Welcome to Forethought India One-on-One Courses. Our program is designed to provide students with the skills and knowledge necessary to excel in their chosen profession. Our instructor for this course is Researcher M.S. Suryateja Jammalamadaka at Massachusetts Institute of Technology.
The course "Blood: The Essential Fluid" offers a comprehensive exploration of the fundamental nature and significance of blood in the human body. Delivered through a series of succinct and informative lectures, this course covers a wide array of topics, ranging from the basic composition of blood and its varied cell types to more intricate discussions about blood types, functions, disorders, and diseases. As the lectures progress, the course delves deeper into complex subjects such as blood's role in the cardiovascular system, immune response, and its relation to health. Additionally, advanced concepts are explored, including the molecular and genetic aspects of blood, its applications in pharmaceuticals, and cutting-edge research in blood-related fields. The course culminates with discussions on ethical considerations, future trends, and innovations in the domain of blood science. Each 20-minute lecture aims to provide a focused and insightful understanding of the multifaceted importance of blood, making it a valuable resource for students and enthusiasts seeking a comprehensive grasp of this essential bodily fluid.
At the end of the program, students will receive a certificate & performance letter by the educator indicating that they have completed the program and acquired the necessary skills and knowledge to excel in their chosen profession.
Blood: The Essential Fluid, by M.S. Suryateja Jammalamadaka
Mani Sai Suryateja Jammalamadaka is a graduate student at Cordero Lab, MIT. He has a bachelor’s degree in mechanical engineering from BITS-Pilani (India) and master degree in Systems and synthetic biology at University of Paris (France). His is interested in the spatial influence of chitin surfaces on microbial community assembly. He is currently developing platforms that allow us to study the colonization of chitin dependent microbial communities, the community dynamics, and the spatial interactions on the chitin surface.