The kinetics of ultrafiltration during peritoneal dialysis: the role of lymphatics.

Net ultrafiltration was measured directly during hypertonic peritoneal dialysis exchanges in rats. Simultaneously, lymphatic absorption was measured by monitoring the disappearance of albumin in the instilled dialysis solution from the peritoneal cavity. The albumin method for measuring lymphatic absorption was also tested in rats absorbing Lactated Ringer's solution from the peritoneal cavity where absorption rate could also be measured directly.

Polycation as an alternative osmotic agent and phosphate binder in peritoneal dialysis.

We have previously shown that polyanions can be utilized to achieve balanced removal of sodium and water during peritoneal dialysis. The excessive binding of potassium, calcium, and magnesium to anionic polymers proves undesirable. The present study was designed to demonstrate the reversibility of cation binding by using a polycation (polyethylenimine) as the osmotic agent, thus favoring the removal of undesirable excess phosphate anions via peritoneal dialysis.

Polyanions and glucose as osmotic agents in simulated peritoneal dialysis.

Peritoneal dialysis solutions contain glucose as an osmotic agent to obtain ultrafiltration. Due to rapid absorption, glucose does not sustain high ultrafiltration during long exchanges. Nonabsorbable polyanions might be effective as osmotic agents when suspended in electrolyte solution.

Influence of temperature and time on insulin adsorption to plastic bags.

The influence of temperature and time on insulin adsorption to plastic peritoneal dialysis bags was evaluated. A dialysis bag (1.5% dextrose, 2 liters) was injected with 25-microCi insulin I 125 and gently mixed.

Nature of insulin binding to plastic bags.

The nature of insulin binding to plastic bags was evaluated to determine if it followed the physical laws of adsorption. To determine whether insulin is adsorbed on a liquid/air interface, the influence of foam in vials of radiolabeled insulin was evaluated. Using a bag-to-bag transfer method, the influence of regular insulin and detergent on radiotracer insulin binding was assessed.