Disease-carrying mosquitoes are a major problem in Ghana, and many species are resistant to common insecticides. However, red mangrove extract is repellent and larvicidal against the main species of disease-carrying mosquito present in Ghana. We propose creating a natural, eco-friendly mosquito repellent using mangrove leaf extract that targets disease-carrying mosquitoes in Ghana. We would develop a repellent that could be manufactured on-site in Ghana, using an extract from the red mangroves grown in the region and other common materials. See more
Cervical Cancer Microfluidics
Team Leads: Rus Trana & Pew Dey
Subteam Leads: TBA
Cervical cancer is the 4th most common variety of cancer in women worldwide, leading to approximately 266,000 deaths annually . In less developed regions, cervical cancer is the second most common cancer after breast cancer . High-risk human papillomavirus (HPV) strains (such as 16 and 18) are the major causes of cervical cancer but can be treated if detected early enough . We propose to create an ultra-sensitive protein detection technique applying microfluidics for the p16INK4a biomarker for cervical cancer. A POC device with increased sensitivity and accuracy can be used as an adjunct to DNA-based HPV testing to improve cervical cancer screening, mainly in low-resource settings. See more
Hello! Welcome to micROS—a collaboration between McGill Biodesign and the McGill Rocket Team! Together, we are investigating the changes in levels of reactive oxidative species in microgravity and hypergravity environments. Our McGill Biodesign team is focused on designing 1) the microfluidic chip composed of channels for the flow of reagents and a microwell holding the cells, in which the reaction will take place, 2) the perfusion system for timely and efficient delivery of reagents to the microwell containing the cells, and 3) the hydrogel that the cells will be embedded in to be kept alive throughout the experiment. See more
Our goal is to fight the water crisis, specifically in Honduras. The crisis disproportionately affects developing countries; hence we are creating a water filtration backpack that is low-cost, durable, and eco-friendly. Solar-A not only facilitates safe transportation and provides low-cost filtration, but also uses the mechanical walking movement from traveling to the water source to power a sensor capable of detecting when the water is potable. See more
Algo is a device intended for use in bodies of water with algal overgrowth (algal blooms) where its two-part extraction and treatment will harvest and treat algae. A pump followed by flocculation and centrifugation is to be used for the collection and subsequent mechanical extraction of the algae. Key benefits of this process include the durability and efficiency of cell harvesting, with over 90% cell recovery and compatibility with most algal types. The algae will then be allowed to collect and dewater in a secondary chamber, where a waterproof photo-reflective sensor is located to alert the consumer when the device is almost full through LED indicators. In the future, a web application may be incorporated to convey more detailed information. From this chamber, the algal biomass can be treated to produce a sustainable fertilizer or biofuel through lipid extraction and conversion. See more
Team Lead: Kimia Shafighi
BluBand is a transmitter capable of transforming a short-wave radio frequency signal into a cellular signal. It can attach to the glucose sensors worn by diabetic children attending Camp Carowanis and continuously monitor their blood sugar levels both day and night. BluBand is waterproof and easy to wear, making it ideal for children at the camp.
Baculovirus Gene Therapy
Team Lead: Elizabeth O'Meara
The Baculovirus team worked to develop a transient gene therapy delivery system using baculoviruses. Particular focus was given to growth factors critical to the healing process and lacking in many chronic wounds, such as diabetic foot ulcers. Unfortunately, this project was halted by the COVID-19 pandemic.
Team Lead: Anne Kyung
ActivAid is a novel interactive bacterial cellulose wound dressing targetting venous ulcers. It includes innovative components that help maintain an ideal wound environment in order to prevent infection and accelerate healing. Although COVID-19 prevented the creation of a prototype for ActivAid, the design was submitted to Venturewell's DEBUT competition in June 2020.
Team Lead: Ella Reifsnyder
MAAscreen is an eco-friendly and biodegradable sunscreen. Conventional sunscreens utilize chemical UV filters that threaten the marine environment, while MAAscreen extracts mycosporine-like amino acids (MAAs) from algae as a more sustainable alternative.