First name,Last name,Preferred title,Overview,Position,Department,Individual
Peter,Murano,Associate Professor,,Associate Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n01908cad
Yuxiang,Sun,Professor,"Dr. Sun is an expert on ""hunger hormone"" ghrelin. She generated the first set of ghrelin and ghrelin receptor knockout mice, and discovered novel roles of ghrelin signaling in diabetes, thermogenesis, and inflammation. Her laboratory uses state-of-the-art tools to study ghrelin system in energy sensing, metabolism and immunity, and aging. Her work suggests that ghrelin signal might be a promising drug target for obesity, diabetes, inflammation, and Alzheimer's disease.",Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n0228c22e
Raymond,Carroll,Distinguished Professor,,Distinguished Professor,Statistics,https://scholars.library.tamu.edu/vivo/display/n032647a0
Carolyn,Cannon,Associate Professor,"Our goal is to develop novel, non-toxic antimicrobial formualtions with efficacy against gram-positive and gram-negative multi-drug resistant pathogens.",Associate Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/n0b3870aa
Nancy,Fahrenwald,Professor and Dean,"As a board certified advanced public health nurse, Dr. Fahrenwald has worked in collaboration with local, state, regional and national organizations and groups to translate research evidence into sustainable programs that support tobacco cessation and prevention, improve access to primary health care, and impact chronic disease prevention and control. She has led or provided consultation to 30 funded research or training projects. Her extensive experience with multiple federal agencies focuses on rural health care access and the needs of underserved populations, especially organ and tissue donation education for American Indians.",Dean||Faculty Fellow,Center for Health Systems and Design||School of Nursing,https://scholars.library.tamu.edu/vivo/display/n0cb1b858
Emily,Wilson,Professor,"The goals of my lab are to understand the role of mechanical forces in vascular growth and remodeling processes. Cells within the blood vessel wall are exposed to numerous mechanical forces including fluid shear stress, circumferential wall stress, and axial stress as part of their normal environment and alterations in these parameters plays important roles in the development and progression of vascular pathologies such as atherosclerosis, hypertension and aneurysms. Our experiments are focused on how understanding how vascular smooth muscle cells sense changes in the mechanical environment and how this leads to changes in gene expression and cellular phenotype.",Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n105bddf7
Qian,Wang,Associate Professor,"Dr. Wang's earlier work focused on the comparative morphology of craniofacial skeletons of Mid Pleistocene hominin fossils. During his postdoctoral training, he was involved in a number of studies examining the internal structure of craniofacial bone and suture morphology and how it is related to skeletal growth, function and adaptation. His recent research focuses on the functional morphology and biomechanics of the craniofacial skeleton. He has incorporated a range of methods, including geometric morphometrics (e.g., 3D Euclidean Distance Matrix Analysis and Generalized Procrustes Analysis/GPA), experimental approaches (e.g., in vitro strain measurements and ultrasonic techniques), computer-aided modeling and biomechanical analysis ( e.g., Finite Element Analysis), as well as phenotypic analyses. He has worked intensively on the various primate skeletal collections and has developed protocols for data collection and analyses of museum skeletal collections. In addition, he is a member of a multi-institutional research team made up of anatomists and anthropologists who have specialized in various aspects of functional morphology in order to systematically reassess the reconstruction and biomechanical interpretation of the face of early human types, based on current morphological and phylogenetic evidence and advances in biomechanical methods.",Associate Professor,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n10bc652f
Michael,Criscitiello,Professor and Associate Dean for Research and Graduate Studies,"My Comparative Immunogenetics Laboratory studies immunology, molecular genetics and evolution. Most of our group's research focuses on the natural history and future application of the vertebrate adaptive immune system, with particular attention given to the genetics of lymphocyte antigen receptors. Particular expertise lies in the evolution of vertebrate immunoglobulin loci, T cell receptor loci and the major histocompatibility complex. Additionally, we are interested in the evolution of diversification mechanisms at work there (e.g., recombination activating genes (RAG), activation-induced cytidine deaminase (AID), and the high allelic polymorphism maintained by classical MHC genes). Most recently, we have been working on lymphocyte development in shark thymus that suggests plasticity across the B lymphocyte/T lymphocyte divide, immunoglobulin heavy and light chain isotype pairing in an amphibian system, immunogenetics in marine mammals of conservation importance, mucosal humoral immunity in diverse tetrapods and cattle antibodies with an unheralded domain extending for novel antigen binding possibilities.",Associate Dean for Research and Graduate Studies||Professor,School of Veterinary Medicine and Biomedical Sciences||Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n11e21ca8
Friedhelm,Schroeder,Professor,Intracellular lipid transfer proteins; lipid metabolism; multiphoton imaging of intracellular lipid transport and targeting in living cells and tissues of gene targeted animals.,Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n157063e2
Guoyao,Wu,Distinguished Professor,"Dr. Wu teaches graduate courses in protein metabolism and nutritional biochemistry. He conducts research in protein and amino acid metabolism at molecular, cellular, and whole body levels . The animal models used in his research include cattle, chicks, pigs, rats, sheep, fish, and shrimp. He has also conducted research on amino acid nutrition in humans.",Faculty Fellow||University Faculty Fellow||Distinguished Professor||Senior Faculty Fellow||Distinguished Professor,Veterinary Integrative Biosciences||Animal Science||Texas A&M AgriLife Research||Texas A&M AgriLife Research||Nutrition,https://scholars.library.tamu.edu/vivo/display/n169f9a74
Jenna,Anding,Professor and Extension Specialist,,Professor||Professor and Extension Specialist,Nutrition||Nutrition,https://scholars.library.tamu.edu/vivo/display/n1d173ea8
Paul,Dechow,Regents Professor and Associate Dean,"My research activities at the College of Dentistry (COD) have a focus on (1) the development of translational and clinical research in dentistry and (2) research on the development and biomechanics of mineralized tissues from a translational and organismal perspective. Research in my laboratory includes studies of phenotypic assessment of skeletal tissues, with an emphasis on material properties, gross and micro structure, biomechanics, and temporal and evolutionary adaptations. Methods that we use include techniques for determining 3D material properties (ultrasound, nanoindentation), 2D and 3D bone histomorphometry, 3D scanning technologies (cone beam CT, micro CT), and various biomechanical modeling techniques, such as finite element analysis. Recent projects have included studies of cranial bone adaptation during wound healing and distraction osteogenesis, and studies of phenotypic adaptations in mouse genetic models related to alterations of pathways associated with Wnt/?-catenin signaling in osteoblasts (with J. Feng) and osteoclasts (with Y. Wan).
