Mayo Clinic Graduate School of Biomedical Sciences is a renowned institution that offers graduate programs in various biomedical and health-related fields. It is affiliated with the Mayo Clinic, a world-famous medical centre and research institution.
This institution has open positions in fully funded PhD positions for the stream of Biomedical Sciences. This program offers a unique research training environment of academic inquiry and scientific discovery, combined with exceptional intellectual and technological resources designed to help you achieve your highest scientific career goals.
Program Highlights
- Research training by eminent scientists in domains from molecules to populations, all within the framework of exceptional medical treatment.
- Being a part of a premier academic medical institution, they will provide you access to clinical data from over 6 million patient histories.
- Study in small groups of not more than 250 students with access to over 300 faculty members.
- Since 1989, 87% of graduates have found employment in academia or industry.
- Ph.D. students receive a stipend and health benefits.
Areas of Specialization
Biochemistry and Molecular Biology
Understanding the molecular mechanisms behind illnesses is made possible by the fundamental methodologies of molecular biology, biochemistry, and genetics, which are used at the forefront of scientific discovery. By looking into the inner workings of living things and discovering the most intimate details of the cell, scientists can find novel approaches to illness detection and treatment, as well as provide answers to other basic concerns regarding human existence. Cancer biology and progression, Genome editing, Protein and lipid trafficking, and more are the various streams in this specialization.
Biomedical Engineering and Physiology
Because of its complexity and fragility, the human body is prone to a variety of diseases, including joint illness and injuries to the muscles or nerves. Body tissues degrade and cease to perform essential activities as we age. Teams of engineers, doctors, and other scientists working in the biomedical field are creating new methods to cure and prevent human sickness by examining the human body to learn how it functions. Biomechanics, Biomedical imaging, Physiology, and Molecular biophysics & biosensing are the various streams in this specialization.
Clinical and Translational Science
It takes an enormous amount of effort and money for researchers to bring new biological findings into the clinic as cures and treatments. Leading this effort to a translational scientist who collaborates with a diverse team of specialists to translate research findings for use in healthcare environments. To close the knowledge gap between fundamental science and patient treatment, this bench-to-bedside endeavour is crucial.
Immunology
Within the realm of biomedical research, immunology is a fast-expanding subject that covers everything from training the body how to fight off some diseases to producing antibodies to guard against others. Significant technological advancements have accelerated efforts to manage and treat diseases like cancer, asthma, and allergies, and have even slowed the progression of other diseases like Type 1 diabetes and multiple sclerosis. These developments have been made possible by a growing understanding of the complexities of the immune system and its role in human health and disease.
Molecular Pharmacology and Experimental Therapeutics
The Molecular Pharmacology and Experimental Therapeutics (MPET) Track of the Ph.D. Program at Mayo Clinic Graduate School of Biomedical Science is a unique and innovative Ph.D. training opportunity for graduate students looking to contribute to the frontiers of 21st-century discovery and medicine.
Neuroscience
Technological developments have given us a comprehensive understanding of the inner workings of the mind and how it functions enabling us to observe and study the brain like never before. Researchers are on the verge of a significant paradigm change in the way we treat, cure, and even prevent nervous system problems because they are beginning to comprehend the foundation of learning, memory, and other basic brain activities.
Regenerative Sciences
With the creation of novel medications, treatments, and surgical procedures for patients suffering from degenerative illnesses, crippling injuries, and chronic disorders, regenerative medicine is revolutionizing clinical practice. Developmental and cell biology, immunology, and other sciences are opening up new avenues for creative discoveries that will lead to the next generation of regenerative medical solutions.
Virology and Gene Therapy
The need to research the microbes that cause potentially fatal illnesses like influenza, Ebola, and West Nile virus is growing as these outbreaks continue to make headlines. Virologists are essential to biological research because they analyze, comprehend, and apply the nature of viruses to therapeutic settings. Recent discoveries in fields like gene therapy, immunotherapy, and vaccine development hold out a lot of potential.
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