RESUMO
Objective: To summarize the adverse effects of pegaspargase in the treatment of lymphoid malignancies and management experience. Methods: Clinical data of patients who received chemotherapy including pegaspargase in the Department of Hematology of Beijing Tongren hospital during August 2011 to December 2015 were retrospective analyzed, and the adverse effects of pegaspargase and the management experience was summarized. Results: A total of 129 patients with 443 times of pegaspargase used during this period. The common adverse reactions included allergic reactions in 2 cases (1.6%), acute pancreatitis in 19 (14.7%) including 6 acute symptomatic pancreatitis and 13 chemical pancreatitis with elevated pancreatin, hypertriglyceridemia in 15 cases(11.6%), hyperglycemia in 85 (65.9%), hypoglycemia in 7 (5.4%), elevated aminotransferase in 25 (19.4%), hyperbilirubinemia in 21 (15.5%), hypoalbuminemia in 62 (48.1%), prolonged APTT in 61 (47.3%), prolonged PT in 22 (17.1%), prolonged TT in 15 (11.6%), hypofibrinogen in 75 (58.1%), thrombus in 11 (8.5%) and bleeding in 3 (2.3%). The above adverse reactions were improved by symptomatic treatment of anti allergy, inhibition of secretion of pancreatic juice, lipid lowering, hypoglycemic, liver preservation, supplementation of plasma and hemostasis, respectively. Some serious adverse reactions affected the application of pegaspargase, even lead to discontinuation of the aspartate. Conclusion: Though adverse effects associated with pegaspargase are extensive, most patients can successfully complete the chemotherapy containing the pegaspargase with close monitoring and timely treatment.
Assuntos
Humanos , Asparaginase/metabolismo , Polietilenoglicóis/metabolismo , Leucemia-Linfoma Linfoblástico de Células Precursoras , Estudos RetrospectivosRESUMO
Studies were conducted to determine the effect of osmotic and matric stress on germination and growth of two Fusarium solani strains, the etiological agent responsible of peanut brown root rot. Both strains had similar osmotic and matric potential ranges that allowed growth, being the latter one narrower. F. solani showed the ability to grow down to -14 MPa at 25 °C in non-ionic modified osmotic medium, while under matric stress this was limited to -8.4 MPa at 25 °C. However, both strains were seen to respond differently to decreasing osmotic and matric potentials, during early stages of germination. One strain (RC 338) showed to be more sensitive to matric than osmotic (non ionic) and the other one (RC 386) showed to be more sensitive to osmotic than matric imposed water stress. After 24 h of incubation, both isolates behaved similarly. The minimum water potential for germination was -8.4 MPa on glycerol amended media and -5.6 MPa for NaCl and PEG amended media, respectively. The knowledge of the water potential range which allow mycelia growth and spore germination of F. solani provides an inside to the likely behaviour of this devastating soilborne plant pathogen in nature and has important practical implications.