Mentoring Experience: 4 Postdocs; 18 PhD; 21 MS; 22 Undergrad DDS Research; 8 Undergrad BS Research; 53 Grad Advisor (as Graduate Program Director); 2 KL2 scholars",Associate Dean||Regents Professor,Office of Academic Affairs||Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n1ec430cb
Juan,Bustamante,Instructional Associate Professor,,Instructional Associate Professor,Irma Lerma Rangel School of Pharmacy,https://scholars.library.tamu.edu/vivo/display/n208ab557
Leslie,Braby,Research Professor,,Research Professor,Nuclear Engineering,https://scholars.library.tamu.edu/vivo/display/n219b92ba
Susie,Dai,Associate Professor,"My research group is interested in evaluating environmental hazard substances, their interactions with the environment and species, and biological systems that can degrade and detoxify the pollutants. We have established broad analytical platforms to survey a wide spectrum of natural or man-made toxic chemicals such as mycotoxins, microcystins, agricultural, and industrial chemicals.
We integrate electrocatalysis/photoelectrocatalytic processes and material engineering with biological systems for 1) chemical degradation and 2) energy storage. Meanwhile, our laboratory has built a modern analytical tool suite, which includes mass spectrometry-based platforms for monitoring and surveillance, hydrogen-deuterium exchange mass spectrometry for protein structure dynamics analysis, and gel free mass spectrometry-based proteomics analysis. We develop qualitative and quantitative methods for molecular characterizations, protein analysis and proteomics when working in different environmental systems.",Associate Professor,Plant Pathology and Microbiology,https://scholars.library.tamu.edu/vivo/display/n27690618
Satish,Bukkapatnam,Professor,"Dr. Bukkapatnam's research addresses the harnessing of high-resolution nonlinear dynamic information, particularly from wireless MEMS sensors, to improve the monitoring and prognostics of real-world systems, including ultraprecision and nanomanufacturing processes and machines, and cardiorespiratory processes. His research has led to 185 peer-reviewed publications (115 published/ accepted in journals and 70 in conference proceedings), 1 granted and five pending patents, and has been the basis for 17 Ph.D. dissertations. His research has received support from federal agencies including National Science Foundation, Department of Energy, and Department of Defense, and the private sector including General Motors, Ford, National Instruments, and the Central Rural Electric Cooperative.",Faculty Affiliate||Professor,Energy Institute||Industrial and Systems Engineering,https://scholars.library.tamu.edu/vivo/display/n277d780c
Maheedhar,Kodali,Research Scientist,,Research Scientist,Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/n283c3c68
Jeffrey,Savell,Distinguished Professor,,Distinguished Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/n2a814ea8
Robert,Rosa,Research Professor,,Research Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n2ab0c984
Jian,Feng,Professor and Assistant Dean,,Assistant Dean for Research and Professor,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n2b3403fd
Dana,Gaddy,Professor,"My laboratory has been engaged in multiple areas of NIH-funded musculoskeletal research since 1996. We were the first to identify the non-steroidal gonadal inhibin hormones in regulating the hypothalamic-pituitary-gonadal-skeletal axis in mice, and the role of changes in inhibins that signal the onset of menopause (reproductive aging) to the onset of increasing bone turnover. We also demonstrated the anabolic effect of continual Inhibin exposure in normal mice and in bone repair. Our cellular focus on Inhibins and the related factor, Activin A revealed that Activin A suppresses local bone resorption through suppression of osteoclast formation, motility and survival. Our ongoing work is in the area of specific inhibin/betaglycan receptor interactions that mediate the effects on bone cells. We are also greatly interested in improving the low bone mass that we were the first to identify in both humans with Down Syndrome (DS) and in mouse models of DS as a low bone turnover disease. Our current NIH-funded research is working to identify the mechanisms of reduced fracture healing and compromised bone regeneration in Down Syndrome. We have demonstrated the efficacy of both PTH and SclAb in DS, and are now actively testing nutriceuticals to increase bone mass in mouse models of Down Syndrome. The limitations of using mouse models to study bone disease led us to our most recent and exciting endeavors in collaboration with TAMU experts in reproduction and embryo transfer technologies to develop a large platform model of bone disease, using sheep. We have generated the first large animal model of hypophosphatasia (HPP) via high efficiency gene editing of a knock-in point mutation in the ALPL gene, whose musculoskeletal and dental phenotypes are consistent with human HPP. We are now using this model to determine the etiology of mineralization deficiencies, muscle weakness and premature tooth loss by analysis of longitudinal biopsies and analysis of muscle, bone and dental specimens using CT, microCT, mechanical testing, immunohistochemistry, histomorphometry and ex vivo bone marrow cultures.",Professor||Adjunct Professor,Veterinary Integrative Biosciences||Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n2dc10a1a
Karen,Kubena,Professor,"Dr. Kubena's current research involves investigation of the relationship between food choice, dietary behaviors, family, and other factors with the development of obesity and metabolic syndrome in children and adolescents.",Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n2f29b26e
John,Criscione,Professor,,Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n33d294c3
Likith,Reddy,Clinical Professor & Department Head,,"Clinical Professor, Oral & Maxillofacial Surgery",Health Science Center,https://scholars.library.tamu.edu/vivo/display/n370dd37d
Matthew,Kesterke,Instructional Assistant Professor,,Instructional Assistant Professor,Orthodontics,https://scholars.library.tamu.edu/vivo/display/n3a36bff3
John,Green,Clinical Professor,My research is focused in two areas: 1. The interaction of exercise and estrogen replacement on the cardiovascular system in postmenopausal women. and 2. The perception of heart disease risk as it relates to actual physiological risk markers.,Clinical Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n3c299e59
Jianrong,Li,"Professor, Neurobiology and Neuroimmunology, Veterinary Integrative Biosciences","The central goal of our research is to understand how oligodendroglial development and function in the mammalian central nervous system is regulated in health and disease. Specifically, we are interested in molecular and cellular mechanisms involved in oligodendrocyte damage/dysfunction in white matter injuries such as multiple sclerosis and cerebral palsy and in aging-related neurodegenerative diseases such as Alzheimer's disease. Because in most CNS diseases, multiple cell types including neurons, glial cells and vascular cells are involved via complex interactions, we investigate, at the cellular and molecular level, the role of microglia and astrocytes in the process of oligodendrocyte development, differentiation and damage. We use a variety of methods including primary cell cultures and transgenic and knockout animals to elucidate cellular pathways mediating oligodendrocyte injury.
