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NCT04028752 Clinical Trial

A 3D Hydrogel Model to Assess Endothelial Cell-macrophage Interactions in Simulated Microgravity (OR-DRPD-SRI2019)

Cardiovascular Diseases Clinical Trial

Official title:
OR-DRPD-SRI2019: A 3D Hydrogel Model to Assess Endothelial Cell-macrophage Interactions in Simulated Microgravity

Clinical Trial Details — Status: Withdrawn

Administrative data
NCT number NCT04028752
Other study ID # IRB201902002
Secondary ID P0132429OCR25782
Status Withdrawn
Phase
First received
Last updated
Start date June 2021
Est. completion date June 1, 2021

Study information
Verified date July 2021
Source University of Florida
Contact n/a
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

The proposal contained herein seeks to examine the effect of simulated microgravity on important cell-cell interactions that govern vascular health. The interest lies in endothelial cell (EC) and macrophage cell interactions. The investigators are proposing to first understand how microgravity effects the macrophage and EC function or pro-healing capabilities. Next, the study team plans to develop a 3D tissue regeneration model in which macrophages and ECs are co-cultured in a hydrogel matrix. Utilizing this model, the team will assess how microgravity influenced macrophage-EC interactions in 3D. The investigators will assess EC tubule volume (or blood vessel development), macrophage spreading and the interactions with endothelial tubule sprouts. This model will serve as a critical foundation for future grant opportunities as it allows the assessment of tissue regeneration and vascular health in a 3D tissue microenvironment

Description:

While some knowledge has been gained with regards to macrophage alterations during space travel, most of this work has been limited to macrophage cell lines and has not considered how the effects of microgravity alter macrophages' ability to stimulate tissue repair and regeneration. Specifically, how the macrophage secretion profile and/or interaction with endothelial cells is altered during microgravity culture. Given the extensive data showing the consequence of simulated microgravity to alter endothelial cells, and the mounting evidence that simulated microgravity affects macrophage cells, the investigators hypothesize that microgravity alters the functional response of macrophages in close association with endothelial cells. To test this hypothesis, the study team has established 2 specific aims: Specific Aim 1: Assess the effect of simulated microgravity on endothelial and macrophage pro-healing states. Specific Aim 2: Assess the effect of simulated microgravity on the pro-healing states of 3-dimensional co-cultured macrophages and endothelial cells. Completion of the above described aims will lay a strong foundation of knowledge about the impact of simulated microgravity in important cell-cell interactions involved in tissue regeneration and healing

Recruitment information / eligibility
Status Withdrawn
Enrollment 0
Est. completion date June 1, 2021
Est. primary completion date June 1, 2021
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 21 Years to 50 Years
Eligibility Inclusion Criteria: - Self-reported healthy individuals - Willingness to have 50mls of whole blood collected Exclusion Criteria: • Unwillingness to have blood used in microgravity study

Study Design

Related Conditions & MeSH terms

Intervention

Biological:
Blood collected specifically for this study
The subject will be sitting in a chair, and a needle will be inserted into a vein in the arm. Study Team will draw about 45ml or 3 tablespoons of whole blood for research.

Locations
Country Name City State
n/a

Sponsors (2)
Lead Sponsor Collaborator
University of Florida Florida Space Institute

Outcome
Type Measure Description Time frame Safety issue
Primary Isolate macrophages Isolation of circulating immune cells, termed macrophages from whole blood. The study team will isolate the macrophages that are contained within the peripheral blood mononuclear cell fraction (PBMNC). The investigators expect to isolate 800,000-3,200,000 PBMNC per ml of blood. The isolated cells will then be subject to culture in a simulated microgravity device. within 4 hours of blood collection
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