COVID-19 disease in peritoneal dialysis patients: a single centre experience from India.

BACKGROUND: This study presents our data on mortality in end stage renal disease (ESRD) patients on peritoneal dialysis (PD) who developed COVID-19. MATERIALS AND METHODS: Sri Padmavathi Medical College Hospital, Sri Venkateswara Institute of Medical Sciences University, was designated the State COVID Hospital in March 2020. In a retrospective observational study, we collected the data of ESRD patients on PD and identified the risk factors for mortality. RESULTS: Prior to the pandemic, 136 patients with ESRD were on peritoneal dialysis at our Institute. Among them, 27 (19.8%) eventually developed COVID-19, and 14 of them (51.8%) died. Serum albumin levels were lower and D-dimer levels were significantly higher in deceased patients than in survivors. DISCUSSION: The mortality rate in ESRD patients on PD with COVID-19 at our institution was higher than in other published studies.

Novel series of non-glycerol-based cationic transfection lipids for use in liposomal gene delivery.

A novel series of nontoxic and non-glycerol-based simple monocationic transfection lipids containing one or two hydroxyethyl groups directly linked to the positively charged nitrogen atom were synthesized. The in vitro transfection efficiencies of these new liposomal gene delivery reagents were better than that of lipofectamine, a widely used transfection agent in cationic lipid-mediated gene transfer. The most efficient transfection formulation was observed to be a 1:1:0.3 mol ratio of DHDEAB (N, N-di-n-hexadecyl-N,N-dihydroxyethylammonium bromide):cholesterol:HDEAB (N-n-hexadecyl-N,N-dihydroxyethylammonium bromide) using a DHDEAB-to-DNA charge ratio (+/-) of 0.3:1. Observation of good transfection at charge ratios lower than 1 suggests that the amphiphile-DNA complex may have net negative charge. Our results reemphasize the important point that in cationic lipid-mediated gene delivery, the overall charge of the lipid-DNA complex need not always be positive. In addition, our transfection results also imply that favorable hydrogen-bonding interactions between the lipid headgroups and the cell surface of biological membranes may have some role for improving the transfection efficiency in cationic lipid-mediated gene delivery.