Research Trainees of 2021

Project: Cannabis Use and Blood Pressure: a Systematic Review

This summer, I began working on a systematic review of the association between marijuana usage and hypertension. I developed an inclusion/exclusion criteria by gathering terms that could potentially result in articles that include a relationship; for example, synonyms for "marijuana" were included in the search term. In addition, I included pieces from any year and any language while excluding articles that did not identify a relationship between marijuana usage and hypertension and articles that were reviewed. I used a PubMed search term with Covidence to find published articles that identified this association. At first, there were 815 articles identified; however, they were narrowed down to 23 studies. Following this, I collected data and analyzed evidence in these 23 relevant articles. I will be working on this project throughout the year.

Project: Small Molecules Associated With Short Lifespan in Caenorhabditis Elegans

Advances in public health have significantly increased life expectancy over the last century. Although people are living longer lives, they are not necessarily living healthier lives in their later years. Age-related diseases such as cancer and neurodegenerative diseases are among the main contributors to the global burden of disease. Several studies have pointed to the role of metabolism in controlling longevity. Indeed, some have suggested a “metabolic clock” that controls the rate of aging and its associated diseases. Given that several environmental exposures are known to affect metabolism, such as endocrine disrupting chemicals, it is speculated that these exposures may alter the aging process and lead to unhealthy aging. In order to understand how environmental chemicals may be altering metabolic control of aging, we proposed the creation of metabolic profiles of accelerated aging in the nematode model Caenorhabditis elegans, using high-resolution metabolomics. These profiles will be used as a reference when studying metabolic effects relevant to aging as a result of chemical exposures in the model organism. The focus of my study was to identify key metabolic signatures of accelerated aging in the short-lived daf-16 mutant. Combining high-throughput techniques and high-dimensional data analysis, metabolomics offers a window into intricate metabolic mechanisms. Follow up studies will reveal the biological implications of the metabolites found to be central in metabolic pathways associated with accelerated aging. 

Project: New Methods for Isolation and Analysis of Extracellular Vesicles (EVS)

Recently, extracellular vesicles have risen to fame and scientists started describing them as the cell’s way of communicating with other cells and biomarkers of disease. Extracellular vesicles or EVs were misunderstood in the past and were often labeled as cell waste. Due to the inadequate research, the isolation and extraction techniques were lacking clarity and efficiency. However, new methods of extraction, isolation, and analysis are becoming popular in the scientific community. I conducted a systemic review of extracellular vesicles and methods of extraction. EVs are clinically valuable and the new techniques will allow for the greater utilization of extracellular vesicles.