Your search keyword '"continuous flow peritoneal dialysis"' showing total 9 results

1. Techniques in Peritoneal Dialysis

Author

Aggarwal, Vikram, Schreiber, Martin J., Jr., Rastogi, Anjay, editor, Lerma, Edgar V., editor, and Bargman, Joanne M., editor

Published

2021

2. Evaluation of a system for sorbent‐assisted peritoneal dialysis in a uremic pig model.

Author

Gelder, Maaike K., Vries, Joost C., Simonis, Frank, Monninkhof, Anneke S., Hazenbrink, Diënty H. M., Ligabue, Giulia, Giovanella, Silvia, Joles, Jaap A., Verhaar, Marianne C., Bajo Rubio, Maria A., Selgas, Rafael, Cappelli, Gianni, and Gerritsen, Karin G. F.

Subjects

*PERITONEAL dialysis, *MASS transfer coefficients, *SWINE, *ORGANIC wastes, *ANIMAL species

Abstract

A system for sorbent‐assisted peritoneal dialysis (SAPD) has been developed that continuously recirculates dialysate via a tidal mode using a single‐lumen peritoneal catheter with the regeneration of spent dialysate by means of sorbents. SAPD treatment may improve plasma clearance by the maintenance of a high plasma‐to‐dialysate concentration gradient and by increasing the mass transfer area coefficient (MTAC) of solutes. The system is designed for daily 8‐hr treatment (12 kg, nighttime system). A wearable system (2.3 kg, daytime system) may further enhance the clearance of phosphate and organic waste solutes during the day. Uremic pigs (n = 3) were treated with the day‐ (n = 3) and nighttime system (n = 15) for 4–8 hr per treatment. Plasma clearance (Cl), MTAC, and total mass transport (MT) of urea, creatinine, phosphate, and potassium were compared with a static dwell (n = 28). Cl, MTAC, and MT of urea, creatinine, phosphate, and potassium were low in the pig as compared to humans due to the pig's low peritoneal transport status and could be enhanced only to a limited extent by SAPD treatment compared with a static dwell (nighttime system: Cl urea: ×1.5 (p =.029), Cl creatinine: ×1.7 (p =.054), Cl phosphate: ×1.5 (p =.158), Cl potassium: ×1.6 (p =.011); daytime system: Cl creatinine: ×2.7 (p =.040), Cl phosphate: ×2.2 (p =.039)). Sorbent‐assisted peritoneal dialysis treatment in a uremic pig model is safe and enhances small solute clearance as compared to a static dwell. Future studies in humans or animal species with higher peritoneal transport should elucidate whether our SAPD system enhances clearance to a clinically relevant extent as compared to conventional PD. [ABSTRACT FROM AUTHOR]

Published

2020

3. Continuous flow peritoneal dialysis (CFPD) improves ultrafiltration in children with acute kidney injury on conventional PD using a 4.25 % dextrose solution.

Author

Nourse, Peter, Sinclair, Gina, Gajjar, Priya, Plessis, Mandi, and Argent, Andrew

Subjects

*CREATININE, *DRUGS, *GLUCOSE, *HEMODIALYSIS, *LONGITUDINAL method, *PERITONEAL dialysis, *PROBABILITY theory, *SOLUTION (Chemistry), *STATISTICS, *ULTRAFILTRATION, *UREA, *DATA analysis, *TREATMENT effectiveness, *DIALYSIS catheters, *DESCRIPTIVE statistics, *CHILDREN, TREATMENT of acute kidney failure

