein the therapeutically effective amount of zonisamide is from 25 mg to 600 mg.

3. The method of claim 2, wherein the therapeutically effective amount of zonisamide is provided in unit dose form.

4. The method of claim 1 , wherein the therapeutically effective amount of zonisamide is provided in a unit dose form and in multiple doses to provide for a . course of therapy.

5. The method of claim 4, wherein the unit dose is from 25 mg to 200 mg.

6. A method of managing the health of patients receiving zonisamide treatment for epileptic seizures comprising: providing a patient with a therapeutically effective amount of zonisamide, and informing the patient that during the course of zonisamide therapy, if (s)he experiences one or more symptoms chosen from the group of abdominal pain, hypovolemia, shock, nausea, anorexia, vomiting, and abdominal distention, to seek immediate medical attention.

7. The method of claim 6, wherein the therapeutically effective amount of zonisamide is from 25 mg to 600 mg.

8. The method of claim 7, wherein the therapeutically effective amount of zonisamide is provided in unit dose form.

9. The method of claim 6, wherein the therapeutically effective amount of zonisamide is provided in a unit dose form and in multiple doses to provide for a course of therapy.

10. The method of claim 9, wherein the unit dose is from 25 mg to 200 mg.

11. A method of ameliorating a serious adverse event in a patient receiving zonisamide treatment for epileptic seizures comprising: providing the patient ^vith a therapeutically effective amount of zonisamide, and informing the patient that during the course of zonisamide therapy, if (s)he experiences one or more symptoms chosen from the group of abdominal pain, hypovolemia, shock, nausea, anorexia, vomiting, and abdominal distention, to seek immediate medical attention.

12. The method of claim 11 , wherein the therapeuticalJy effective amount of zonisamide is from 25 mg to 600 mg.

13. The method of claim 12, wherein the therapeutically effective amount of zonisamide is provided in unit dose form.

14. The method of claim 11 , wherein the therapeutically effective amount of zonisamide is provided in a unit dose form and in multiple doses to provide for a. course of therapy.

15. The method of claim 14, wherein the unit dose is from 25 mg to 200 mg.

16. A method of enhancing the safety profile of zonisamide to a prescribing physician comprising: informing the physician that rarely pancreatitis may result from zonisamide therapy and to monitor a patient who is prescribed zonisamide for one or more symptoms chosen from the group Of abdominal pain, hypovolemia, shock, nausea; anorexia, vomiting, and abdominal distention; recommending an appropriate diagnostic to determine that pancreatitis is present and that the physician remove or taper off zonisamide dosing in the patient and initiate appropriate supportive therapy.

17. The method of claim 16, wherein the diagnostic comprises measurement of serum lipase and amylase levels.

18. The method of claim 16, wherein the diagnostic comprises a contrast- enhanced dynamic computerized tomography (GECT).

19. A method of improving patient outcome for an emergency medical worker comprising: informing the worker that a patient who is receiving zonisamide who has one or more symptoms chosen from the group of abdominal pain, hypovolemia, shock, nausea, anorexia, vomiting, and abdominal distention may be suffering from pancreatitis; and recommending performance of an appropriate diagnostic to determine that pancreatitis is present, and if confirmed that the worker initiate appropriate supportive therapy and discontinue zonisamide dosing in the patient.

20. The method of claim 19, wherein the diagnostic comprises measurement of serum lipase and amylase levels.

21. The method of claim 19, wherein the diagnostic comprises a contrast- enhanced dynamic computerized tomography (CECT).

22. An improved method for providing zonisamide to a patient comprising: packaging a pharmaceutical formulation of zonisamide along with information providing a warning that zonisamide may cause pancreatitis in some patients and that one or more symptoms chosen from the group of abdominal pain, hypovolemia, shock, nausea, anorexia, vomiting, and abdominal distention are potentially signs of pancreatitis and providing the packaging to a patient who has been prescribed zonisamide therapy.

23. An method of enhancing the safety of zonisamide therapy comprising: packaging a pharmaceutical formulation of zonisamide along with information providing a warning that zonisamide may cause pancreatitis. in some patients and that one or more symptoms chosen from the group of abdominal pain, hypovolemia, shock, nausea, anorexia, vomiting, and abdominal distention are potentially signs of pancreatitis and providing such packaging to a patient who has been prescribed zonisamide therapy.

24. A method of using zonisamide in the treatment of epileptic seizures comprising: administering a therapeutically effective amount of zonisamide to a subject in need of treatment; observing the subject for the appearance of at least one symptom of acute pancreatitis; and if at least one symptom of acute pancreatitis is observed, reducing the dosage of the zonisamide to a dosage that does not produce the at least one symptom of acute pancreatitis.

25. The method of claim 24, wherein if at least one symptom of acute pancreatitis is observed, administration of zonisamide is ceased.

26. The method of claim 24, further comprising testing the patient for acute pancreatitis after observing at least one symptom of acute pancreatitis.

27. The method of claim 26, wherein the testing comprises at least one of clinical blood tests, computerized tomography, ultrasound, and nuclear magnetic resonance imaging.

28. The method of claim 25, further comprising administering a therapeutically effective amount of zonisamide after at least one symptom of acute pancreatitis has subsided.

29. The method of claim 24, wherein the therapeutically effective amount of zonisamide is from 25 mg to 600 mg.

30. The method of claim 25, wherein the therapeutically effective amount of zonisamide is provided in unit dose form.

31. The method of claim 30, wherein the therapeutically effective amount of zonisamide is provided in a unit dose form and in multiple doses to provide for a course of therapy.