scholarly journals Catheter Access Management for Acute Peritoneal Dialysis

2020 ◽  
Vol 10 (1) ◽  
pp. 35-41
Author(s):  
Mohamed Amine Rahil ◽  
Achour Bouzgueg

Insertion of a peritoneal dialysis (PD) catheter is frequently done by interventional nephrologists, but these procedures are typically only performed for adults. Almost all invasive procedures in children are performed by pediatric surgeons. If a pediatric surgeon is unavailable, the initiation of PD in acute situations may be delayed, thus increasing the risk of complications and chronic kidney disease. For these patients, the main obstacle to initiating renal replacement therapy is access, even when involving central vein catheter (CVC) or peritoneal access. Here we report the case of a 10-kg baby affected by hemolytic and uremic syndrome diarrhea in whom all of the procedures to manage the complications of acute kidney injury (PD catheter insertion, PD catheter revision, CVC placement, and CVC revision) were undertaken by interventional nephrologists. This experience allowed us to rapidly treat the acute kidney injury, recover normal kidney function thereby avoiding chronic complications, and allowing us to discharge the baby from the intensive care unit.

2017 ◽  
Vol 6 (2) ◽  
pp. 11-14
Author(s):  
NK Sarker ◽  
M Hanif ◽  
MA Rouf ◽  
PK Sarkar ◽  
S Mahmud ◽  
...  

Background: The choices for renal replacement therapy (RRT) in children with acute kidney injury (AKI) are limited in developing countries. Peritoneal dialysis (PD) is the preferred and convenient treatment modality for acute kidney injury (AKI) in children and hemodynamically unstable patients.Methods: This is a cross sectional descriptic type of observational study of children who underwent PD for AKI in 43 children (27 boys) in nephrology department of Dhaka Shishu (children) Hospital from January 2013 to December 2013.Result: The study included 43 children (62.8 % male). Mean age was 2 ± 1.07 years, with the youngest being 2 months, and the oldest, 14 years. Most common causes was septicaemia (25.6%) and hypovolumia (25.6%) followed by unknown etiology (16.2%), glomerulonephritis (11.6%), wasp sting (9.3%) and hemolytic uremic syndrome (7%). Overall mortality was 32.5%, most common in unknown etiology and high in male but not statistically significant (p=0.42).Conclusions: In the developing countries, PD can be successfully performed for the management of childhood AKI. Septicaemia and hypovolumia are the leading causes of AKI, however mortality higher in male and unknown etiology.Anwer Khan Modern Medical College Journal Vol. 6, No. 2: July 2015, P 11-14


2020 ◽  
Vol 1 (2) ◽  
pp. 01-05
Author(s):  
Seba Atmane

The aim of the study is to show the etiologies and the follow-up of our AKI cases. This was conducted in our hospital, between 2015 and 2018. During this period we included 26 children with AKI (64% femals) with a median age of 7 years (range 40 days to 15 years). In the majority of the cases revealed by digestive signs and that related to the etiology of AKI (Hemolytic Uremic Syndrome post diarrhea). In our study, 44% of the patients have thrombocytopenia associated with AKI. The etiology of AKI is : Nephropathy glomerular in 37% hemolytic and uremic syndrom in 54% and obstructive nephropathy in 9%. Patients survived in 92 % of the cases and 58% of them have recovered normal kidney function, 7% of death. Peritoneal dialysis is the most commonly used emergency treatment for AKI in children at a frequency of 37%., hemodialysis was used less.


2012 ◽  
Vol 32 (4) ◽  
pp. 431-436 ◽  
Author(s):  
Om P. Mishra ◽  
Aditya K. Gupta ◽  
Vishal Pooniya ◽  
Rajniti Prasad ◽  
Narendra K. Tiwary ◽  
...  