Abstract

Background: Criticism against the use of acute peritoneal dialysis (PD) has been its low clearance and low ultrafiltration (UF) volumes compared to extracorporeal techniques. The aim of our study was to determine whether continuous flow peritoneal dialysis (CFPD) would improve UF in children with acute kidney injury (AKI) in cases where UF on conventional PD was inadequate using 4.25 % glucose concentrations. Methods: Five infants were prospectively studied. All had AKI with fluid overload. The median age of the patients was 6 (range 0.43-9) months; the median weight was 6.5 (range 2.7-8.4) kg. Each patient served as his or her own control, undergoing both CFPD and conventional PD. CFPD was performed with two bedside-placed catheters using a 2.5 % glucose concentration. After initial filling, a dialysate flow rate of 100 ml/min/1.73 m was maintained with an adapted continuous venovenous haemofiltration machine. The UF flow rate was set at 2.5 ml/min/1.73 m and adapted as necessary. UF and clearance rates were measured for both PD and CFPD. Results: The median UF rate achieved was 1.7 (range 0.01-5.30) mg/kg/h with conventional PD versus 6.7 (range 2.17-15.7) mg/kg/h with CFPD ( p = 0.042). The clearances of urea and creatinine were 6.89 (range 4.50-7.55) and 7.46 (range 4.79-10.50) mL/min/1.73 m, respectively, with conventional PD and 19 (17.0-30.0) and 41 (standard deviation17.4, range 12.0-52.0) mL/min/1.73 m, respectively, with CFPD (both p = 0.043). Conclusion: Continuous flow peritoneal dialysis improves UF in fluid overloaded infants who are not achieving adequate UF on conventional PD. [ABSTRACT FROM AUTHOR]

Published

2016

4. ПРОТОЧНЫЙ ПЕРИТОНЕАЛЬНЫЙ ДИАЛИЗ У НЕДОНОШЕННОГО РЕБЕНКА ( СЛУЧАЙ ИЗ ПРАКТИКИ)

Subjects

проточный перитонеальный диализ, недоношенный ребенок, continuous flow peritoneal dialysis, acute renal injury, острое почечное повреждение, premature infant

Abstract

В статье описывается случай проведения перитонеального диализа проточной методикой у недоношенного ребенка с очень низкой массой тела. Описывается течение заболевания у ребенка до развития острого почечного повреждения, используемое техническое оснащение и расходные материалы. Также представлено документальное оформление при проведении перитонеального диализа. Несмотря на неблагоприятный исход заболевания, обусловленный тяжелым внутрижелудочковым кровоизлиянием, перитонеальный диализ признан успешным. У ребенка купирована гиперкалиемия и достигнут отрицательный жидкостный баланс. Требуется проведение широкого ряда исследований для изучения различных аспектов применения перитонеального диализа у недоношенных детей., The article describes a case of continuous flow peritoneal dialysis in a premature baby with a very low body weight. It describes the course of the disease in a newborn before the acute renal damage onset, the technical equipment and consumables. Documentation of peritoneal dialysis is also presented. Despite the unfavorable outcome of the disease due to severe intraventricular hemorrhage, peritoneal dialysis was evaluated as successful. The child has stopped hyperkalemia and achieved a negative fluid balance. A wide range of studies are required to investigate various aspects of the use of peritoneal dialysis in premature infants.

Published

2021

5. Evaluation of a system for sorbent‐assisted peritoneal dialysis in a uremic pig model

Author

Silvia Giovanella, Marianne C. Verhaar, Rafael Selgas, Frank Simonis, Jaap A. Joles, Maaike K. van Gelder, Diënty H M Hazenbrink, Giulia Ligabue, Anneke S Monninkhof, Joost C de Vries, Karin G.F. Gerritsen, Maria Auxiliadora Bajo Rubio, and Gianni Cappelli

Subjects

kidneys, Sorbent, Catheters, Physiology, Swine, medicine.medical_treatment, Potassium, artificial, chemistry.chemical_element, 030204 cardiovascular system & hematology, Peritoneal dialysis, Phosphates, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Chlorides, continuous flow peritoneal dialysis, Physiology (medical), medicine, chronic, kidney failure, peritoneal dialysis, sorbent, Animals, Urea, Anion Exchange Resins, Original Research, Uremia, Plasma clearance, Creatinine, Chromatography, Pig model, Phosphate, chemistry, Female, 030217 neurology & neurosurgery