The second focus of our laboratory is to elucidate the signals that promote oligodendrocyte survival and regeneration/remyelination after injury, and to study cell-cell interactions that regulate remyelination. These studies should contribute significantly to our understanding of mechanisms of oligodendrocyte development and injury, and provide new clues for potential prevention and treatment of human white matter diseases.",Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n3ef91dcf
Robert,Chapkin,Distinguished Professor,"Research in the Chapkin lab focuses on dietary/microbial modulators related to the prevention of cancer and chronic inflammatory diseases.
Our central goal is to (1) understand cancer chemoprevention at a fundamental level, and (2) to test pharmaceutical agents in combination with dietary/microbial (countermeasures to the Western diet) to more effectively improve gut health and reduce systemic chronic inflammation. Since diet influences gut microbiota composition and metabolite production, to unravel the interrelationships among gut health and the structure of the gut microbial ecosystem, we are in the process of evaluating (using transgenic mouse, Drosophila models and humans) how the gut microbiome modulates intestinal cells, innate immune cells and tumors. As part of this endeavor, we are modeling at the molecular level the dynamic relationship between diet and gut microbe-derived metabolites which modulate chronic inflammation and the hierarchical cellular organization of the intestine, e.g., stem cell niche.",Distinguished Professor||Professor,Biochemistry and Biophysics||Nutrition,https://scholars.library.tamu.edu/vivo/display/n3fbb59f8
Erin,Simmons,Postdoctoral Researcher,,Postdoctoral Researcher,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n4173be63
Shannon,Glaser,Professor,"The long-term goal of my research program is to understand how activated (proliferating) cholangiocytes participate in the progression of cholestatic liver diseases and eventual development of cholangiocarcinoma. My research is focused on elucidating the factors (such as, mechanical stress) and intracellular signaling mechanisms that regulate cholangiocyte proliferation and biliary fibrosis during extrahepatic cholestasis.",Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n424a02f1
Samikkannu,Thangavel,Associate Professor,"Our lab is predominantly interested in the neuropathogenesis of HIV and drug abuse. We are elucidating the role of HIV and drugs of abuse in energy dysregulation, which ultimately may lead the neurodegeneration. We examine the metabolic signatures through inflammasome profiles, mitochondrial biogenesis, and epigenetics. We use in vitro, ex vivo and a transgenic rat model system in our experiments. Our goal is to develop novel diagnostics tests and treatments for neuroAIDs and neurologic damage related to drugs of abuse.",Associate Professor,Pharmacy Practice,https://scholars.library.tamu.edu/vivo/display/n42fbd1a8
Travis,Hein,Professor,"My laboratory studies the regulation of microvascular function at the level of arterioles in the retinal and coronary circulations. Sufficient blood flow supply of oxygen and nutrients to tissues to maintain normal function is controlled in large part by changes in the diameter of arterioles. Vasoconstriction or vasodilation of these small arteries will decrease or increase blood flow and nutrient delivery to the tissue, respectively. Two key chemical factors that are produced within the endothelial cells of blood vessels to control their diameter are nitric oxide (NO), a vasodilator, and endothelin-1, a vasoconstrictor. An imbalance in the production and/or release of these vasoactive factors has been implicated in the early stages of several cardiovascular diseases, but the underlying mechanisms contributing to these pathophysiological changes remain unclear. To address this knowledge gap, our research focuses on identifying cellular and molecular mechanisms that contribute to the vasomotor responses of arterioles to NO and endothelin-1 under conditions of health and disease. Current approaches that we use to investigate these mechanisms in the microcirculation include isolated and perfused arterioles, cultured vascular endothelial and smooth muscle cells, biochemical and molecular techniques (for detection of NO, superoxide anion, protein, and mRNA in arterioles), pharmacological and silencing RNA (siRNA) treatments, and blood flow velocity assessment via Doppler ultrasound.",Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n45051e1b
Louisbruno,Ruest,Associate Professor,,Associate Professor,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n4ba9bf37
Erin,Giles,Assistant Professor,"I am currently building a research program that uses an integrative, translational approach to understand the mechanisms by which obesity promotes postmenopausal breast cancers. My work focuses on understanding how the obese microenvironment, when combined with the metabolic and hormonal changes associated with menopause, promote tumor development, survival, and growth. In parallel, I am investigating the role of adipose tissue inflammation in the development of metabolic disease after menopause. My hope is that the knowledge gained from studying the 'normal' adipose and breast environments during menopause will also help us understand the changes that occur to create a tumor-promoting environment in the breast of obese women during this same window of time.",Assistant Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n4ccf1988
Patricia,Goodson,Professor,,Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n50133914
Thomas,Boutton,Professor,"Dr. Boutton is interested in the ecology of grassland and savanna ecosystems, particularly the impacts of land cover/land use changes on ecosystem processes (productivity, decomposition, biogeochemistry, hydrology). At present, most of his work is oriented towards understanding the influence of woody plant invasion into grasslands and savannas on biogeochemistry and soil biology. He is also interested in understanding ecosystem responses to global changes predicted for the future. The effects of climate, land use, and atmospheric composition on ecosystem structure and function are being investigated at time scales ranging from a few years (contemporary ecosystems) to thousands of years (paleo ecosystems), and spatial scales ranging from the soil aggregate to the landscape. Dr. Boutton also serves as Director of the Stable Isotope Biogeochemistry Laboratory, and teaches two graduate level courses (ESSM 600 - Principles of Ecosystem Science and Management, and ESSM 622 - Biogeochemistry of Terrestrial Ecosystems).",Regents Professor & Sid Kyle Endowed Chair,Ecology and Conservation Biology,https://scholars.library.tamu.edu/vivo/display/n50abe2cc
