Adult ; Extracorporeal Membrane Oxygenation ; methods ; Female ; Humans ; Near Drowning ; complications ; diagnostic imaging ; therapy ; Neuroimaging ; Treatment Outcome

Acute kidney injury (AKI) secondary to near-drowning is rarely described and poorly understood. Only few cases of severe isolated AKI resulting from near-drowning exist in the literature. We report a case of near-drowning who developed to isolated AKI due to acute tubular necrosis (ATN) requiring dialysis. A 21-yr-old man who recovered from near-drowning in freshwater 3 days earlier was admitted to our hospital with anuria and elevated level of serum creatinine. He needed five sessions of hemodialysis and then renal function recovered spontaneously. Renal biopsy confirmed ATN. We review the existing literature on near-drowning-induced AKI and discuss the possible pathogenesis.
Acute Kidney Injury/*diagnosis/*etiology ; Anuria/etiology ; Creatinine/blood ; Humans ; Kidney Tubular Necrosis, Acute/etiology/pathology ; Male ; Near Drowning/*complications ; Renal Dialysis ; Young Adult

The study was to observe the therapeutic effect of HJ-1 NO--HFJV respirator on treating pulmonary edema caused by seawater drowning. Seawater was infused into the rabbit's lung to establish the animal model of pulmonary edema caused by seawater drowning(PE-SWD). Then the animals were divided into three groups: simple PE-SWD model as control group, treat group(animal model treated with HFJV respirator and four medicines) and HFJV respiratior plus NO group. Pao2, Sao2 and pH were measured by the blood-gas analyzer. The survival time and seawater drowing-respiratiory distress syndrom(SW-RDS) were observed. The results showed that Pao2, Sao2 in NO group were remarkably higher than that of PE-SWD control group, and the survival time was longer than that of medicine treated group and the incidence of SW-RDS decreased to zero. We assume that HJ-1 NO-HFJV respirator is efficient on treating pulmonary edema.
Animals ; Disease Models, Animal ; High-Frequency Jet Ventilation ; instrumentation ; Near Drowning ; complications ; Nitric Oxide ; therapeutic use ; Pulmonary Edema ; etiology ; therapy ; Rabbits