Patient preparation is often limited due to the need to act urgently. Where time permits, pre-procedure preparation should include mapping an exit site location and attempts to minimise constipation. Bowel preparation regimens vary by institution but stools should be liquid at the time of catheter insertion if possible. The bladder should be empty to reduce the risk of bladder injury.

Depending on the technique chosen, PD catheter insertion may occur at the bedside, in a fluoroscopy suite or operating theatre; a clean workspace and sterile precautions are mandatory. Peri-procedural intravenous antibiotic prophylaxis is recommended.21

Patients with ESKD who are known to the nephrology service and are electively commencing therapy may be suitable for outpatient USPD if appropriate arrangements are in place.22

PD catheters are broadly separated into rigid non-cuffed catheters or flexible cuffed catheters. Rigid non-cuffed catheters can be expeditiously placed into the peritoneal cavity at the bedside and may provide lifesaving dialysis access, however their use is declining and is largely restricted to resource-limited settings. These straight, non-tunnelled catheters are temporary and can only be left in place for a few days due a high incidence of peritonitis. Other options in exceptional circumstances include improvised nasogastric tubes and surgical drains.29

Tunnelled Tenckhoff PD catheters are the preferred choice for USPD when available.21,29 They are silicone-plastic cuffed catheters which are increasingly available and, compared to older rigid catheters, associated with fewer complications and better function.14 Various Tenckhoff catheter designs are used however none has been conclusively shown to be superior to the others1; double-cuffed catheters are generally preferred based on outcomes in chronic PD patients.1,20

Tenckhoff catheters may be implanted using both percutaneous and surgical methods. There appears to be no significant difference in clinical outcomes between insertion techniques.3,21,29,35–37 However, percutaneous catheter placement has been associated with improved cost-effectiveness and logistical efficiency.18,31,37 The most important factors dictating success are probably local experience and resources.3,21,29,36 Outcomes are comparable across operators, including interventional nephrologists, radiologists and surgeons.21,29,37

A primary deterrent to broader acceptance of USPD has been concern for increased risk of early mechanical complications. A systematic review of 15 observational studies and 1 randomised controlled trial found that, compared to a conventional strategy of waiting at least 2 weeks before PD catheter use, an urgent-start approach is associated with increased risk of peri-catheter dialysate leak (RR 3.90, 95% CI 1.56–9.78).61 In the randomised trial, 122 patients in a large tertiary centre in Australia were randomly assigned to commence PD at 1-week, 2-weeks and 4-weeks from catheter placement; the trial was stopped early due to a higher rate of complications in the 1-week group.18 Fluid leak occurred in 28.2% of the group commencing PD at 1-week, 9.5% at 2-weeks, and 2.4% at 4-weeks; differences were statistically significant. The mean time to leak onset was also significantly shorter in the 1-week group. Furthermore, 21% of patients in the 1-week group required temporary bridging with HD while only 5% converted to HD in the 2-week group.24 The risk of peri-catheter leak has not been shown in retrospective studies to be correlated with dwell volume.62–64

Compared to conventional planned PD, USPD does not appear to be associated with an increased incidence of catheter obstruction, migration, malposition, or need for catheter readjustment, nor poor effluent drainage, exit site infection, peritonitis, or bleeding.3,61,65,66 However, the risk of infection may be higher in the presence of dialysate leak.61 The incidence of early catheter flow problems is approximately 20% with both strategies.25,67

The literature suggests equivalent patient-oriented outcomes between USPD and the traditional method of commencing PD more than 2 weeks after catheter placement. There is no demonstrable difference in short-term mortality, hospitalisations, or technique survival, although observational series show that patients treated with USPD receive lower mean dwell volumes and overall dialysis dose than those managed with a conventional-start approach.5,11,61,65,66,68 There is also no significant difference between USPD and conventional-start PD with respect to longer-term mortality or technique survival,5,61,62,69 though USPD may be associated with a shorter time to first rehospitalisation and a greater number of days spent in hospital at 12-months.5 Patient satisfaction has not been studied.

Data comparing USPD with urgent HD is difficult to interpret due to considerable study heterogeneity.

There are no randomised trials comparing USPD and urgent HD in patients with ESKD, although one is currently underway.70 A Cochrane systematic review of 7 cohort studies reported equivalent technique survival, patient survival, and hospitalisation rate in both groups, but a lower incidence of bacteraemia with USPD versus acute HD.71 HD achieves superior dialysis adequacy25 and is associated with shorter hospital admission time,7 although USPD appears to be cheaper.56,58,72

A randomised trial from Vietnam reported in 2002 compared USPD to continuous renal replacement therapy (CRRT) in 70 patients with AKI and severe sepsis.34 Patients assigned to the USPD group had a mortality rate of 47% compared to 15% in the CRRT group (OR 5.1, 95% CI 1.6–16.0). Metabolic control, including clearance of creatinine and lactate and resolution of acidosis, was achieved significantly earlier in the CRRT group, and dialysis duration was shorter. The study was terminated early for safety reasons. CRRT was also more cost-effective than USPD in this trial.9,34 There are several important caveats to the study findings. Temporary rigid catheters were used as opposed to modern Tenckhoff catheters and exchanges were performed manually and were poorly documented; that said, the PD schedule was aggressive at approximately 70L of dialysate per day and the incidence of peritonitis was negligible.

A subsequent randomised trial enrolled 120 patients with AKI in Brazil, predominantly with acute tubular necrosis from sepsis or heart failure, to USPD or urgent daily intermittent HD.10 It showed no difference in mortality or infectious complications, equal control of biochemical parameters, and earlier recovery of renal function in the USPD group. Measured dialysis adequacy was lower in the USPD arm. There were methodological differences between this trial and the Vietnamese trial which potentially explain the observed outcomes for USPD. The Brazilian study excluded patients who were critically unwell or who had emergency indications for dialysis whereas the Vietnamese trial included all-comers; this subset of patients has historically received HD in most centres. The Brazilian study prescribed high-volume PD using flexible Tenckhoff catheters and automated cyclers, and patients in the intermittent HD group were assigned comparatively small treatment doses.

In patients with AKI, data from a number of other small studies suggest similar long-term mortality,5,21,38,57,73 time to recovery of renal function,38,74 haemodynamic tolerance, and cost70 between USPD and urgent HD. Ultrafiltration and dialysis adequacy are greater with HD while control of hyperkalaemia and acidosis is variable.1,21,57,75,76 It is important to recognise that many studies are confounded by selection bias and patients with life-threatening indications for dialysis were mainly excluded.77

In the early phases of USPD, regular reassessment of clinical status and blood biochemistry is important, and attentive, individualised PD titration is required. Bowel habits must be monitored and aperients administered to avoid constipation. Catheter nursing care should be protocolised. Patients that develop early complications such as peri-catheter fluid leak may require cessation of PD, potentially necessitating temporary conversion to HD.63

A determination of when to discontinue PD must be made for patients with AKI while individuals commencing chronic therapy should be transitioned to an outpatient dialysis facility when appropriate, to continue nurse-led education and training and to establish a maintenance PD prescription in consultation with the treating nephrologist.