Cynthia,Meininger,Professor,"My research focuses primarily on the vascular complications of diabetes. Using animal models of human diabetes, we have demonstrated that an inability of endothelial cells to produce nitric oxide may be partly responsible for these vascular complications. We are developing a gene/drug therapy approach for treating cardiovascular disease associated with diabetes. Targeted nanoparticles will deliver either the gene for GTPCH or BH4 itself into endothelial cells oxidatively damaged by diabetes to correct endothelial GTPCH deficiency, increase tetrahydrobiopterin levels, restore nitric oxide production and reverse the vascular dysfunction seen in diabetes. Our endothelium-targeting nanoparticle approach will not only reverse the damage caused by disease but will increase antioxidant levels to protect the endothelial cells from future damage and/or dysfunction.",Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/n531a623d
Glen,Laine,Regents Professor,,"Director , Michael E BeBakey Institute||Professor",Michael E. DeBakey Institute||Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n58440639
M,Benson,Associate Professor,,Associate Professor,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n58e9bd13
Yava,Jones-Hall,Associate Professor,,Associate Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n5b5cb520
Adam,Case,Associate Professor,"Redox signaling is vital for proper immune system function, yet this area of research is understudied. My graduate career focused on the role of mitochondrial superoxide in T-lymphocyte development. I transitioned this expertise into my postdoctoral training where I examined the role of redox signaling in T-lymphocytes during the pathogenesis of cardiovascular disease. As an independent investigator, I have extended this work to identify the contribution of the immune system and redox signaling to different pathological states of psychological trauma and stress. With this, I am investigating the redox, metabolic, and epigenetic mechanisms that may affect immune cell function and potentiate psychological trauma-mediated inflammatory diseases.",Associate Professor||Associate Professor,Medical Physiology||Psychiatry and Behavioral Sciences,https://scholars.library.tamu.edu/vivo/display/n63d8248e
David,Earnest,Professor,"Research in my laboratory employs multidisciplinary approaches to study the cellular and molecular neurobiology of cell-autonomous circadian clocks and the signal transduction pathway responsible for circadian photoentrainment. The aims of current projects are to study: 1) the role of microRNAs (miRNAs) and other signaling molecules in the local temporal coordination of cell- and tissue-specific circadian clocks; 2) mutual interactions between the circadian clock mechanism, inflammatory signaling and metabolism; and 3) the mechanisms linking circadian rhythm disruption with metabolic disorders such as obesity and diabetes, and with pathological changes in neuroprotective responses to stroke.",Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/n640c528f
Yan,Jing,Research Assistant Professor,,Research Assistant Professor,Orthodontics,https://scholars.library.tamu.edu/vivo/display/n69206683
John,Lawler,Professor,,Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n69cbc828
Ivan,Ivanov,Clinical Professor,,Clinical Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n6fa588a3
Robert,Burghardt,Professor,"Research in the laboratory is focused on investigating mechanisms by which a variety of biological response modifiers ranging from mechanical signals, hormones and growth factors to environmental chemicals alter cellular signaling pathways and cellular homeostasis.","Professor||Director, Image Analysis Laboratory",School of Veterinary Medicine and Biomedical Sciences||Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n70a3d026
Frances,Ligler,Professor,,Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n74321a1f
Leslie,Adams,Senior Professor,"My research is focused on the: 1) investigation of the comparative molecular pathogenesis of zoonotic intracellular bacterial pathogens in natural animal models, particularly brucellosis, salmonellosis, and mycobacterial diseases; 2) development of vaccines and host gene expression-based diagnostics for zoonotic and select agent caused diseases, and especially 3) development of in silico host:pathogen interactome predictive models based upon bi-directional in vivo host (bovine/murine) and Brucella spp., Mycobacterium spp.and Salmonella enterica Typhimurium interactions. We developed an in silico computational infection biology model based on actuall temporal in vivo bovine model microarray-based transcriptomic and proteomic profiling of the acute infectious process. We developed a systems biology analysis of both host and pathogen comprehensive transcriptomic and proteomic datasets derived from our in vivo biological model. We computationally fused the datasets based on actual Salmonella, Brucella and Mycobacterium data and computationally predicted bovine host structural proteins to identify maximum likelihoods of host and pathogen protein:protein interactions as the basis for our preliminary in silico interactome model to predict mechanistic genes and linked perturbed cellular pathways.",Senior Professor,Veterinary Pathobiology,https://scholars.library.tamu.edu/vivo/display/n75fee121
Roderick,Dashwood,University Distinguished Professor,"Research integrates multiomic, genetic, epigenetic and immune approaches for precision oncology. Epigenetic readers, writers and erasers that reversibly regulate immune players in the antigen presentation pathway are of current mechanistic interest. Molecular and cell-based assays are combined with preclinical models coupled to polypectomy. Clinical specimens and organoids from patients undergoing colectomy provide for human translation. Supported by the NCI, NINDS/NIA, and the John S. Dunn Foundation.",John S. Dunn Chair in Disease Prevention||Distinguished Professor||Director,Institute of Biosciences and Technology||Center for Epigenetics and Disease Prevention||School of Medicine,https://scholars.library.tamu.edu/vivo/display/n7a63dbe7
