View clinical trials related to Vascular Calcification.
Filter by:The aim of this study is to assess the clinical, laboratory and vascular calcification outcome within 6 months duration in patients undergoing surgical parathyroidectomy (total, subtotal, and total with autotransplantation)
- Screening the prevalence of vitamin D deficiency among Egyptian hemodialysis patients on a single center (Ain Shams University hospital). - Assessing the effect of the native type of vitamin D (Cholecalciferol) on replenishing its deficiency via extra-renal vitamin D receptors (VDR), among Egyptian hemodialysis patients. - Assessing the effect of cholecalciferol on vascular calcification among Egyptian hemodialysis patients. - Assessing the effect of cholecalciferol on Blood pressure, parathyroid hormone.
This study evaluates the local inflammatory and resolution response of patients undergoing peripheral vascular intervention like an angioplasty of the superficial femoral artery (SFA) or popliteal artery, or stenting of the iliac artery or SFA, through the use of Positron emission tomography-magnetic resonance imaging (PET/MRI). PET/MRI will be performed prior to intervention, one day and one week after intervention.
Background: Generalized Arterial Calcification of Infancy (GACI) is a very rare disorder. It can be fatal before birth or by age 6 months. Anumber of people with GACI survive into adulthood. Those adults suffer from side effects of the disease, including rickets. It is unknown how common the disease Autosomal Recessive Hypophosphatemic Rickets Type 2 (ARHR2) is. It also has side effects. GACI and ARHR2 are usually caused by the mutations in the same gene. There are no approved treatments for the two diseases. Researchers want to study people with these diseases and their family members. This may help understand these rare and unique diseases better. The data could lead to new treatments for GACI and ARHR2. Objectives: To better understand the progression of GACI and ARHR2 and how genes might play a role in them. Eligibility: People with GACI or ARHR2, both living and deceased, and their parents and siblings. Design: Participants will allow researchers to access their medical records. They will give this consent by mail, email, or fax. Data will be taken from the records. Participants names will not be used. Instead, they will be identified by a code. Participants may give a blood sample. If a participant withdraws from the study, their data and samples will be destroyed. However, the coded clinical data in the official medical record and data in databases will NOT be destroyed.
Arterial calcifications (AC) are constant lesions in patients with Chronic Kidney Diseases (CKD). Renal transplantation would reduce their progression compared to dialysis. AC pathophysiology is a complex and finely regulated process that involves many local and systemic factors, both pro- and anti-calcification. The progression of the CKD is accompanied by an increase in phosphate levels as the renal excretion capacity of inorganic phosphates (Pi) decreases while their digestive absorption remains unchanged. Hyperphosphatremia is a well-identified calcifying factor contributing to ACs in the CKD. On the other hand, pyrophosphate (PPi) is an anti-calcifying factor from the hydrolysis of extracellular ATP by ectonucleotidases. While there are many factors that may contribute to a protective effect against AC progression of renal transplantation, no study has been yet analysed the role of PPi. Plasma concentration of PPi is decreased in dialysis patients compared to non-kidney failure patients. The main objective of this monocentric, prospective and interventional pilot study will be to compare the progression of CA and [PPi]pl between a group of renal transplant patients over the past 24 months and a group of dialysis patients over the same period of time. The secondary objectives will be to compare the progression of ACs and the ratio[PPi]pl/[Pi]pl between transplanted and dialysis patients. Transplanted patients will be included within 24 (±3) months of transplant. Dialysis patients will be included at 24 (±3) months of the CT scan performed during the pre-transplant check-up. At inclusion, all patients will benefit from a CT scan without injection and a plasma dose of PPi, Pi and other factors involved in controlling calcification.
Evaluation of the calcifying effect of phosphorus on vascular smooth muscle and detect the association between serum phosphorus and valvular and vascular calcification in end stage renal disease patients
Vascular calcification is a frequent complication in dialysis patients and is strongly associated with mortality. Its pathogenesis is complex and involves a series of markers that act on the vascular microenvironment. There is evidence that aldosterone is one of the biomarkers and may have a role in osteoinductive pathways.The aim of this study was to evaluate the effect of spironolactone, an inhibitor of mineralocorticoid receptor, in the progression of coronary calcification in patients undergoing peritoneal dialysis.
This pilot study aims to evaluate in an exploratory way the predictive power of a novel in vitro test (T50 Calcification Inhibition Test, T50 CIT), which measures the mineralization inhibition capacity of blood, in terms of its association with time to all-cause mortality in haemodialysis patients.
The project will be structured in 3 main parts: 1. Effect of sera of ESRD patients on HD using Theranova dialyzer on high-Pi induced vascular calcification in an in vitro model of rat VSMCs. 2. Effect of sera of ESRD patients on HD using Theranova dialyzer on oxidative stress pathways in an in vitro model of rat VSMCs vascular calcification. 3. Study of RNA sequencing, transcriptome analysis gene expression of time course high-P challenged VSMCs studying the effect of sera of ESRD patients on HD using Theranova dialyzer
50 patients will be randomized and treated with MCO or highflux dialysis for six months (24 weeks) after a run-in phase of 4 weeks Highflux treatment. Serum samples will be drawn at baseline, after 4, 8 and 24 weeks. Later, calcifiying vascular smooth muscle cells will be incubated with these serum samples and calcification will be assessed with Alkaline phosphatase and Alizarin staining. Primary endpoint: In vitro Calcification of coronary vascular smooth muscle cells (Alkaline Phosphatase/ WST8) after six months Calcifiying vascular smooth muscle cells will be incubated with serum samples obtained after six months of MCO/HF dialysis and calcification will be assessed with Alkaline phosphatase and WST8. Secondary Endpoints: Aortic Pulse wave velocity after 6 months Calcification propensity after 6 months Physical activity level after 6 months Cell culture: Incubation of VSMC with serum samples obtained after 6 months - Alizarin staining/WST-8 - Measurement of calcification inhibitors Osteopontin and Matrix Gla Protein in Supernatants - Apoptosis The treatment regimen of the patients will not be altered, hence blood flow, dialysate flow as well as dialysis time will remain constant.