BackgroundPeritoneal dialysis (PD) is the preferred and convenient treatment modality for acute kidney injury (AKI) in children and hemodynamically unstable patients.MethodsThe outcome of acute PD was studied in 57 children (39 boys) with AKI, aged 1 month to 12 years, at a tertiary care center of a teaching hospital in India.ResultsHemolytic uremic syndrome (36.8%) was the most common cause of AKI, followed by septicemia (24.6%) and acute tubular necrosis (19.3%). Treatment with PD was highly effective in lowering retention markers ( p < 0.001). Overall mortality was 36.8%. The risk of mortality by multivariate analysis was higher when patients were anuric [odds ratio (OR): 8.2; 95% confidence interval (CI): 1.3 to 49; p < 0.05], had septicemia (OR: 3.79; 95% CI: 1.55 to 25.8; p < 0.05), or severe infectious complications (OR: 8.2; 95% CI: 1.5 to 42.9; p < 001).ConclusionsBecause of its simplicity and feasibility, acute PD is still an appropriate treatment choice for children with AKI in resource-poor settings. Septicemia and severity of AKI are contributory factors to high mortality in pediatric acute kidney injury.


2021 ◽  
pp. 089686082098212
Author(s):  
Peter Nourse ◽  
Brett Cullis ◽  
Fredrick Finkelstein ◽  
Alp Numanoglu ◽  
Bradley Warady ◽  
...  

Peritoneal dialysis (PD) for acute kidney injury (AKI) in children has a long track record and shows similar outcomes when compared to extracorporeal therapies. It is still used extensively in low resource settings as well as in some high resource regions especially in Europe. In these regions, there is particular interest in the use of PD for AKI in post cardiac surgery neonates and low birthweight neonates. Here, we present the update of the International Society for Peritoneal Dialysis guidelines for PD in AKI in paediatrics. These guidelines extensively review the available literature and present updated recommendations regarding peritoneal access, dialysis solutions and prescription of dialysis. Summary of recommendations 1.1 Peritoneal dialysis is a suitable renal replacement therapy modality for treatment of acute kidney injury in children. (1C) 2. Access and fluid delivery for acute PD in children. 2.1 We recommend a Tenckhoff catheter inserted by a surgeon in the operating theatre as the optimal choice for PD access. (1B) (optimal) 2.2 Insertion of a PD catheter with an insertion kit and using Seldinger technique is an acceptable alternative. (1C) (optimal) 2.3 Interventional radiological placement of PD catheters combining ultrasound and fluoroscopy is an acceptable alternative. (1D) (optimal) 2.4 Rigid catheters placed using a stylet should only be used when soft Seldinger catheters are not available, with the duration of use limited to <3 days to minimize the risk of complications. (1C) (minimum standard) 2.5 Improvised PD catheters should only be used when no standard PD access is available. (practice point) (minimum standard) 2.6 We recommend the use of prophylactic antibiotics prior to PD catheter insertion. (1B) (optimal) 2.7 A closed delivery system with a Y connection should be used. (1A) (optimal) A system utilizing buretrols to measure fill and drainage volumes should be used when performing manual PD in small children. (practice point) (optimal) 2.8 In resource limited settings, an open system with spiking of bags may be used; however, this should be designed to limit the number of potential sites for contamination and ensure precise measurement of fill and drainage volumes. (practice point) (minimum standard) 2.9 Automated peritoneal dialysis is suitable for the management of paediatric AKI, except in neonates for whom fill volumes are too small for currently available machines. (1D) 3. Peritoneal dialysis solutions for acute PD in children 3.1 The composition of the acute peritoneal dialysis solution should include dextrose in a concentration designed to achieve the target ultrafiltration. (practice point) 3.2  Once potassium levels in the serum fall below 4 mmol/l, potassium should be added to dialysate using sterile technique. (practice point) (optimal) If no facilities exist to measure the serum potassium, consideration should be given for the empiric addition of potassium to the dialysis solution after 12 h of continuous PD to achieve a dialysate concentration of 3–4 mmol/l. (practice point) (minimum standard) 3.3  Serum concentrations of electrolytes should be measured 12 hourly for the first 24 h and daily once stable. (practice point) (optimal) In resource poor settings, sodium and potassium should be measured daily, if practical. (practice point) (minimum standard) 3.4  In the setting of hepatic dysfunction, hemodynamic instability and persistent/worsening metabolic acidosis, it is preferable to use bicarbonate containing solutions. (1D) (optimal) Where these solutions are not available, the use of lactate containing solutions is an alternative. (2D) (minimum standard) 3.5  Commercially prepared dialysis solutions should be used. (1C) (optimal) However, where resources do not permit this, locally prepared fluids may be used with careful observation of sterile preparation procedures and patient outcomes (e.g. rate of peritonitis). (1C) (minimum standard) 4. Prescription of acute PD in paediatric patients 4.1 The initial fill volume should be limited to 10–20 ml/kg to minimize the risk of dialysate leakage; a gradual increase in the volume to approximately 30–40 ml/kg (800–1100 ml/m2) may occur as tolerated by the patient. (practice point) 4.2 The initial exchange duration, including inflow, dwell and drain times, should generally be every 60–90 min; gradual prolongation of the dwell time can occur as fluid and solute removal targets are achieved. In neonates and small infants, the cycle duration may need to be reduced to achieve adequate ultrafiltration. (practice point) 4.3 Close monitoring of total fluid intake and output is mandatory with a goal to achieve and maintain normotension and euvolemia. (1B) 4.4 Acute PD should be continuous throughout the full 24-h period for the initial 1–3 days of therapy. (1C) 4.5  Close monitoring of drug dosages and levels, where available, should be conducted when providing acute PD. (practice point) 5. Continuous flow peritoneal dialysis (CFPD) 5.1   Continuous flow peritoneal dialysis can be considered as a PD treatment option when an increase in solute clearance and ultrafiltration is desired but cannot be achieved with standard acute PD. Therapy with this technique should be considered experimental since experience with the therapy is limited. (practice point) 5.2  Continuous flow peritoneal dialysis can be considered for dialysis therapy in children with AKI when the use of only very small fill volumes is preferred (e.g. children with high ventilator pressures). (practice point)


