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Vaginal device to simulate bacterial vaginosis in animal models

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The team's task is to create a vaginal device to simulate bacterial vaginosis in animal models to study and ultimately, find cure for the diseases.

Project Overview

Vaginal dysbiosis, defined as an abnormal vaginal bacteria environment with increased bacterial diversity, is an important contributor to HIV acquisition, pelvic inflammatory disease, miscarriage, preterm birth, as well as maternal and neonatal disease. Bacterial vaginosis (BV) is the corresponding vaginal inflammation caused by overgrowth of Gardnerella vaginalis. There has been a lack of animal models for studying the vaginal microbiota and the inability to form long lasting biofilms in vitro models. The objective of the study is to create a device that facilitates the initial growth of deleterious organisms and eventually establishes a biofilm, an extracellular matrix that forms during growth. This device will enable a more robust preclinical model for studying the bacteria involved, aiding in the search for treatments and prevention of BV and associated diseases.

Team Picture

Henry, Iris, Angela, and Cait (Left to right)
Henry, Iris, Angela, and Cait (Left to right)

Contact Information

Team Members

  • Caitlin Hielsberg - Team Leader
  • Iris Baurceanu - Communicator
  • Henry Plamondon - BSAC & BPAG
  • Angela Bae - BWIG

Advisor and Client

  • Prof. Darilis Suarez-Gonzalez - Advisor
  • Dr. Megan Fitzpatrick - Client

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