Theranova Dialyzer and Chronic Kidney Disease - Mineral Bone Disorder (CKD-MBD)
NCT ID: NCT03169400
Last Updated: 2017-05-30
Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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UNKNOWN
20 participants
OBSERVATIONAL
2017-10-01
2018-12-31
Brief Summary
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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
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Detailed Description
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VC is common in CKD and associated with increased morbidity and mortality. Its mechanism is multifactorial and incompletely understood. CKD patients are at risk for VC because of multiple risk factors that induce VSMCs to change into a osteoblast-like cell such as high total body burden of calcium (Ca) and phosphorus (P) due to abnormal bone metabolism, low levels of circulating and locally produced inhibitors, impaired renal excretion, and current therapies. Together these factors increase risk and complicate the management of VC. Cells with unexpected osteoblastic potential may abnormally lay down some forms of VC, especially in the arterial wall of blood vessels. The pathogenesis of VC is likely a hybrid process of tightly regulated normal bone modeling and the purely physicochemical deposition of mineral.
The interest in VC in CKD patients has several reasons. First, it is now clear that in the general population the calcification of both intimal atherosclerotic lesions and the medial vessel layer are associated with CV morbidity and mortality. Similar, some data also exists for stage 5 CKD. Second, there is now better evidence that VSMCs can become osteoblast-like and lay down and mineralize collagen and noncollagenous proteins in arteries. Third, over 20 null mutations in mice have VC confirming that key proteins regulate or prevent VC. Fourth, there is increasing recognition of a link between CKD and bone and VC in the general population. Lastly, we now know some of our well-intended interventions to treat renal osteodystrophy accelerate arterial calcification.
CKD patients have an increased CV risk factor due to the impaired renal function induced by the pathology. More than 90% of CKD patients die for CV events with a main role of VC. One of the VC inducer is HD per se. Since the choice of dialyzer may play a role on prevalence of CV complication in CKD, the aim of this project will be to elucidate the effect of Theranova dialyzer on delay VC progression.
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 Primary Endpoint: 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.
Secondary Endpoints: 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.
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
Conditions
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Study Design
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CASE_CONTROL
CROSS_SECTIONAL
Study Groups
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Theranova treated
We will collect pool of human sera from HD patients treated with regular bicarbonate dialysis membrane (baseline). Then, patients will be treated for 3 months with Theranove dialyzer, and sera will be collected at 1, 2, and 3 months. We will create a serum pool.
Theranova dialyzer
Hemoadialysis
Standard treated
We will collect pool of human sera from HD patients treated with regular bicarbonate dialysis membrane (baseline). Then, patients will be treated for 3 months with Theranove dialyzer, and sera will be collected at 1, 2, and 3 months. We will create a serum pool.
No interventions assigned to this group
Interventions
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Theranova dialyzer
Hemoadialysis
Other Intervention Names
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Eligibility Criteria
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Inclusion Criteria
Key Exclusion Criteria: cachexia; cancer
18 Years
90 Years
ALL
No
Sponsors
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University of Milan
OTHER
Responsible Party
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Mario Cozzolino
Professor of Nephrology, MD, PhD, FERA, FASN
Locations
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University of Milan
Milan, , Italy
Countries
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Central Contacts
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Facility Contacts
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Other Identifiers
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BXT-MI1
Identifier Type: -
Identifier Source: org_study_id
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