Chronic Renal Failure Clinical Trial
Official title:
A Correlation Between Histological Findings of the Blood Vessels in Patients With Chronic Renal Failure and Serum Uremic Toxins and Its Diagnostic Performance in the Assessment of the Cardiovascular Morbidity and Mortality
Patients treated by chronic renal replacement therapy are exposed to cardiovascular problems
and suffer from an accelerated and sever atherosclerosis. Classical risk factors for
atherosclerosis and cardiovascular diseases (CVD) do not explain the full risk of CVD in the
dialysis patients. Additional risk factors are therefore likely to exist. The uremic
syndrome is attributed to the progressive retention of a large number of compounds, which
under normal conditions are excreted by the healthy kidneys. Uremic toxins such are
parathormone (PTH), vitamin D and phosphates, cause development of renal osteodystrophy
(ROD), i.e. disordered calcium and phosphate metabolism. Both conditions of hyperparathyroid
and adynamic bone disease (ABD) lead to an elevated calcium x phosphate product and
increased vascular calcification, which might occur in intimal and medial layer of the
vessel wall. It is important to consider these processes separately, as the vascular
consequences (occlusion with atheromatosis and vascular stiffening through medial
calcification) are different. Moreover, the difference between uremic and non-uremic intimal
plaque is not the size but its composition, with markedly increased calcium content. Hence,
these observations have an important socio-economic impact because of the increased
cardiovascular morbidity and mortality.
The investigators hypothesized that uremic toxins in dialysis patients influence directly
and/or indirectly the development of atherosclerosis, vascular calcifications and CVD.
Rationale: Patients treated by chronic renal replacement therapy are exposed to
cardiovascular problems and suffer from an accelerated and sever atherosclerosis. Classical
risk factors for atherosclerosis and cardiovascular diseases (CVD) do not explain the full
risk of CVD in the dialysis patients. Additional risk factors are therefore likely to exist.
The uremic syndrome is attributed to the progressive retention of a large number of
compounds, which under normal conditions are excreted by the healthy kidneys. Uremic toxins
such are parathormone (PTH), vitamin D and phosphates, cause development of renal
osteodystrophy (ROD), i.e. disordered calcium and phosphate metabolism. Both conditions of
hyperparathyroid and adynamic bone disease (ABD) lead to an elevated calcium x phosphate
product and increased vascular calcification, which might occur in intimal and medial layer
of the vessel wall. It is important to consider these processes separately, as the vascular
consequences (occlusion with atheromatosis and vascular stiffening through medial
calcification) are different. Moreover, the difference between uremic and non-uremic intimal
plaque is not the size but its composition, with markedly increased calcium content. Hence,
these observations have an important socio-economic impact because of the increased
cardiovascular morbidity and mortality.
Hypothesis: We hypothesized that uremic toxins in dialysis patients influence directly
and/or indirectly the development of atherosclerosis, vascular calcifications and CVD.
Objectives:
To asses the histology of arterial vessels in patients with end-stage renal failure and to
evaluate its relationship with serum uremic toxins.
To determine the biochemical and clinical risk factors that might influence the development
of vascular calcifications and their diagnostic performance in the assessment of CVD
morbidity and mortality.
Methods: A cross-sectional study will be conducted at the Department of Nephrology Skopje.
After the initial assessment patients will be followed for 2 years as the prospective part
of the study.
Seventy-five to ninety patients will be included, during one-year period or until proposed
number of patients is recruited. The study cohort will be divided to 3 subgroups: 1)
patients at the initiation of dialysis therapy, 2) patients on regular dialysis treatment
for a few years and 3) patients undergoing renal transplantation. During the follow-up
period cardiovascular and cerebrovascular events and the moment of their occurrence will be
recorded, as well as the peripheral vascular diseases. Moreover, clinical, laboratory data
and arterial vessel samples for histology will be collected at the moment of inclusion.
Expected outcomes: We expect the determination of high correlation coefficient between
histological parameters and various uremic toxins, which are responsible for development
atherosclerosis and vascular calcifications, leading to an accelerated progression of CVD in
dialysis patients. This determination could help to design new preventive therapeutic tools
in these patients. The result of this work will impose a positive impact on quality of life
and therapeutic costs related to atherosclerosis not only in the dialysis populations but
also in the pre-dialysis chronic renal failure populations and kidney transplant recipients.
;
Observational Model: Case-Crossover, Time Perspective: Prospective
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