Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030305 (pancreatitis)
 16,014 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Children suffering from Acute Lymphoblastic Leukaemia (ALL) treated with asparaginase and corticosteroids are at risk of developing severe lipid abnormalities. The authors report the case of a 10-year-old male with extremely high plasma triglyceride concentrations (4,000 mg/dl) during the induction phase of ALL associated with mild pancreatitis. Hypertriglyceridemia was successfully managed with plasmapheresis with a decrease in triglyceride levels to 590 mg/dl. Apheresis appears to be safe and effective in reducing hypertriglyceridemia and preventing related complications.
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PMID:Severe acute hypertriglyceridemia during acute lymphoblastic leukemia induction successfully treated with plasmapheresis. 1688 90

In contrast to that in children, pharmacokinetic, pharmacodynamic, and safety information on pegaspargase in adults is very limited. We administered a single intravenous dose of pegaspargase (2000 IU/m2) as part of a standard frontline induction regimen to 25 adults with newly diagnosed acute lymphoblastic leukemia (ALL), and obtained serum samples on several time points. The population mean peak serum concentration of asparaginase enzymatic activity was 1 IU/mL, the elimination half-life was 7 days, and the volume of distribution was 2.43 L/m2. After the single dose, asparagine deamination was complete in all patients after 2 hours, and in 100%, 81%, and 44% on days 14, 21, and 28, respectively. A pharmocodynamic correlation model showed minimal enzymatic activity of 0.2 IU/mL for optimal asparagine depletion. The kinetic posthoc analyses demonstrated enzymatic activity for 3 weeks or more. One patient developed neutralizing antiasparaginase antibodies on day 22 after administration. Pegaspargase was well tolerated, with few grade 3/4 side effects. No allergic reactions or pancreatitis were observed. In adults aged 55 years or younger, pegaspargase produces a long duration of asparagine depletion and can be given intravenously, with a safety profile that is similar to equivalent multiple doses of intramuscular Escherichia coli asparaginase.
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PMID:Pharmacodynamics and safety of intravenous pegaspargase during remission induction in adults aged 55 years or younger with newly diagnosed acute lymphoblastic leukemia. 1713 21

Treatment of hematological malignancies with L-asparaginase has been associated with diabetes mellitus in about 1-2% of patients. The concomitant use of steroids has an additional deleterious effect. In this article, we report the occurrence of diabetes in a 13 year-old girl treated with L-asparaginase and dexamethasone for acute lymphoblastic leukemia. The diabetes developed 120 days after the drug was started, requiring insulin therapy for 12 months. Anti-islet autoantibody was negative, and there were no laboratory findings suggestive of pancreatitis. The DM related do L-asparaginase therapy is insulinopenic and transient, resolving with suspension of the drug. The diagnosis of this type of diabetes is based on its temporal relationship with the L-asparaginase and in the exclusion of other known causes. There is no laboratory test capable of elucidating the diagnosis. Therefore, investigation to rule out type 1A DM, type 1B DM, insulin-resistant DM induced by corticotherapy and DM secondary to toxic pancreatitis is of utmost importance. The insulin therapy must be followed closely, since this is a transient form of diabetes.
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PMID:[Transient diabetes mellitus related to L-asparaginase therapy]. 1768 27

On July 24, 2006, the U.S. Food and Drug Administration granted approval to pegaspargase (Oncaspar; Enzon Pharmaceuticals, Inc., Bridgewater, NJ; hereafter, O) for the first-line treatment of patients with acute lymphoblastic leukemia (ALL) as a component of a multiagent chemotherapy regimen. O was previously approved in February 1994 for the treatment of patients with ALL who were hypersensitive to native forms of L-asparaginase. The trial supporting this new indication was an open label, randomized, multicenter clinical trial that enrolled 118 children (age, 1-9 years) with previously untreated, standard risk ALL. Patients received either native Escherichia coli asparaginase (Elspar; Merck, Whitehouse Station, NJ; hereafter, E) or O along with multiagent chemotherapy during remission induction and delayed intensification (DI) phases of treatment. O, at a dose of 2,500 IU/m(2), was administered i.m. on day 3 of the 4-week induction phase and on day 3 of each of two 8-week DI phases. E, at a dose of 6,000 IU/m(2), was administered i.m. three times weekly for nine doses during induction and for six doses during each DI phase. This study allowed direct comparison of O and E for asparagine depletion, asparaginase activity, and development of asparaginase antibodies. An unplanned comparison of event-free survival (EFS) was conducted to rule out a deleterious O efficacy effect. Following induction and DI treatment there was complete (</=1 microM) or moderate (1-10 microM) depletion of serum asparagine levels in the large majority of samples tested over the 4-week period in both O-treated and E-treated subjects. Similarly, depletion of cerebrospinal fluid asparagine levels during induction was similar between O-treated and E-treated subjects. The number of days asparaginase activity exceeded >0.03 IU/ml in O-treated subjects was greater than the number of days in E-treated subjects during both the induction and DI phases of treatment. There was no correlation, however, between asparaginase activity and serum asparagine levels, making the former determination less clinically relevant. Using the protocol-prespecified threshold for a positive result of >2.5 times the control, 7 of 56 (12%) O subjects tested at any time during the study demonstrated antiasparaginase antibodies and 16 of 57 (28%) E subjects tested at any time during the study had antiasparaginase antibodies. In both study arms EFS was in the range of 80% at 3 years. The most serious, sometimes fatal, O toxicities were anaphylaxis, other serious allergic reactions, thrombosis (including sagittal sinus thrombosis), pancreatitis, glucose intolerance, and coagulopathy. The most common adverse events were allergic reactions (including anaphylaxis), hyperglycemia, pancreatitis, central nervous system thrombosis, coagulopathy, hyperbilirubinemia, and elevated transaminases. Disclosure of potential conflicts of interest is found at the end of this article.
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PMID:FDA drug approval summary: pegaspargase (oncaspar) for the first-line treatment of children with acute lymphoblastic leukemia (ALL). 1776 59