Fuller,Bazer,Distinguished Professor,"Dr. Bazer's research in reproductive biology focuses on uterine biology and pregnancy, particularly pregnancy recognition signaling from the conceptus to the maternal uterus by interferon tau and estrogen from ruminant and pig conceptuses, respectively. The roles of uterine secretions as transport proteins, regulatory molecules, growth factors and enzymes and endocrine regulation of their secretion is another major research interest. The endocrinology of pregnancy, especially the roles of lactogenic and growth hormones in fetal-placental development and uterine functions are being studied. The mechanism(s) of action and potential therapeutic value of conceptus interferons and uterine-derived hematopoietic growth factors are areas of research with both pigs and sheep as models for human disease.",Distinguished Professor,Animal Science,https://scholars.library.tamu.edu/vivo/display/n7ad91d50
Michael,Moreno,Director of Innovation for Engineering Medicine,"Dr. Moreno is the J. Mike Walker '66 Faculty Fellow in the Department of Mechanical Engineering, and serves as Director of Innovation for Engineering Medicine (EnMed). In addition, he has joint appointments in the Departments of Biomedical Engineering, Small Animal Clinical Sciences, Health and Kinesiology, and Medical Education at Texas A&M University. Dr. Moreno has over 20 years of experience developing enabling technologies in the fields of experimental biomechanics and medical research across multiple scales including cell, tissue, organ, and whole-body systems. His work has culminated in the development of therapeutic medical technologies and testing systems for medical technologies, including implantable medical devices and tissue engineered regenerative therapies. He currently holds 8 patents and an active provisional patent related to COVID technologies. He is director of the Biomechanical Environments Laboratory, which operates in accordance with the Food and Drug Administration (FDA) Quality System Regulation (QSR). He has designed custom mechanical testing systems and protocols for FDA Good Laboratory Practices (GLP) preclinical mechanical testing and animal safety studies. In addition, Dr. Moreno is a co-founder of Biomechanics Innovation Group (BIG) LLC and has worked previously as a consultant in developing experimental flow and mechanical testing systems and protocols for several major medical device companies (e.g. Boston Scientific, Medtronic, Cordis, Flowmedica, etc.). Dr. Moreno was the recipient of the 2016 Dean of Engineering Excellence Award and 2016 TEES Young Faculty Fellow Award. He was a 2012 recipient of the American Society of Mechanical Engineers Skalak Award for best paper. He is a recipient of the Student Led Award for Teaching Excellence (SLATE Award) and the Senator Phil Gramm Award for Excellence in Scholarly Research and Teaching. He has developed and taught courses in Medical Device Design, Bio-Inspired Engineering Design, Biofluid Mechanics, Biosolid Mechanics, Orthopedic Biomechanics, Motion Biomechanics, and Comparative Biomechanics. As a key curriculum developer for the new Engineering Medicine (EnMed) Program, he developed the Introduction to Engineering Innovation in Medicine, Innovation Immersion Experiences, and the Innovation in Clerkships courses. As Director of the Engineering World Health Summer Institute in Rwanda, an immersive service-learning study abroad program, he teaches Healthcare Technology in the Developing World. He is an active member of the American Society of Mechanical Engineers and currently serves as Chair of the Design, Dynamics, and Rehabilitation Committee. He is also a member of the Biomedical Engineering Society and the European Society of Biomechanics. Dr. Moreno is co-author of 40 peer-reviewed journal publications and 7 book chapters. He has received funding from the National Institutes of Health, National Science Foundation, Department of Defense, and Industry sponsors.",Associate Professor,Mechanical Engineering,https://scholars.library.tamu.edu/vivo/display/n7b729e4b
Mohammad,Mohiuddin,Assistant Professor,,Assistant Professor of Instruction,Mechanical Engineering,https://scholars.library.tamu.edu/vivo/display/n7d9851de
Stephen,Crouse,Professor,"My research focus is in the general area of Exercise as Medicine. My specific health-related research aims have been targeted toward the study of the effects of exercise on blood lipid metabolism, and on other accepted heart and cardiovascular disease risk factors in men and women, young and old. Current research in exercise physiology is focused on the adaptive response of the cardiovascular and musculoskeletal system to exercise, nutrition, and physical training using aquatic, endurance, and resistance modalities of exercise. In progress are research projects in sports physiology to profile elite athletes and study factors that contribute to the health of athletes, including nutritional supplements.",Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n7e212aee
J Timothy,Lightfoot,Professor,"My research focuses on on the genetics of daily physical activity and exercise endurance, as well as the physiological response to high-G exposure and hemorrhage, and the genetics of physical activity. My lab also has a unique interest in the physiological responses of athletes in a variety of non-traditional venues such as auto racing and in musicians.",Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/n7ec5bc99
Paula,Shireman,Professor,"Dr. Shireman is a Professor in the TAMU School of Medicine. She is board certified in vascular surgery, general surgery, wound care and clinical informatics. She is the PI of a pilot clinical trial with the College of Engineering on establishing artificial intelligence algorithms to monitor activities of daily living (ADL) in elderly subjects. Potential applications include aging in place, improved monitoring in healthcare/assisted living institutions and remote monitoring.
