Placental imbalance of vasoactive factors does not affect pregnancy outcome in patients treated with Cyclosporine A after transplantation

Endothelin-1 (ET-1) and nitric oxide (NO) have been suggested to have a focal role in the regulation of placental and fetal growth. Cyclosporine A (CsA) has been shown to strongly modulate ET-1 and NO synthesis and thus has the potential to affect fetal growth and maternal state. Eleven CsA-treated female kidney transplant recipients were recruited. Fourteen healthy pregnant women served as controls. Placental expression of ET-1 and tissue factor (TF) was evaluated by in situ hybridization, and NO synthase (NOS) was evaluated by staining with the reduced form of nicotinamide-adenine dinucleotide phosphate (NADPH)-diaphorase and in situ hybridization. Kidney transplant recipients showed a marked reduction in NADPH-diaphorase staining, as well as endothelial constitutive NOS (ecNOS) messenger RNA, whereas inducible NOS expression was unchanged. Normal placenta showed a strong positive ET-1 signal along the endothelium of uteroplacental arteries within the basal plate, which increased markedly in decidua of transplant recipients. Thus, transplant recipients showed a remarkable alteration in ET-1/ecNOS balance without alteration in fetal growth or maternal renal function. Next, we explored the state of placental endothelial cell activation downstream from vasoactive factors by evaluating TF gene expression. Transplant recipients did not show modification of TF transcript compared with healthy pregnant women. CsA potently affected the placental ET-1/ecNOS vasoactive balance. Nevertheless, newborns from transplant recipient mothers were appropriate for gestational age, and transplant recipients did not show systemic hypertension or impending renal damage. It is suggested that CsA may blunt the activation of endothelial cells and priming of endothelial-derived substances, which possibly lie downstream from the cited vasoactive agents

Automatic Adaptive System Dialysis for Hemodialysis-Associated Hypotension and Intolerance: A Noncontrolled Multicenter Trial.

BACKGROUND: Hemodialysis is complicated by a high incidence of intradialytic hypotension and disequilibrium symptoms caused by hypovolemia and a decrease in extracellular osmolarity. Automatic adaptive system dialysis (AASD) is a proprietary dialysis system that provides automated elaboration of dialysate and ultrafiltration profiles based on the prescribed decrease in body weight and sodium content. STUDY DESIGN: A noncontrolled (single arm), multicenter, prospective, clinical trial. SETTING & PARTICIPANTS: 55 patients with intradialytic hypotension or disequilibrium syndrome in 15 dialysis units were studied over a 1-month interval using standard treatment (642 sessions) followed by 6 months using AASD (2,376 sessions). INTERVENTION: AASD (bicarbonate dialysis with dialysate sodium concentration and ultrafiltration rate profiles determined by the automated procedure). OUTCOMES: Primary and major secondary outcomes were the frequency of intradialytic hypotension and symptoms (hypotensive events, headache, nausea, vomiting, and cramps), respectively. RESULTS: More stable intradialytic systolic and diastolic blood pressures with lower heart rate were found using AASD compared with standard treatment. Sessions complicated by hypotension decreased from 58.7% \ub1 7.3% to 0.9% \ub1 0.6% (P < 0.001). The incidence of other disequilibrium syndrome symptoms was lower in patients receiving AASD. There were no differences in end-session body weight, interdialytic weight gain, or presession natremia between the standard and AASD treatment periods. LIMITATIONS: A noncontrolled (single arm) study, no crossover from AASD to standard treatment. CONCLUSIONS: This study shows the long-term clinical efficacy of AASD for intradialytic hypotension and disequilibrium symptoms in a large number of patients and dialysis sessions