Add to ORKGThe mechanisms of water and solute transfer across exchange vessels still are one of the most important and unsolved questions of modern physiology. During the last few years, several investigators have developed a combined approach trying to correlate physiological studies with ultrastructural observations ( 1-4).The understanding of the transfer mechanisms across the peritoneal membrane during peritoneal dialysis is an even more complicated issue. There is a need to integrate the known (as well as the unknown) about capillary physiology with the yet-unclear role of the mesothelial layer during dialysis-a situation which can be hardly called nonnal physiology. This review brings together recent findings and views of both morphology and phy...
Peritoneal dialysis was first employed in patients with acute renal failure in the 1940s and since t...
osmosis; pathophysiology; peritoneal dialysis Mathematical prediction of clinical events versus phys...
We previously showed that mesothelial cells in human peritoneum express the water channel aquaporin ...
The increasing use of peritoneal dialysis in the treatment of end-stage renal disease has stimulated...
This paper deals with the peritoneal microcirculation and with peritoneal exchange occurring in peri...
Peritoneal dialysis represents the major home-based dialysis modality for patients with end-stage re...
Toward better dialysis compatibility: Advances in the biochemistry and pathophysiology of the perito...
Peritoneal dialysis (PD) has modified our concept of the peritoneal membrane, which is now a topic o...
The development of peritoneal dialysis (PD) as a successful therapy has and still depends on experim...
Loss of peritoneal function is a major factor leading to treatment failure in peritoneal dialysis (P...
Background Osmosis drives transcapillary ultrafiltration and water removal in patients treated with ...
Comprehensive understanding of peritoneal solute and fluid transport is of clinical significance to ...
The peritoneum is the largest serous membrane in the body that covers the inner side of the abdomina...
In eight, CAPD patients who either had insufficient results of dialysis treatment (six) or loss of u...
♦ Objectives: The anatomic peritoneum is often consid-ered equivalent to the barrier between the dia...
Peritoneal dialysis was first employed in patients with acute renal failure in the 1940s and since t...
osmosis; pathophysiology; peritoneal dialysis Mathematical prediction of clinical events versus phys...
We previously showed that mesothelial cells in human peritoneum express the water channel aquaporin ...
The increasing use of peritoneal dialysis in the treatment of end-stage renal disease has stimulated...
This paper deals with the peritoneal microcirculation and with peritoneal exchange occurring in peri...
Peritoneal dialysis represents the major home-based dialysis modality for patients with end-stage re...
Toward better dialysis compatibility: Advances in the biochemistry and pathophysiology of the perito...
Peritoneal dialysis (PD) has modified our concept of the peritoneal membrane, which is now a topic o...
The development of peritoneal dialysis (PD) as a successful therapy has and still depends on experim...
Loss of peritoneal function is a major factor leading to treatment failure in peritoneal dialysis (P...
Background Osmosis drives transcapillary ultrafiltration and water removal in patients treated with ...
Comprehensive understanding of peritoneal solute and fluid transport is of clinical significance to ...
The peritoneum is the largest serous membrane in the body that covers the inner side of the abdomina...
In eight, CAPD patients who either had insufficient results of dialysis treatment (six) or loss of u...
♦ Objectives: The anatomic peritoneum is often consid-ered equivalent to the barrier between the dia...
Peritoneal dialysis was first employed in patients with acute renal failure in the 1940s and since t...
osmosis; pathophysiology; peritoneal dialysis Mathematical prediction of clinical events versus phys...
We previously showed that mesothelial cells in human peritoneum express the water channel aquaporin ...