She is the PI of an NIH multicenter U01 grant developing predictive models for surgical outcomes including frailty and social risk factors. The goal is to use data to transform health care, influence federal policy and design financially sustainable care pathways improving outcomes for frail and low socioeconomic status patients. Her interests include predictive modeling, machine learning and simulation. She was a member of the MACRA Episode-Based Cost Measure Clinical Subcommittee to develop measures for Peripheral Vascular Disease Management and Chair of the Clinical Subcommittee Workgroup for Hemodialysis Access Creation.","Professor||Professor, Primary Care & Rural Medicine",Medical Physiology||School of Medicine,https://scholars.library.tamu.edu/vivo/display/n7fcb580a
Stephen,Talcott,Professor and Associate Department Head,"Dr. Talcott's research is focused on phytochemicals in fruits and vegetables, antioxidant stability and assessment, postharvest retention, beverage processing and value-added products. Intake of compounds such as phenolic acids, flavonoids, anthocyanins, procyanidins, carotenoids, tocopherols and ascorbic acid are suggested to have an inverse association with the risk of certain cancers and diseases. These compounds are investigated as antioxidants, enzyme inhibitors, and bioactive agents and changes in their concentration and activity are investigated following postharvest handling and processing. Current investigations include phytochemical identification, quantification and stability in tropical and subtropical fruits and vegetables including acai, mango, guava, passion fruit, grapes. As well as peanuts, strawberries, bell peppers and food-grade botanicals.",Professor and Associate Department Head,Nutrition,https://scholars.library.tamu.edu/vivo/display/n8247cf18
Carolyn,Kerins,Associate Professor,,Associate Professor,Pediatric Dentistry,https://scholars.library.tamu.edu/vivo/display/n838d9833
Peter,Davies,Professor,,Interim Department Head||Professor and Director,Center for Translational Cancer Research||Translational Medical Sciences,https://scholars.library.tamu.edu/vivo/display/n83f40a4a
Chunlin,Qin,Professor and Associate Department Head,,Professor and Associate Department Head,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n8539b9ab
Kamlesh,Yadav,Instructional Associate Professor,"Dr. Yadav's primary interest is in translational research, specifically biomarker discoveries and novel therapeutics in cancer (especially prostate) through a combination of biochemistry and genomics. He is also interested in mining EMRs for personalized diagnosis, prognosis and therapeutics using real worlds evidence (RWE) data coupled with machine-learning/AI-algorithms.",Instructional Associate Professor,School of Medicine,https://scholars.library.tamu.edu/vivo/display/n855387b4
Rosemary,Walzem,Professor,"Dr. Walzem's core research focus within the laboratory is directed towards understanding how the structure of triglyceride-rich lipoproteins influences their ability to carry out specific nutrient delivery tasks. Her studies include identification of mechanisms and regulatory processes that control the assembly of trigylceride-rich lipoproteins in issues, structural studies of lipoproteins themselves and physiological studies to determine substrate properties and metabolic fates of different types of lipoproteins. Diet can significantly alter lipoprotein physiology through multiple mechanisms, and studies of diet effects provides a significant sub-theme to the research program. A variety of species are used to address specific questions, however, avian and human lipoprotein metabolism as it relates to egg production and atherogenesis, respectively, are emphasized.",Professor,Poultry Science,https://scholars.library.tamu.edu/vivo/display/n85cd191f
Jonathan,Levine,Professor and Head,,Professor and Head,Small Animal Clinical Sciences,https://scholars.library.tamu.edu/vivo/display/n8ae2a0a7
Jayne,Reuben,"Instructional Associate Professor, Director of Instructional Effectiveness",,Instructional Associate Professor,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/n8bcea977
James,Cai,Professor,"Dr. Cai's research lies at the interface of single-cell biology, computational statistics, and data science. Current research focuses on using machine learning, network science and quantum computing to better understand the diverse behaviors of cells. Dr. Cai's group develops novel algorithms and analytical frameworks to study single-cell omics data from various types of cells, and the genetic basis of phenotypic variability to identify genetic variants that modulate complex phenotypic traits and susceptibility of genetic disorders.",Professor||Professor||Faculty,Veterinary Integrative Biosciences||Center for Statistical Bioinformatics||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n8d287cea
David,Threadgill,Professor,"Our laboratory uses the mouse as an experimental genetic model to investigate factors that contribute to inter-individual differences in health and disease. Ourcurrent research activities include the identification and functional characterization of alleles contributing to cancer susceptibility, the function of theErbbgenefamily in development and disease, and the role of genetic variation in response to environmental stimuli. To support these investigations, we also aredeveloping new genetic tools to support mammalian systems genetic approaches to phenotypes with complex genetic and environmental etiologies.",Director||Professor||Professor||Professor,Cell Biology and Genetics||Institute of Genome Sciences and Society||Biochemistry and Biophysics||Nutrition,https://scholars.library.tamu.edu/vivo/display/n8ee0b54f
Nancy,Turner,Research Professor,"Dr. Turner's research program focuses on determining the impact of dietary constituents on regulatory processes that may protect against carcinogenesis and inflammation in the colon. Her lab is evaluating the effects of fiber sources and the specific phytochemicals contained within them on aspects of cellular proliferation or apoptosis, and microbial/epithelial cell interactions. The goal is to determine how these normal processes are being perturbed by chemical carcinogens, radiation or pro-inflammatory compounds, and how diet may mitigate the damage caused by them. Work conducted in the laboratory is currently funded by the United Sorghum Checkoff Board, the California Dried Plum Board, and the National Space Biomedical Research Institute.",Research Professor,Nutrition,https://scholars.library.tamu.edu/vivo/display/n8f7d7c90
James,Sacchettini,Professor,"My lab uses X-ray crystallography to better understand the relationship between proteins and ligands. Tiny differences in the structure of a molecule can radically change the interaction between a protein and ligand and we are only begining to understand how many factors play a role in this interaction. By manipulating the individual components of a compound it is possible to create a chemical that binds to the protein better than the natural substrate, and prevent the natural reaction from occurring. This is the basis for rational drug design. Our efforts have lead us to collaborations with other labs and scientists in many disciplines as our approach to directed compound design has applications not only in basic research but also in pesticide development, health research and clinical research.",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n90385563
Marielle,Engelen,Professor,"My research focuses on the metabolic alterations underlying involuntary weight loss and muscle wasting in chronic inflammatory diseases, involving the use of stable isotope methodologies, and the effects of dietary modulation and exercise intervention to restore metabolism and physical performance in these patients.",Professor||Professor,Kinesiology and Sport Management||Center for Translational Research in Aging and Longevity,https://scholars.library.tamu.edu/vivo/display/n90a05e0d
Gabriella,Ten Have,Research Assistant professor,"My current expert position within the Center for Translational Research in Aging & Longevity (CTRAL) is based on 25-years of expertise on nutrition, metabolism, and in vivo (patho)physiological studies involving the use of stable isotope approaches and methodologies in animals. I was heavily involved in the design and construction of the new Human Clinical Research Facility at Texas A&M University in 2016 (current home of CTRAL) which further increased my laboratory design, management, and leadership skills. As Director of Animal Research within CTRAL, I design the animal use and the stable isotope use protocols, and perform complex surgical procedures. I develop and implement new quantitative metabolic and stable isotope techniques and procedures in large and small animals. As co-director of the CTRAL analytical lab, I review, design, and collect data pertaining to human and animal stable isotope studies collaborating with national and international researchers. I am also responsible for the administrative responsibilities related to regulatory affairs, (budget) management of the labs and clinic. I oversee the coordination of analyses, all pharmacy related activities, quality control, lab personnel, general equipment maintenance, and laboratory safety procedures. I mentor CTRAL research assistants, graduate students and postdocs, and assist faculty and (inter)national collaborating faculty with grant writing and scientific publications. Finally, I'm a Managing editor of the journals Clinical Nutrition (IF:6.4) and Clinical Nutrition ESPEN.