Abstract

A system for sorbent‐assisted peritoneal dialysis (SAPD) has been developed that continuously recirculates dialysate via a tidal mode using a single‐lumen peritoneal catheter with the regeneration of spent dialysate by means of sorbents. SAPD treatment may improve plasma clearance by the maintenance of a high plasma‐to‐dialysate concentration gradient and by increasing the mass transfer area coefficient (MTAC) of solutes. The system is designed for daily 8‐hr treatment (12 kg, nighttime system). A wearable system (2.3 kg, daytime system) may further enhance the clearance of phosphate and organic waste solutes during the day. Uremic pigs (n = 3) were treated with the day‐ (n = 3) and nighttime system (n = 15) for 4–8 hr per treatment. Plasma clearance (Cl), MTAC, and total mass transport (MT) of urea, creatinine, phosphate, and potassium were compared with a static dwell (n = 28). Cl, MTAC, and MT of urea, creatinine, phosphate, and potassium were low in the pig as compared to humans due to the pig's low peritoneal transport status and could be enhanced only to a limited extent by SAPD treatment compared with a static dwell (nighttime system: Cl urea: ×1.5 (p = .029), Cl creatinine: ×1.7 (p = .054), Cl phosphate: ×1.5 (p = .158), Cl potassium: ×1.6 (p = .011); daytime system: Cl creatinine: ×2.7 (p = .040), Cl phosphate: ×2.2 (p = .039)). Sorbent‐assisted peritoneal dialysis treatment in a uremic pig model is safe and enhances small solute clearance as compared to a static dwell. Future studies in humans or animal species with higher peritoneal transport should elucidate whether our SAPD system enhances clearance to a clinically relevant extent as compared to conventional PD., A system for sorbent‐assisted peritoneal dialysis (SAPD) has been developed that continuously recirculates dialysate via a tidal mode using a single lumen peritoneal catheter with regeneration of spent dialysate by means of sorbents. SAPD treatment may improve plasma clearance by maintenance of a high plasma‐to‐dialysate concentration gradient and by increasing the mass transfer area coefficient (MTAC) of solutes. The system is designed for daily 8‐hr treatment (12 kg, nighttime system). A wearable system (2.3 kg, daytime system) may further enhance clearance of phosphate and organic waste solutes during the day.

Published

2020

6. Flow-through peritoneal dialysis in neonatal enema-induced hyperphosphatemia.

Author

Kostic, Dusan, Rodrigues, Andre, Leal, Antônio, Metran, Camila, Nagaiassu, Meire, Watanabe, Andréia, Ceccon, Maria, Tannuri, Uenis, and Koch, Vera

Subjects

*THERAPEUTICS, *CONSTIPATION, *METABOLIC disorder treatment, *PHOSPHORUS in the body, *ENEMA, *HYPERTONIC solutions, *NEONATAL intensive care, *PERITONEAL dialysis, *WATER-electrolyte imbalances, *DIALYSIS (Chemistry), *CHILDREN

Abstract

Fleet enemas are hypertonic solutions with an osmotic action and a high concentration of phosphate. When retained in the human body they have a great toxic potential, causing severe hydro-electrolyte disorders in children, especially in newborns. We report the case of a previously healthy 8-day-old newborn who needed neonatal intensive care treatment after the inadvertent administration of an osmotically active hypertonic phosphate enema. Taking into account that phosphate removal by peritoneal dialysis (PD) strongly depends on total dialysate turnover, we chose continuous flow PD (CFPD) as the treatment option, with a successful outcome. Clinical experience with this dialytic modality is limited to a few case reports in pediatric and adult patients. To the best of our knowledge, we report here the first description of CFPD in the setting of acute phosphate nephropathy in the neonatal period. The modality of PD described here has potential as an alternative management option as it is a highly efficient, methodologically simple, and low-cost method without any need for sophisticated equipment. Physicians and parents should be aware of the adverse effects of a hypertonic phosphate enema and should never use these medications in infants and newborns. [ABSTRACT FROM AUTHOR]

