The EMI-catalyzed ESO/MHHPA system showed autocatalytic behavior in the isothermal curing reaction. The kinetic parameters; reaction rate constants (k(1) and k(2)) and reaction orders (m and n) of the ESO/MHHPA systems have been determined based on Kamal’s autocatalytic model. EMI catalyst content and curing temperature showed significant effect on, k(2), m and n. The overall reaction order (m + n) of the EMI-catalyzed ESO/MHHPA systems was about 1.5-3.0. The apparent activation
energies (E-a1 and E-a2) were determined using GDC-0973 in vivo the Arrhenius kinetic equation. As expected, the E-a1 and E-a2 had decreased with increasing EMI catalyst content. The critical conversion, alpha(c) was found to be in the range of 0.6-0.8. Curing reaction of ESO/MHHPA system as a function of EMI catalyst content can be well-described by introducing the diffusion factor, f(alpha) into Kamal’s autocatalytic model. (C) 2012 Elsevier B.V. All rights reserved.”
“BACKGROUND: The management of inherited hypokalemia has improved and the issue of pregnancy has become important.
CASES: Between 1992 and 2010, five Italian women with the clinical diagnosis of Gitelman syndrome gave birth to a total of six newborns. Pregnancy was uneventful in four women but was complicated by tiredness and tetanic seizures in PD-1/PD-L1 targets the fifth woman.
Drug management included potassium chloride in four cases
and magnesium and amiloride in one case each. The six neonates were born at term (n=4) or near term (n=2), with a body weight that was appropriate for gestational age. The children, aged between see more 6 weeks and 18 years, were healthy and neurodevelopmentally and somatically normal at the last follow-up.
CONCLUSION: Women with hypokalemia can become pregnant and the disorder may be managed without negative effect on the fetus. (Obstet Gynecol 2011;117:512-6) DOI: 10.1097/AOG.0b013e3182075317″
“Background: Contralateral subdural effusion (SDE) is usually considered as an uncommon complication after decompressive craniectomy (DC) for head trauma. This complication may need more aggressive treatment because of its tendency to cause midline shift and neurologic deterioration. In this article, we present our experience with this group of patients and discuss the diagnosis and management of this entity.
Methods: This study included 13 patients with severe traumatic brain injury who developed contralateral SDE after DC. Clinical and radiographic information was obtained through a retrospective review of the medical records and the radiographs.
Results: The average time from the procedure of DC to the diagnosis of contralateral SDE was 13 days. Deterioration of clinical condition or appearance of new symptoms/signs related to the contralateral SDE was noted in four patients.