Trials / Recruiting

RecruitingNCT06519487

Social Experiences and Demographic Factors in the Regulation of Immune Cells

Perceived Discrimination, Geography, and Demographic Effects on Immune Cell Function and Regulation

Status: Recruiting
Phase: N/A
Study type: Interventional
Enrollment: 480 (estimated)

Sponsor: Morgan State University · Academic / Other
Sex: All
Age: 18 Years
Healthy volunteers: Accepted

Summary

Immune-mediated inflammatory diseases are a health burden for approximately seven percent of the population of Western nations. Preliminary data suggest variations in ethnic identity and/or geography influence discrimination experiences and inflammatory response trends. This study investigates how geography, ethnicity, and laboratory manipulation of discrimination experiences affect immune cell function and genomic regulation. Flow cytometry and immune cell stimulation will test monocytes collected from peripheral blood for functional effects. Next-generation transcriptomics and epigenomics will assess genomic and epigenetic mechanisms. The hypothesis is that geography, self-identified race, and ethnicity, interacting with laboratory discrimination conditions during the virtual ballgame Cyberball™, significantly affect immune cell function through genomic and epigenetic mechanisms, with perceived discrimination as a moderating factor on the immune outcomes. The transdisciplinary nature of the proposed study aims to provide valuable insights into differential susceptibility to immune-mediated inflammatory diseases across diverse populations. Uncovering these insights will better inform population-relevant interventions for immune-mediated inflammatory diseases.

Detailed description

More than a third of the residents of the United States suffer from a chronic disease, with almost half involving dysregulated immune processes. Immune-mediated inflammatory diseases pose a public health burden in the United States. Preliminary data from previous work suggest that variations in ethnic identity and geography might influence discrimination experiences and inflammatory response trends. To investigate the functional implications of these findings, a multi-institutional study is proposed, examining how social experiences and demographic factors predict the regulation and activity of immune cells. Specifically, the hypothesis is that geography, self-identified race, and ethnicity, interacting with laboratory discrimination conditions, significantly affect immune cell function through genomic and epigenetic mechanisms, with perceived discrimination moderating the immune outcomes. Participants will provide saliva samples, complete psychosocial and demographic questionnaires, and play the virtual social exclusion game Cyberball™ in a randomly assigned block order. Acute discrimination experiences are manipulated by conditions during Cyberball. Virtual players, who appear to be of a different race from the participant, exclude them by not passing the participant the ball in the race-based exclusion condition. In the inclusion condition, the participant receives the ball regardless of participant and virtual player race. In the general social exclusion (not race-based), the players and participant races are similar to the inclusion condition, except that the participant does not receive the ball. The block of Cyberball and blood draws randomly assigned are either: 1) race-based social exclusion and inclusion first, a blood draw, then non-race-based social exclusion, inclusion, and blood draw, or 2) non-race-based social exclusion and inclusion, a blood draw and then the race-based social exclusion and inclusion and a blood draw. Baseline and post-first block inflammatory responses in saliva will be measured using enzyme-linked immunosorbent assays (ELISAs) to determine the concentration of cytokines like C-reactive protein, interleukin-6, and tumor necrosis factor-alpha. Flow cytometry and immune cell stimulation with toxin will test monocytes purified and sorted from the participant's blood for functional effects. Next-generation transcriptomics and epigenomics will assess differentially expressed RNA and methylation enrichment, emphasizing genes involved in inflammation signaling pathways. The data will be statistically analyzed using regression analysis and structural equation modeling to determine the relationship between discrimination, geography, immune cell function, and regulation while controlling for other socio-demographic factors. The findings could inform public health initiatives and interventions to reduce health disparities and improve outcomes for marginalized communities.

Conditions

Interventions

Type	Name	Description
BEHAVIORAL	Cyberball	Cyberball™ is a virtual social exclusion game that simulates social interactions and acute discrimination experiences in a controlled laboratory setting. The game involves passing a virtual ball between players represented by images. In this study, only the participant is a real player, while the other "players" are pre-programmed virtual avatars controlled by the experimenter using Cyberball software. The ethnicity of these virtual players can be manipulated by changing the stock photos used to represent them. Participants in the Race-Based Social Exclusion condition play Cyberball with virtual players who appear to be of a different ethnicity from the participant. In the Non-Race-Based Social Exclusion, the participant plays with virtual players who do not have any obvious ethnic differences from the participant, and social inclusion is a washout condition where the participant receives the ball from the virtual players, regardless of the ethnicity of the avatars.

Timeline

Start date: 2025-02-03
Primary completion: 2028-06-03
Completion: 2029-02-28
First posted: 2024-07-25
Last updated: 2025-02-04

Locations

2 sites across 1 country: United States

Source: ClinicalTrials.gov record NCT06519487. Inclusion in this directory is not an endorsement.