2021 ◽  
pp. 112972982093242
Author(s):  
N Pirozzi ◽  
L De Alexandris ◽  
J Scrivano ◽  
L Fazzari ◽  
J Malik

Dialysis access-related distal ischaemia is a rare yet potentially rather risky complication of haemodialysis angioaccess. Timely diagnosis is crucial to target both the goals of the access team: first of all to preserve the function of the hand ideally along with angioaccess patency. Unfortunately for some patients, urgent access ligation and central vein catheter insertion would be needed to save the hand. After a first clinical examination to determine the diagnostic suspicion, the ultrasound evaluation would provide nearly all the needed information to confirm the diagnosis and to determine the most appropriate procedure to rescue the patient from distal ischaemia. In some cases, photoplethysmography would help in the differential diagnosis of other non-ischaemic causes of similar signs and symptoms. Angiography would complete the preoperative evaluation for some. Dialysis access-related distal ischaemia would be briefly reviewed, and a deep description of the ultrasound examination tools and findings would be provided for a tailored therapeutic approach.


2020 ◽  
Vol 40 (5) ◽  
pp. 506-515
Author(s):  
Zhikai Yang ◽  
Jie Dong ◽  
Li Yang

Author(s):  
M. Kolesnyk ◽  
N. Stepanova

This article is a review of the literature. Peritoneal dialysis (PD) was the first method of dialysis renal replacement therapy (DRRT), used for the treatment of patients with acute kidney injury (AKI). PD is able to correct metabolic, electrolyte, acid-alkali disorders and hypervolemia in patients with AKI. Continuous equilibration PD and continuous flow PD can provide of dialysis dose compared with extracorporeal methods of DRRT. However, PD is considered less effective than hemodialysis. In this regard, PD has used in patients with AKI, especially those who are hemodynamically unstable or at risk of bleeding because of severe coagulation abnormalities, in infants and children with AKI, and in patients with circulatory failure.


KIDNEYS ◽  
2021 ◽  
Vol 10 (3) ◽  
pp. 176-178
Author(s):  
Peter Nourse ◽  
Brett Cullis ◽  
Fredrick Finkelstein ◽  
Alp Numanoglu ◽  
Bradley Warady ◽  
...  

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