Promotion of dairy cattle health, production, efficiency, and welfare not only contributes to economic viability of the dairy production sector, but also provides benefits to the consumers of milk products. These benefits include environmental sustainability, maintenance of milk nutritional quality and safety, as well as assurance that milk is sourced from animals that have been raised humanely.
The research that we conduct in my laboratory aims to understand the causes of infertility at the gene level and pinpoint the mechanisms through which toxicants affect fertility both in humans and farm animals. Understanding how things happen will help in finding ways of overcoming it.
The goal of my research is to improve the life of cancer patients by identifying tools to make better treatment decisions. This can possibly improve several important aspects of the life of a cancer patient, including treatment response, the quality of life, and the overall survival following treatment.
My research is in the area of nuclear physics, using the atomic nucleus as a laboratory to understand the fundamental forces of nature, the origins of the elements in the Universe, and how simple patterns emerge from complex systems.
My research will contribute to our fundamental understanding of the role of nutrition in disease prevention and strategies to implement change working through families.
My group uses in vivo and in vitro models to ask how transcriptional regulators of the Dlx gene family influence cellular differentiation in the skeleton and craniofacial tissue patterning during vertebrate embryogenesis...
Our research is mainly focused on studying ultrafine biopolymeric and synthetic fibres produced by electrostatic spinning techniques. These versatile materials are being exploited in our laboratory for the encapsulation and triggered release of bioactive compounds.
