Dialysate based assessment of the delivered dose of dialysis offers se
veral advantages over blood sampling methods as it remains accurate in
the face of fistula recirculation, urea rebound, variable blood flow
and incorrect treatment time. Kt/V is calculated from the slope of the
decline in urea concentration in the dialysate over the course of the
treatment. By equilibrating dialysate with blood at the initiation of
the treatment an estimate of pre-dialysis blood urea and the volume o
f distribution for urea (V) can be obtained. We performed Kt/V assessm
ents on 20 in-centre haemodialysis patients using the Baxter Biostat 1
000(R) dialysate urea monitor and compared the results with urea reduc
tion ratios and Kt/V calculated by the formula of Basile. In addition,
in 11 of these patients, V and pre-dialysis urea was derived and comp
ared to total body water estimates using D2O. The mean Kt/V by Biostat
was 1.11 +/- 0.23 and by formula was 1.23 +/- 0.16 (P < 0.005, Studen
t's paired t-test). The lab pre-dialysis urea was 24.4 +/- 6.2 mmol/L
compared to the Biostat result of 23.9 +/- 5.9 (when corrected for pla
sma water), with the mean difference of the techniques being -0.53 mmo
l/L (95% CI -0.36 - 1.42). For V, the D2O result was 36.7 +/- 9.7 litr
es, compared to the Biostat result of 37.9 +/- 9.6. The mean differenc
e of the techniques by Bland and Altman analysis (or bias of the Biost
at) was 1.2 L (95% CI -0.9 - 3.3) and the limits of agreement were -5.
2 - 7.6 L,. Thus the Biostat provides easy access to dialysis adequacy
data and gives a reasonable assessment of V, tending to overestimate
this value.