The continuous infusions of MgSO(4) were safe at the studied doses and maintained serum magnesium (SrMg) and ionized magnesium levels similar to levels required to produce smooth muscle relaxation in other clinical settings. Further studies are needed to investigate the efficacy of high-dose continuous MgSO(4) infusion as an adjunctive treatment for severe asthma treatment and determine the SrMg level required to maintain airway smooth muscle relaxation.
OBJECTIVE This report describes the feasibility of high-dose magnesium sulfate infusion in pediatric patients with status asthmaticus. METHODS Retrospective chart review over a 3-year period of all patients younger than 18 years of age with status asthmaticus who underwent a high-dose magnesium sulfate infusion for 4 hours. All patients were breathing spontaneously but were refractory to conventional therapy. The magnesium sulfate infusion regimen was 50 mg/kg (for patients weighing .30 kg) or 75 mg/kg (for those weighing 30 kg) over a period of 30 to 45 minutes, followed by a continuous infusion of 40 mg/kg/hr for 4 hours. Information regarding vital and clinical respiratory signs, serum magnesium (SrMg), ionized magnesium (iMg), electrocardiograms, and cardiac troponin levels were retrieved. We analyzed the relationship between SrMg and iMg by using linear regression analysis. RESULTS Nineteen patients were included. At the end of the infusion, SrMg levels were 4.4 6 0.8 mg/ dL, and iMg levels were 0.95 6 0.2 mmol/L. SrMg levels only moderately predicted iMg (r 2 ¼ 0.541). There were no reports of hypotension, respiratory failure, neurological problems, or nausea. Discomfort at the site of infusion was reported in three cases. Troponin levels (n ¼ 12) and electrocardiograms (n ¼ 12), when available, were noted at the end of the infusion and were normal in all patients p¼0.01. CONCLUSIONS In this case series, short-term high-dose administration of magnesium sulfate in the context of status asthmaticus was feasible, and we did not observe clinical complications with its use. Total SrMg was inadequate to reflect the active form of magnesium, iMg. The dose used achieved theoretical therapeutic levels of iMg.INDEX TERMS asthma, feasibility, infusion, magnesium sulfate, status asthmaticus J Pediatr Pharmacol Ther 2012;17(2):150-154
Rasburicase is a recombinant urate oxidase enzyme indicated for tumor lysis syndrome (TLS), a potential life-threatening oncologic emergency that occurs most commonly during chemotherapy for hematological malignancies. As a result of the defects in the physiological antioxidant pathway, erythrocytes of patients with glucose-6-phosphate dehydrogenase (G6PD) deficiency are not protected against the oxidating stress exerted by hydrogen peroxide generated with the administration of rasburicase. Therefore, rasburicase is contraindicated in patients with known G6PD deficiency and the manufacturer recommends screening all patients with high risk for G6PD deficiency before initiating rasburicase therapy. However, it is logistically difficult in clinical settings because of the high risk of morbidity and mortality associated with TLS if treatment is delayed and the long turnaround time of the G6PD deficiency screening. Therefore, administering rasburicase to patients developing TLS before confirming a patient's G6PD status is practically inevitable. Methemoglobinemia, and/or hemolysis, may result from the oxidative stress. Descriptions of the clinical course should it happen are limited in the literature. There are eight reported cases of rasburicase-related methemoglobinemia, with or without hemolytic anemia, in the literature of which five are pediatric patients. Six reports (including three pediatric patients) had detailed descriptions of the event and management. The recent reports of methemoglobinemia observed in patients with probable G6PD activity further complicated the picture. We are reporting a 16-year-old patient diagnosed with Burkitt's lymphoma who developed methemoglobinemia after receiving one dose of rasburicase. He was managed by transfusion and oxygen support. The patient recovered well and the observed methemoglobinemia was reversible.
Imatinib, a tyrosine kinase inhibitor has improved survival in pediatric patients with Philadelphia chromosome-positive B-cell acute lymphoblastic leukemia. There are no formal drug interactions listed between methotrexate and tyrosine kinase inhibitors. Four pediatric patients with Philadelphia chromosome-positive B-cell acute lymphoblastic leukemia had delayed methotrexate clearance during their first cycle of high-dose methotrexate while receiving imatinib, resulting in acute kidney injury. For subsequent high-dose methotrexate cycles, imatinib was withheld resulting in decreased acute kidney injury, shorter time to methotrexate clearance, less toxicity, and shorter hospitalizations. For pediatric patients with acute lymphoblastic leukemia receiving imatinib, we recommend escalated supportive care measures including increased hyperhydration and leucovoruin frequency. For patients with toxicities secondary to delayed clearance or need for glucarpidase, we recommend holding imatinib with subsequent high-dose methotrexate courses.
Posaconazole is a triazole antifungal agent used as adjuvant or salvage therapy for the treatment of zygomycosis, an invasive fungal infection associated with high mortality. Oral posaconazole absorption is highly variable. We describe the pharmacokinetics of oral posaconazole in a 2-year-old boy with rhino-cerebral-orbital zygomycosis. Seven days after induction therapy for acute lymphoblastic leukemia, he was brought to the emergency department because of left eyelid swelling and was admitted to the hospital. Zygomycosis was diagnosed 12 days later. After we conducted a literature search and consulted with antifungal drug experts, a triple-antifungal regimen consisting of liposomal amphotericin B, caspofungin, and posaconazole was started. Given the severity of the disease, we aimed for posaconazole plasma trough concentrations greater than 1.25 µg/ml; the dosage necessary to achieve this goal was posaconazole 200 mg 4 times/day. After a difficult 105-day stay in the hospital and stabilization of the fungal infection, the patient was discharged. Caspofungin was discontinued at time of discharge, but the patient continued to receive amphotericin B lipid complex 7.5 mg/kg/day intravenously and posaconazole 200 mg orally 4 times/day. This is one of the few case reports describing posaconazole pharmacokinetics in a child younger than 8 years. In patients with extensive zygomycosis, a triple-antifungal regimen, combined with therapeutic drug monitoring of posaconazole, may be helpful.
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