The cure rate for children with acute lymphoblastic leukaemia (ALL) has increased to approximately 70%, in part related to the use of the protein synthesis inhibitor drug asparaginase in multiagent chemotherapy regimens. Its lack of haematological toxicity allows its incorporation into phases of therapy in which myelosuppression would be expected either from the disease itself (induction therapy) or secondary to other chemotherapeutic agents (consolidation, intensification or reinduction phases of therapy). Its antileukaemic effect is related to the degree and duration of asparagine depletion. The 2 native forms of L-asparaginase are derived from Escherichia coli and Erwinia chrysanthemi. The half-lives (t((1/2))) of these forms are approximately 1.2 and 0.6 days, respectively. In order to increase the biological t((1/2)), pegaspargase was synthesised by the covalent attachment of monomethoxypolyethylene glycol (PEG) to native E. coli L-asparaginase: it has a t((1/2)) of approximately 5.7 days. The duration of asparagine depletion, the substrate amino acid of the drug, is directly related to asparaginase t((1/2)). Asparaginase is associated with several unique toxicities, including hyperglycaemia, hypolipoproteinaemia, hypoalbuminaemia, coagulation factor deficiencies, hepatotoxicity and pancreatitis. Since asparaginase is a protein, it may induce hypersensitivity reactions. The incidence of these reactions increases with use. In addition, silent hypersensitivity, i.e. the development of IgG antibodies without clinical reactions, results in a decreased t((1/2)) of asparaginase, shortened duration of asparagine depletion, and probably decreased efficacy. The use of pegaspargase allows continued treatment with asparaginase in patients with clinical hypersensitivity reactions. In addition, its use in patients with silent hypersensitivity may maintain the efficacy of asparaginase. So far, the optimal use of the 3 forms of asparaginase has not been determined in children with ALL, partly due to the lack of appropriate pharmacokinetic monitoring methods. As the technology has become available, it has been demonstrated that there is little rationale for the dosage and administration schedules presently in use. Studies are required to determine appropriate dosages and administration methods (intravenous or intramuscular) and schedules for each form of asparaginase, based upon pharmacokinetic parameters. The incidence and time to onset of hypersensitivity (clinical or silent) reactions and the appropriate means of continuing asparaginase therapy with therapeutic effect needs to be evaluated. Pharmacokinetic studies are now available as a research tool. These will allow further investigation to determine if failure to maintain asparagine depletion is a remediable cause of treatment failure.
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PMID:Acute lymphoblastic leukaemia: a guide to asparaginase and pegaspargase therapy. 1803 Oct 78

Little is known about octreotide therapy in asparaginase-associated pancreatitis (AAP) in children. Of the 59 children with acute lymphoblastic leukemia (ALL) receiving E. coli L-asparaginase, 5 patients (8.5%) developed AAP. Octreotide was administered to four patients. Clinical and laboratory improvement were evident after octreotide therapy. There were no deaths and no severe adverse side effects were noted. No pseudocysts were detected; however, two of the four patients developed diabetes. One child without octreotide treatment developed chronic pancreatitis and pseudocyst. We conclude that octreotide therapy appears to be safe and potentially beneficial in the management of AAP in children.
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PMID:Octreotide therapy in asparaginase-associated pancreatitis in childhood acute lymphoblastic leukemia. 1872 19