Complete List of Published Work in MyBibliography http://www.ncbi.nlm.nih.gov/pubmed/?term=Ten+Have+GA",Research Assistant Professor,Center for Translational Research in Aging and Longevity,https://scholars.library.tamu.edu/vivo/display/n95e3ae10
Elizabeth,Racine,Center Director,,"Professor||Associate Department Head for Nutrition, Texas A&M AgriLife Extension||AgriLife Research Center at El Paso Director",Texas A&M AgriLife Research||Nutrition||Nutrition,https://scholars.library.tamu.edu/vivo/display/n9707e148
Larry,Suva,Professor and Head,"The development, control and diseases of the musculoskeletal system have been my scholarly interests for the past 35+ years. Understanding how the musculoskeletal system adapts and progresses throughout life is the basis of my expertise. My research focus has been the skeletal consequences of disease, such as breast cancer bone metastasis and multiple myeloma, fracture healing, osteoporosis, and most recently rare bone diseases. Current research efforts include a focus on utilizing in vivo models (murine and large animals) to discover regulatory pathways fundamental to bone physiology and the development of rare bone disease preclinical model(s) that may provide novel insight into future therapeutic directions. A critical aspect of my academic philosophy is an open door policy and the importance of one-on-one interactions. We must strive to provide training and exposure for our students as they prepare for careers both in and out of academic medicine and research. I emphatically believe that these teaching and mentoring experiences have shaped my scientific career and have helped mold my teaching and mentoring philosophy of placing the best professional, academic, social and personal development of faculty, students and staff above all else.",Professor and Head,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/n98338eea
Bhimanagouda,Patil,"Leonard Pike Inagural University Professor and Interim Head, Food Science and Technology","Dr. Bhimu Patil is internationally recognized for his expertise and research on 'foods for health' and his related educational programs. His systems-wide farm-to-table approaches include examining pre- and postharvest effects on bioactive compounds, isolating and characterizing these compounds from different fruits and vegetables, and understanding their roles in human health. Moreover, he has a strong working relationship with produce industry stakeholders. Dr. Patil has a distinguished record of achievements in education, including leading the development of three unique courses linking agriculture, human health, and sustainability. Texas A&M University has been a leader in this area, due in part to Dr. Patil's seminal contributions in these first-of-their-kind multidisciplinary courses. Dr. Patil's contributions to education are no less distinguished. He developed and taught three unique, innovative multi-state and multi-disciplinary courses, ""Phytochemicals in Fruits and Vegetables to Improve Human Health"", ""Science of Foods for Health"" and ""The Nexus of Food & Nutritional Security, Hunger, and Sustainability"".",Professor||Professor,Nutrition||Horticultural Sciences,https://scholars.library.tamu.edu/vivo/display/n9a0e203e
Alan,Dabney,Associate Professor,,Associate Professor,Statistics,https://scholars.library.tamu.edu/vivo/display/n9b774f13
Hung-Jen,Wu,Associate Professor,"Dr. Wu uses nanostructured materials and analytical tools to develop diagnostic techniques for medical applications. His laboratory recently focuses on understanding the influences of multivalency and cell membrane environment on pathogen-host cell recognition. The applications of his techniques include, infectious diseases screening, exploring cell membrane function, and targeted drug delivery.",Associate Professor,Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n9cbcca3e
Chaodong,Wu,Professor and Presidential Impact Fellow,"The long-term goal of Dr. Wu's research program is to elucidate the mechanisms underlying the pathogenesis of obesity and overnutrition-associated metabolic diseases including insulin resistance, diabetes, and fatty liver disease so that novel dietary and/or pharmacological approaches can be developed for preventing and/or treating metabolic diseases. Using molecular, cellular, and integrative approaches, the Wu lab is focused on investigating the interaction between metabolism and inflammation.",Professor||Professor,Texas A&M AgriLife Research||Nutrition,https://scholars.library.tamu.edu/vivo/display/na24a9d43
Patrick,Stover,Vice Chancellor and Dean,,Professor||Vice Chancellor and Dean,College of Agriculture and Life Sciences||Nutrition,https://scholars.library.tamu.edu/vivo/display/na2e4838e
Frank,Raushel,Distinguished Professor,"Enzymes catalyze a remarkable variety of chemical reactions with extremely high rate enhancements and very selective substrate specificity. The research efforts in our laboratory are directed towards a more complete understanding of the fundamental principles involved in enzyme-catalyzed chemistry and the dependence on protein structure. The pursuit of this information will provide the framework for the rational and combinatorial redesign of these complex molecules in an effort to exploit and develop the properties of enzyme active sites for a variety of chemical, biological, and medicinal uses. The techniques that we are using to solve these problems include steady-state and stopped-flow kinetics, NMR and EPR spectroscopy, X-ray crystallography, and the synthesis of inhibitors and suicide substrates. We are also using recombinant DNA methods to construct new proteins with novel catalytic properties. These efforts are currently being directed to the reactions catalyzed by phosphotriesterase and enzymes involves in the degradation of lignin and the metabolism of novel carbohydrates from the human gut microbiome.
