Comparison of peritonitis incidence in CAPD and automated peritoneal dialysis

Carlo Basile and Francesco De Padova

Division of Nephrology and Dialysis Hospital of Martina Franca Italy

Sir,

We read with interest the paper by Huang et al. [1]. Their results show that the incidence of peritonitis in patients using automated peritoneal dialysis (APD) is significantly lower than that of patients using CAPD based on Y-disconnect systems [1]. These results allow them to conclude that, since reducing the peritonitis rate helps to maintain technical survival during peritoneal dialysis (PD), from this viewpoint, APD may be preferred for patients undergoing PD.

This paper prompted us to conduct an observational study in order to compare CAPD with APD in terms of peritonitis incidence in our PD programme in which CAPD is the first and, in the majority of cases, the only PD therapy. APD may be adopted only afterwards, exclusively for two clinical reasons, namely reduction or loss of ultrafiltration rate and/or reduction of dialysis efficiency, i.e. weekly Kt/Vurea<2.0. Peritonitis was defined according to the criteria also adopted by Huang et al. [1]. The same staff, blind perimedial catheter implantation, postoperative management, medical care and training have been applied since the start of our PD programme in January 1993. The present observational study started in January 1996 in order to avoid the potential bias of a lesser quality in the first 3 years of our PD programme. The results are shown in Tables 1Go and 2Go. They are completely different from those given by Huang et al. and lead us to conclusions opposite to theirs [1]. In our centre, peritonitis episodes were actually more frequently observed with APD than with CAPD. This was true for comparisons between all CAPD-treated and APD-treated patients (Table 1Go) and also for the smaller subgroup of patients who had been transferred from CAPD to APD treatment (Table 2Go). Actually, reported comparisons of peritonitis incidence in CAPD and APD are contradictory and difficult to interpret for several reasons. One of these is that peritonitis incidence is extremely variable in different studies, indicating marked differences in patient selection criteria and dialysis procedures [15]. Differences in other risk factors for peritonitis are a second likely explanation for these discrepancies [15]. Thus, prospective randomized studies are mandatory to overcome these limitations. However, to the best of our knowledge only two prospective randomized studies have been designed to test the hypothesis of a potential difference between the effects of APD and CAPD on clinical outcomes; the first one was able to show a lower peritonitis rate for APD-treated patients [6]; the second one was unable to demonstrate such results, probably due to a small patient sample size [7].


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Table 1. Comparison of peritonitis (P) incidence between the whole group of 68 patients on CAPD and the group of 17 patients transferred from CAPD to APD

 

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Table 2. Peritonitis (P) incidence in the group of 17 patients transferred from CAPD to APD. The analysis has been made comparing P incidence when on CAPD and when on APD treatment, respectively

 
Thus, our conclusions are that, at the present time, in the absence of clear-cut data based on prospective randomized studies, the indications for APD should not include a reduced peritonitis incidence, compared with the incidence observed with CAPD.

References

  1. Huang JW, Hung KY, Yen CJ, Wu KD, Tsai TJ. Comparison of infectious complications in peritoneal dialysis patients using either a twin-bag system or automated peritoneal dialysis. Nephrol Dial Transplant2001; 16: 604–607[Abstract/Free Full Text]
  2. Korbet SM, Vonesh EF, Firanek CA. Peritonitis in a urban peritoneal dialysis program: an analysis of infecting pathogens. Am J Kidney Dis1995; 26: 47–53[ISI][Medline]
  3. Holley JL, Bernardini J, Piraino B. Continuous cycling peritoneal dialysis is associated with lower rates of catheter infections than continuous ambulatory peritoneal dialysis. Am J Kidney Dis1990; 216: 133–136
  4. Williams P, Cartmel L, Hollis J. The role of automated peritoneal dialysis in an integrated dialysis programme. Br Med Bull1997; 53: 697–705[Abstract]
  5. Rodriguez-Carmona A, Fontán MP, Falcón TG, Rivera CF, Valdés F. A comparative analysis on the incidence of peritonitis and exit-site infection in CAPD and automated peritoneal dialysis. Perit Dial Int1999; 19: 253–258[ISI][Medline]
  6. De Fijter CWH, Oe LP, Nauta JJP et al. Clinical efficacy and morbidity associated with continuous cyclic compared with continuous ambulatory peritoneal dialysis. Ann Intern Med1994; 120: 264–271[Abstract/Free Full Text]
  7. Bro S, Bjorner JB, Jensen PT et al. A prospective, randomized multicenter study comparing APD and CAPD treatment. Perit Dial Int1999; 19: 526–533[ISI][Medline]




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