Trials / Completed

CompletedNCT03520738

Tissue-nonspecific Alkaline Phosphatase in Phosphate and Pyrophosphate Homeostasis.

Arterial Calcifications: Role of Tissue-nonspecific Alkaline Phosphatase in Phosphate and Pyrophosphate Homeostasis. PIPAL Study.

Summary

Vascular calcification is a common finding in chronic kidney disease and increases arterial stiffness leading to augmented cardiovascular morbidity. The calcification process is thoroughly regulated by pro and anticalcifying agents. The investigators hypothesize that imbalance in these compounds could depend on alkaline phosphatase activity. Therefore, the investigators will measure ALP activity, calcifications score, arterial stiffness and perform a bio-collection in monogenic rare diseases characterized by various levels of anticalcifying agents and in diverse CKD stages characterized by various levels of procalcifying compounds.

Detailed description

Chronic kidney disease (CKD) describes the gradual loss of kidney function from stage 1 (normal renal function) to stage 5 requiring maintenance dialysis or kidney transplantation (KT). Vascular calcification in CKD is a common finding and increases arterial stiffness leading to increased cardiovascular morbidity. The calcification process is the same for bones and arteries and is thoroughly regulated by pro and anticalcifying agents. Actually, inorganic phosphates (Pi) accelerate the calcification process and their levels are found increased in advanced CKD stage. In contrast, inorganic pyrophosphates (PPi) are potent anti-calcifying compounds resulting from the hydrolysis of extracellular ATP, but their role in CKD remains elusive. Tissue-nonspecific alkaline phosphatases (TNAP) convert PPi into Pi in calcification sites leading to hydroxyapatite deposition. The metabolism of PPi depends on diverse compounds, which are included in our bio-collection (Favre, Int J Mol Sci, 2017). The activity of plasma Alkaline Phosphatase (ALP) reflects the tissue production of TNAP. ALP activity is correlated to cardiovascular events in CKD patients. Preliminary results from our group show a stable plasma level of the PPi/Pi ratio independently from the glomerular filtration rate. The investigators hypothesize that PPi/Pi imbalance could depend on ALP activity and could be a key determinant of vascular calcifications and arterial stiffness. Therefore, the investigators will measure ALP activity, calcifications score, arterial stiffness and perform a bio-collection in monogenic rare diseases and in various CKD stages including hyperphosphatemic patients on maintenance hemodialysis. Stage 1 and 2 CKD patients will be considered as a reference group because Pi levels and PPi levels are usually normal and calcification level is low. These patients will be compared to CKD patients with various Pi levels : low Pi levels in KT recipients 6 weeks after graft and high Pi levels in patients on maintenance dialysis. These patients (CKD 1 and 2) will be compared to patients with various PPi levels: patients with pseudoxanthoma elasticum (PXE) with low PPi levels and vascular calcifications and patients with hypophosphatasia (HPP) with high PPi levels and bone decalcification. PXE and HPP are rare monogenic disorder resulting from mutation in ABCC6 and the gene encoding TNAP respectively.

Conditions

• Chronic Kidney Disease

Interventions

Timeline

Start date

2018-05-15

Primary completion

2019-09-06

Completion

2019-09-06

First posted

2018-05-11

Last updated

2024-04-11

Locations

4 sites across 1 country: France

Source: ClinicalTrials.gov record NCT03520738. Inclusion in this directory is not an endorsement.