Francis A. M. Manno

Francis A. M. Manno

Instituto de Neurobiología, Universidad Nacional Autónoma de México, México

Affiliated withUniversidad Nacional Autónoma de México, MéxicoUniversity of SydneyCity University of Hong Kong

Research Area

Biography

Dr. Francis A.M. Manno studied biology and psychology (A.B.) at a small liberal arts school in Virginia (VWC), molecular biology at New York University (MSc), Scuba Diving in México and has a Master Captains License from the USCG. He completed his first Doctor of Philosophy in Biomedical Neuroimaging and a second PhD in Physics and Applied Materials Sciences at CityU HK. Dr. Manno is directing a multisite collaboration concerning the genetic alterations related to the cortical manifestations in hearing loss.

Research Interests/Areas:

My research dovetails between three interrelated fields using MRI as the foundational technology for modeling human disease (hearing loss, environmental enrichment and Alzheimer’s Disease). In hearing loss, we explore rodent models to develop structural probabilistic maps using machine learning and genetics. Here we establish neuroimaging templates which can be used for assessing the impact to the brain throughout the lifespan. In humans, we construct endophenotypic templates of hearing loss ascertained by MRI images in a population wide cross-sectional longitudinal survey to determine confounding variables and predictors. The aim here is to ascertain covariates which may reduce the severity of hearing loss across the lifespan. Some of the aforementioned variables are linked to environmental enrichment; therefore, in rodent models we construct different environments which impact the brain to determine how they affect rodent models with hearing loss. Lastly, Alzheimer’s Disease (AD) is known to be confounded by hearing loss; therefore, my research attempts to use rodent models of AD to discern the influence of hearing loss progression contributing to the neuropathology in dementia. My work concentrates on MRI imaging defined phenotypes to reveal features in humans and in rodent models that can ameliorate disease.

https://orcid.org/0000-0002-0486-213X

JoVE Journal Publications

ArticleTotal : 2
Year
Simple Surgical Induction of Conductive Hearing Loss with Verification Using Otoscope Visualization and Behavioral Clap Startle Response in Rat
Publication title

Cited by 2

2019
2020

Other Publications

Article
Year
Investigating the Demography of India With a Structural Break Test.

Archives of sexual behavior| PubMed ID: 26912371

2016
2019
2019
2019