Your search keyword '"Vedanabhatla Rahul"' showing total 2 results

1. Microfluidic Platforms to Unravel Mysteries of Alzheimer’s Disease: How Far Have We Come?

Author

Pragya Prasanna, Shweta Rathee, Vedanabhatla Rahul, Debabrata Mandal, Macherla Sharath Chandra Goud, Pardeep Yadav, Susan Hawthorne, Ankur Sharma, Piyush Kumar Gupta, Shreesh Ojha, Niraj Kumar Jha, Chiara Villa, and Saurabh Kumar Jha

Subjects

Alzheimer’s disease, microfluidics, lab-on-chip, 3D culture, organ-on-chip, Science

Abstract

Alzheimer’s disease (AD) is a significant health concern with enormous social and economic impact globally. The gradual deterioration of cognitive functions and irreversible neuronal losses are primary features of the disease. Even after decades of research, most therapeutic options are merely symptomatic, and drugs in clinical practice present numerous side effects. Lack of effective diagnostic techniques prevents the early prognosis of disease, resulting in a gradual deterioration in the quality of life. Furthermore, the mechanism of cognitive impairment and AD pathophysiology is poorly understood. Microfluidics exploits different microscale properties of fluids to mimic environments on microfluidic chip-like devices. These miniature multichambered devices can be used to grow cells and 3D tissues in vitro, analyze cell-to-cell communication, decipher the roles of neural cells such as microglia, and gain insights into AD pathophysiology. This review focuses on the applications and impact of microfluidics on AD research. We discuss the technical challenges and possible solutions provided by this new cutting-edge technique to understand disease-associated pathways and mechanisms.

Published

2021

2. Microfluidic platforms to unravel mysteries of alzheimer’s disease: How far have we come?

Author

Pardeep Yadav, Susan Hawthorne, Niraj Kumar Jha, Chiara Villa, Saurabh Kumar Jha, Shreesh Ojha, Debabrata Mandal, Piyush Kumar Gupta, Macherla Sharath Chandra Goud, Ankur Sharma, Pragya Prasanna, Vedanabhatla Rahul, Shweta Rathee, Prasanna, P, Rathee, S, Rahul, V, Mandal, D, Goud, M, Yadav, P, Hawthorne, S, Sharma, A, Gupta, P, Ojha, S, Jha, N, Villa, C, and Jha, S

Subjects

3D culture, Mechanism (biology), business.industry, Science, Microfluidics, microfluidics, Paleontology, Disease, Review, General Biochemistry, Genetics and Molecular Biology, Clinical Practice, Microfluidic, Space and Planetary Science, Medicine, Lab-on-chip, Organ-on-chip, Cognitive impairment, business, Neuroscience, Alzheimer’s disease, Ecology, Evolution, Behavior and Systematics

Abstract

Alzheimer’s disease (AD) is a significant health concern with enormous social and economic impact globally. The gradual deterioration of cognitive functions and irreversible neuronal losses are primary features of the disease. Even after decades of research, most therapeutic options are merely symptomatic, and drugs in clinical practice present numerous side effects. Lack of effective diagnostic techniques prevents the early prognosis of disease, resulting in a gradual deterioration in the quality of life. Furthermore, the mechanism of cognitive impairment and AD pathophysiology is poorly understood. Microfluidics exploits different microscale properties of fluids to mimic environments on microfluidic chip-like devices. These miniature multichambered devices can be used to grow cells and 3D tissues in vitro, analyze cell-to-cell communication, decipher the roles of neural cells such as microglia, and gain insights into AD pathophysiology. This review focuses on the applications and impact of microfluidics on AD research. We discuss the technical challenges and possible solutions provided by this new cutting-edge technique to understand disease-associated pathways and mechanisms.

Published

2021