Plasmapheresis for the treatment of hypertriglyceridemia has previously been performed in patients with sudden onset severe hypertriglyceridemia and acute pancreatitis; however, only a few reports of this procedure have been published. We report here on a case showing severe hypertriglyceridemia during asparaginase (Asp) treatment for acute lymphocytic leukemia (ALL), and give an overview of a lipid-lowering apheresis therapy. To prevent the complication of pancreatitis due to hypertriglyceridemia, we performed plasma exchange (PE) three times using fresh frozen plasma. PE remarkably reduced both serum triglyceride and total cholesterol levels from 5430 mg/dL to 403 mg/dL and from 623 mg/dL to 204 mg/dL, respectively. The causes of severe hyperlipidemia in this patient were considered to include: the Asp treatment for ALL, and a genetic background with a heterozygote of familial lipoprotein lipase (LPL) defect syndrome, because the patient's plasma LPL level after intravenous heparin injection was low at 137 ng/mL. Hence, PE using fresh frozen plasma may be useful not only to remove lipoproteins, but also to supply defective factors, such as LPL, in similar cases.
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PMID:A case report of an adult with severe hyperlipidemia during acute lymphocytic leukemia induction therapy successfully treated with plasmapheresis. 1914 Aug 51

L-asparaginase (ASNase) is a common chemotherapy agent for the treatment of lymphoid malignancies. L-asparaginase has been reported to cause clinical pancreatitis in both humans and canines. Canine pancreatic lipase immunoreactivity (cPLI) is now a common diagnostic tool for evaluating pancreatitis in dogs. A total of 52 dogs were enrolled into this study. Canine pancreatic lipase immunoreactivity (cPLI) concentrations were evaluated before and after administration of ASNase, vincristine, or both. All dogs enrolled in the study were evaluated for signs compatible with clinical pancreatitis. No dogs receiving ASNase alone showed evidence of clinical pancreatitis after administration. Also, there was no statistically significant change in cPLI concentrations before or after treatment. Fourteen percent of dogs that received both vincristine and ASNase concurrently had elevated concentrations of cPLI after treatment. Of the 11 dogs with clinical signs compatible with pancreatitis after any chemotherapy treatment, no dog had a cPLI concentration > 400 microg/dL. In conclusion, ASNase did not cause clinical pancreatitis in this cohort of dogs but larger sample sizes are required to further validate this data.
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PMID:A pilot study evaluating changes in pancreatic lipase immunoreactivity concentrations in canines treated with L-asparaginase (ASNase), vincristine, or both for lymphoma. 1943 78

The incidence of pancreatitis in patients with haematopoetic neoplasms who are treated with L-asparaginase is fom 2 to 24%. In majority of cases the pancreatitis is oedematous and self-limiting. Acute haemorrhagic or necrotizing pancreatitis caused by L-asparaginase is rare but potentially life-threatening complication. We present 2 cases of acute pancreatitis in children aged 2 and 4 years. They were diagnosed to have acute lymphoblastic leukaemia and were treated according to the ALLLIC BFM 2002 protocol. Acute pancreatitis developed in these children after induction therapy and was followed by formation of a pseudocyst. In both cases the diagnosis of this complication was made directly after phase I of the protocol I (after eighth dose of L-Asparaginase). In the first case the course of acute pancreatitis was mild. Normalization of the amylase levels occurred after 7 days and the diagnosis of post inflammatory cyst was made 15 days after the first signs of the disease. But thereafter, during the additional complication (pneumonia with Pseudomonas aeruginosa bacteriemia) the pancreatic cyst became infected. In the second case acute pancreatitis had a severe course and the child required treatment in the Intensive Care Unit for 21 days. The cyst was diagnosed after 20 days from the beginning of symptoms. The surgical procedure, applied in both cases was internal drainage by anastomosis of the cyst with the back wall of the stomach. Antileukaemic treatment was recommenced after 6-8 weeks when complications resolved. Currently both children are well and remain in haematological remission and continue maintenance chemotherapy.
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PMID:[Acute pancreatitis during chemotherapy of acute lymphoblastic leukaemia complicated with pseudocyst]. 1953 25

Hyperglycemia has been described as a common event occurring during acute lymphocytic leukemia chemotherapy. It is associated with the synergistic effect of L-asparaginase and glucocorticoids, and related to poor outcome. Our goal was to compare clinical and laboratory findings between hyperglycemic episodes occurring during childhood acute lymphocytic leukemia induction chemotherapy. Here we describe 12 (3.8%) high-risk patients of 311 total patients, 9 (75%) of who are female. The 12 patients presented with 16 hyperglycemic episodes classified into adverse or satisfactory categories. There were no differences in clinical or laboratory variables among groups, although the majority of episodes occurred in pubescents, regardless of the type of glucocorticoid employed. Despite the fact that only 1 patient was overweight, pancreatitis was not diagnosed. Although we could not determine whether hyperglycemia predicts an adverse outcome, glucose evaluation played an important role during induction chemotherapy. To date, recognized risk factors for hyperglycemia no longer explain our findings, thus other mechanisms related to insulin secretion and action should be further studied.
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PMID:Transient hyperglycemia during childhood acute lymphocytic leukemia chemotherapy: an old event revisited. 1970 Nov 54


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