Hypertension Clinical Trial
Official title:
Molecular Mechanisms of Disease Progression and Renoprotective Pharmacotherapy in Children With Chronic Renal Failure
In children with chronic kidney disease, progression to end-stage renal failure is associated with high patient morbidity and poor quality of life. In adults, inhibition of the renin angiotensin system (RAS) slows down the rate of renal failure progression. This concept is as yet unproven in children, in whom chronic renal failure (CRF) is more commonly due to hypo/dysplastic malformations than to acquired glomerulopathies as typical for adult chronic kidney disease. The current project aims at assessing the genetic and molecular mechanisms and cardiovascular consequences of progressive CRF and to develop a strategy of pharmacological renoprotection in children.
Chronic kidney diseases affecting the nephron mass are characterized by a progressive
decline of glomerular filtration rate (GFR) occurring irrespectively of the cause of the
renal damage once a critical number of nephrons has been lost. Current clinical research
efforts focus on preventive strategies to slow down or arrest disease progression. Systemic
hypertension and glomerular hyperfiltration with resulting proteinuria and activation of
vasoactive, profibrotic and proinflammatory systems have been identified as major causes of
further nephron damage. Angiotensin converting enzyme (ACE) inhibitors are not only potent
antihypertensive agents but also reduce proteinuria, glomerulosclerosis and
tubulointerstitial fibrosis via reduction of the local angiotensin tone in the kidney, and
have been demonstrated to slow down renal failure progression in adult patients.
Childhood-onset ESRD is a rare but particularly devastating disease with poor life
expectancy and quality of life. Chronic renal failure in children is caused by a different
spectrum of nephropathies than in adults, with a preponderance of congenital or inherited
abnormalities. Since hypertension, proteinuria and tubulointerstitial fibrosis are also
common in pediatric chronic renal failure, there is a rationale for pharmacological
renoprotection by ACE inhibition in children. The prospective, randomized European clinical
trial launched by our consortium will provide the critical mass to assess several aspects of
renoprotective therapy in children. Specifically, the trial is designed to address the
following scientific objectives:
Objective 1 is to evaluate whether ACE inhibition is equally effective in slowing down the
progression rate of chronic renal failure in children with different congenital and acquired
renal disorders. 400 pediatric patients will be stratified according to their underlying
diseases, and the rate of loss in glomerular filtration rate will be assessed from 6 months
before to 5 years after start of treatment with the ACE inhibitor ramipril.
Objective 2 of the trial is to evaluate whether renal failure progression in patients
treated with a fixed dose of ramipril can be further slowed down by additional
antihypertensive treatment, achieving a blood pressure below the 50th percentile. To this
end, patients will be randomized upon initiation of ramipril to either intensified (aiming
below 50th percentile of 24-hour mean arterial pressure) or conventional antihypertensive
treatment.
Several gene polymorphisms have been described that may affect the rate of renal failure
progression and/or the individual susceptibility to ACE inhibition. These polymorphisms
include genes encoding for key proteins of the renin-angiotensin system and extracellular
matrix turnover. In addition, we will screen for novel polymorphisms in genes determining
structural proteins of the glomerular filter, and search for gene mutations causing renal
hypo-/dysplasia. Objective 3 is to evaluate whether any of these mutations predict
spontaneous disease progression and the therapeutic response to ACE inhibition and
intensified blood pressure control.
Glomerular endothelin (ET1) synthesis is upregulated in chronic renal failure, and urinary
ET1 excretion is correlated with disease progression. ET1 antagonists partially preserve
renal function and decrease proteinuria independent of the angiotensin tone. Objective 4 of
the trial is to assess ET1 turnover before and after start of ACE inhibition, and to
evaluate a possible predictive role of ET1 and/or ET1 degrading peptidase excretion for the
persistence of proteinuria and disease progression during ACE inhibition and intensified
antihypertensive therapy.
Long-term survival of children with chronic renal failure is compromised by precocious
atherosclerosis and excessive cardiovascular morbidity. Objective 5 is to assess and
correlate prospectively the metabolic causes and morphological consequences of uremic
cardiovascular disease in children, and to define their relationship with disease
progression during ACE inhibition and intensified blood pressure control. Homocysteine
metabolism, apolipoprotein variability, gene polymorphisms putatively involved in
atherosclerosis, inflammation states, myocardial function and carotid intima-media thickness
will be assessed and compared to a reference group of age-matched healthy children.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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