Published

2010

7. Continuous flow peritoneal dialysis (CFPD): a glimpse into the future.

Author

Passlick‐Deetjen, Jutta and Quellhorst, Eduard

Published

2001

8. Опыт проведения проточного перитонеального диализа у новорожденного с экстремально низкой массой тела

Subjects

extremely low body weight, перитонеальный диализ, острая почечная недостаточность, новорожденный, acute renal failure, premature newborn, проточный перитонеальный диализ, заместительная почечная терапия, acute kidney injury, peritoneal dialysis, newborn, continuous flow peritoneal dialysis, диализ, dialysis, недоношенный новорожденный, экстремально низкая масса тела, острое почечное повреждение, renal replacement therapy

Abstract

В статье представлена сравнительная характеристика методов заместительной почечной терапии, применяемых у новорожденных различного гестационного возраста и массы тела, обсуждается клинический случай применения проточной модификации перитонеального диализа у новорожденного с массой тела при рождении 660 г и острым почечным повреждением., The article presented the comparative characteristics of methods of kidney replacement therapy in newborns. We present the clinical case of continuous flow peritoneal dialysis in a newborn with extremely low birth weight (660 g birth weight) with acute renal injury.

Published

2019

9. Evaluation of a system for sorbent-assisted peritoneal dialysis in a uremic pig model.

Author

van Gelder MK, de Vries JC, Simonis F, Monninkhof AS, Hazenbrink DHM, Ligabue G, Giovanella S, Joles JA, Verhaar MC, Bajo Rubio MA, Selgas R, Cappelli G, and Gerritsen KGF

Subjects

Animals, Anion Exchange Resins chemistry, Anion Exchange Resins standards, Catheters standards, Chlorides blood, Chlorides urine, Creatinine urine, Female, Peritoneal Dialysis instrumentation, Phosphates blood, Phosphates urine, Potassium blood, Potassium urine, Swine, Urea blood, Urea urine, Peritoneal Dialysis methods, Uremia therapy

Abstract

A system for sorbent-assisted peritoneal dialysis (SAPD) has been developed that continuously recirculates dialysate via a tidal mode using a single-lumen peritoneal catheter with the regeneration of spent dialysate by means of sorbents. SAPD treatment may improve plasma clearance by the maintenance of a high plasma-to-dialysate concentration gradient and by increasing the mass transfer area coefficient (MTAC) of solutes. The system is designed for daily 8-hr treatment (12 kg, nighttime system). A wearable system (2.3 kg, daytime system) may further enhance the clearance of phosphate and organic waste solutes during the day. Uremic pigs (n = 3) were treated with the day- (n = 3) and nighttime system (n = 15) for 4-8 hr per treatment. Plasma clearance (Cl), MTAC, and total mass transport (MT) of urea, creatinine, phosphate, and potassium were compared with a static dwell (n = 28). Cl, MTAC, and MT of urea, creatinine, phosphate, and potassium were low in the pig as compared to humans due to the pig's low peritoneal transport status and could be enhanced only to a limited extent by SAPD treatment compared with a static dwell (nighttime system: Cl urea: ×1.5 (p = .029), Cl creatinine: ×1.7 (p = .054), Cl phosphate: ×1.5 (p = .158), Cl potassium: ×1.6 (p = .011); daytime system: Cl creatinine: ×2.7 (p = .040), Cl phosphate: ×2.2 (p = .039)). Sorbent-assisted peritoneal dialysis treatment in a uremic pig model is safe and enhances small solute clearance as compared to a static dwell. Future studies in humans or animal species with higher peritoneal transport should elucidate whether our SAPD system enhances clearance to a clinically relevant extent as compared to conventional PD., (© 2020 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society.)

Published

2020