107 research outputs found
Prognosis and serum creatinine levels in acute renal failure at the time of nephrology consultation: an observational cohort study
The aim of this study is to evaluate the association between acute
serum creatinine changes in acute renal failure (ARF), before specialized
treatment begins, and in-hospital mortality, recovery of renal function, and
overall mortality at 6 months, on an equal degree of ARF severity, using the
RIFLE criteria, and comorbid illnesses. METHODS: Prospective cohort study of 1008
consecutive patients who had been diagnosed as having ARF, and had been admitted
in an university-affiliated hospital over 10 years. Demographic, clinical
information and outcomes were measured. After that, 646 patients who had
presented enough increment in serum creatinine to qualify for the RIFLE criteria
were included for subsequent analysis. The population was divided into two groups
using the median serum creatinine change (101%) as the cut-off value.
Multivariate non-conditional logistic and linear regression models were used.
RESULTS: A >or= 101% increment of creatinine respect to its baseline before
nephrology consultation was associated with significant increase of in-hospital
mortality (35.6% vs. 22.6%, p < 0.001), with an adjusted odds ratio of 1.81 (95%
CI: 1.08-3.03). Patients who required continuous renal replacement therapy in the
>or= 101% increment group presented a higher increase of in-hospital mortality
(62.7% vs 46.4%, p = 0.048), with an adjusted odds ratio of 2.66 (95% CI:
1.00-7.21). Patients in the >or= 101% increment group had a higher mean serum
creatinine level with respect to their baseline level (114.72% vs. 37.96%) at
hospital discharge. This was an adjusted 48.92% (95% CI: 13.05-84.79) more serum
creatinine than in the < 101% increment group. CONCLUSION: In this cohort,
patients who had presented an increment in serum level of creatinine of >or= 101%
with respect to basal values, at the time of nephrology consultation, had
increased mortality rates and were discharged from hospital with a more
deteriorated renal function than those with similar Liano scoring and the same
RIFLE classes, but with a < 101% increment. This finding may provide more
information about the factors involved in the prognosis of ARF. Furthermore, the
calculation of relative serum creatinine increase could be used as a practical
tool to identify those patients at risk, and that would benefit from an intensive
therapy
Study Protocol - Accurate assessment of kidney function in Indigenous Australians: aims and methods of the eGFR Study
Background: There is an overwhelming burden of cardiovascular disease, type 2 diabetes and chronic kidney disease among Indigenous Australians. In this high risk population, it is vital that we are able to measure accurately kidney function. Glomerular filtration rate is the best overall marker of kidney function. However, differences in body build and body composition between Indigenous and non-Indigenous Australians suggest that creatinine-based estimates of glomerular filtration rate derived for European populations may not be appropriate for Indigenous Australians. The burden of kidney disease is borne disproportionately by Indigenous Australians in central and northern Australia, and there is significant heterogeneity in body build and composition within and amongst these groups. This heterogeneity might differentially affect the accuracy of estimation of glomerular filtration rate between different Indigenous groups. By assessing kidney function in Indigenous Australians from Northern Queensland, Northern Territory and Western Australia, we aim to determine a validated and practical measure of glomerular filtration rate suitable for use in all Indigenous Australians
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