Hemodialysis may reduce blood flow to the brain

A new study reveals that hemodialysis may reduce blood flow to the brain in patients being treated for kidney failure. This is the result of research done by Harmke Polinder-Bos, MD (University Medical Center Groningen, in The Netherlands). The findings, which appear in this issue of the Journal of the American Society of Nephrology (JASN), may help explain why previous studies have found a link between hemodialysis and brain injury.

More than 2 million people with kidney failure worldwide currently receive treatment with dialysis or a kidney transplant to stay alive, with the majority of patients undergoing hemodialysis. Recent studies have provided increasing evidence that although conventional in-center hemodialysis can prolong lives, it may also have negative effects on the brain that lead to cognitive deficits. Investigators have hypothesized that the repetitive circulatory stress of hemodialysis—which filters a patient’s blood outside the body before returning it—may reduce the blood supply to the brain; however, the mechanisms involved are unclear.

To investigate, Harmke Polinder-Bos, MD (University Medical Center Groningen, in The Netherlands) and her colleagues studied the effects of conventional hemodialysis on cerebral blood flow (CBF), measured by special positron emission tomography–computed tomography imaging tests. During single hemodialysis sessions in 12 patients ≥65 years of age, 3 scans were performed: before, early after the start of, and at the end of hemodialysis. From before the start to the end of hemodialysis, CBF declined significantly by 10%, from an average of 34.5–30.5 ml/100 g per minute. CBF decline caused clinical symptoms in 1 patient. Regional CBF declined in all brain regions that were examined, including the frontal, parietal, temporal, and occipital lobes; cerebellum; and thalamus. Hemodialysis treatment–related factors that might relate to CBF decline were a higher body temperature in patients, a greater ultrafiltration volume and ultrafiltration rate during dialysis, and a higher pH of the blood.

“The findings of this study are an important step in understanding the negative effect of hemodialysis on the brain,” said Dr. Polinder-Bos. “These findings might form a point of departure for further research to develop hemodialysis protocols that minimize or prevent cerebrovascular stress.”

Source: UMCG press release