The phosphotriesterase enzyme catalyzes the hydrolysis of organophosphate insecticides and other toxic organophosphate nerve agents. We have discovered that the active site of this protein consists of a unique binuclear metal center for the activation of water. We are now investigating the structure and properties of this metal center as a model system for the evolution of enzyme structure and function. Toward this end we have mutated the active site of this enzyme in a research project to create novel enzymes with the ability to detect, destroy, and detoxify various chemical warfare agents such as sarin, soman, and VX. The Raushel laboratory is also engaged in a large scale research project that is focused on the development of novel strategies for the discovery of new enzymes.",Distinguished Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/na84f2fec
Jerome,Trzeciakowski,Professor and Associate Department Head,,Professor and Associate Department Head,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/na90a7aab
Monique,Rijnkels,Research Associate Professor,"We are studying transcriptional regulation and the genomics of the mammary gland and the role of epigenetic events during mammary gland development and lactation. We use various genomics approaches to mammary gland biology and my laboratory has been using ChIP-seq, DNase-seq, ATAC-seq and other epigenomic approaches to determine chromosomal states at different developmental time points to determine the role of epigenetic regulation in mammary gland development and understand gene regulation in the mammary gland in general. We use transgenic mouse models to study gene regulation in mammary gland development and lactation.",Research Associate Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/na956415b
Samba,Reddy,Professor,"My major research goals are to understand the molecular pathophysiology and develop novel therapeutic strategies for epilepsy, with an emphasis on neurosteroids and GABA inhibition in the brain. Neurosteroids are steroids synthesized locally within the brain that rapidly change neural excitability by non-genomic mechanisms, principally via postsynaptic GABAA receptors that play critical role in epilepsy. Current work in his lab is focused on uncovering molecular mechanisms of neurosteroids in epilepsy and brain disorders, and testing the efficacy of mechanism-based, rationale therapeutic strategies for epilepsy and epileptogenesis. Reddy lab is utilizing multidisciplinary approaches such as pharmacological, molecular, electrophysiological (patch-clamp), mass spectrometry, and transgenic mouse models in research projects.",Professor,Neuroscience and Experimental Therapeutics,https://scholars.library.tamu.edu/vivo/display/na96b32aa
Steven,Riechman,Associate Professor,My research interests include human muscle and cognitive performance and fatigue. Specifically nutritional and exercise interaction on sustained cognitive and physical performance in challenging environments.,Associate Professor||Associate Professor,Kinesiology and Sport Management||Nutrition,https://scholars.library.tamu.edu/vivo/display/nad2da75c
Ian,Tizard,Dr.,"Immunology with an emphasis on innovative vaccine technology and on the immunology of domestic mammals.Avian diseases with an emphasis on diseases of psittacines, Paleovirology,Genomics with an emphasis on whole avian genomes.The intestinal microbiome and its role in immunity.",University Distinguished Professor,School of Veterinary Medicine and Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/naefbabcf
Christopher,Bailey,Professor,"Research areas include actively seeking to reduce the environmental impact of poultry production primarily by seeking improvements in nutrient utilization. Strategies include seeking improvements in ingredient processing and feed manufacture, evaluation of alternate rearing/feeding strategies such a continuous multiphase feeding, dietary incorporation of exogenous enzymes, use of prebiotic materials such as mannan oligosaccharides (MOS), and use of antibiotic like growth promoters.",Professor,Poultry Science,https://scholars.library.tamu.edu/vivo/display/nb0813ee5
Reza,Avazmohammadi,Assistant Professor,,Assistant Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/nb090186f
Stephen,Safe,Distinguished Professor,The aryl hydrocarbon receptor (AhR) is a nuclear helix-loop-helix transcription factor which forms a ligand-induced nuclear heterodimer with the AhR nuclear translocator (Arnt) protein. Research in this laboratory is focused on the molecular mechanism of crosstalk between the AhR and estrogen receptor (ER) signaling pathways in which the AhR inhibits estrogen-induced gene expression. The antiestrogenic activities of some AhR agonists are also being developed as drugs for clinical treatment of breast and endometrial cancers in women. Research on estrogen-dependent gene expression in various cancer cell lines is focused on analysis of several gene promoters to determine the mechanisms of ERa and ERb action. This includes several genes that are activated through interactions of the ER with Sp1 protein and other DNA-bound transcription factors.,Distinguished Professor||Distinguished Professor||Syd Kyle Chair,School of Veterinary Medicine and Biomedical Sciences||Biochemistry and Biophysics||Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/nb20fdbd9
Ivan,Rusyn,Professor,"My laboratory has an active research portfolio funded by the National Institutes of Health and the US EPA with a focus on the mechanisms of action of environmental toxicants and the genetic determinants of the susceptibility to toxicant-induced injury. Through a combination of in vivo animal studies and experiments that utilize cellular and molecular models, we aim to better understand why certain chemicals cause cancer or organ damage in rodents and whether humans in general, or any susceptible sub-population in particular, are at risk from similar exposures.
The main focus of our inter-disciplinary research is on improving the linkages between exposures and adverse health effects Specifically, we develop innovative experimental methods and computational tools which enable analysis of data across multiple dimensions including SNPs, -omic endpoints, multiple chemicals and traditional toxicity phenotypes.","Professor, Veterinary Physiology and Pharmacology",School of Veterinary Medicine and Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/nb3daa5ce
Ashok,Shetty,Professor and Associate Director,"Dr. Ashok K. Shetty's laboratory is interested in developing clinically applicable strategies efficacious for enhancing brain function after injury, disease, or aging. The central areas of investigation are focused on:
o Mechanisms by which intranasally administered stem cell-derived extracellular vesicles (EVs) promote neuroprotection, neuroregeneration, neural plasticity, and alleviate neuroinflammation. The sources of EVs include human bone marrow mesenchymal stem cells (hMSCs), and human induced pluripotent stem cell-derived neural stem cells (hiPSC-NSCs), astrocytes, and microglia. The model systems include traumatic brain injury (TBI), closed head injury (CHI), Aging, Alzheimer's disease (AD) and temporal lobe epilepsy (TLE).
o Mechanisms by which transplanted human neural stem cells or human GABA-ergic precursor cells derived from hiPSCs promote brain repair, and alleviate spontaneous seizures, and cognitive and mood impairments in prototypes of SE, TLE, and TBI.
o Elucidating mechanisms of brain dysfunction and chronic neuroinflammation in prototypes of Gulf War Illness. Developing therapeutic strategies to alleviate neuroinflammation, systemic inflammation, and cognitive and mood impairments in models of GWI.
o Developing clinically feasible strategies for improving brain function in aging and AD models via stimulation of endogenous neural stem cells using drugs and biologics.
Dr. Shetty has received continuous extramural research funding as PI for >25 years from sources such as the NIH, DOD, Dept of Veterans Affairs (VA), and industry. These include seven R01 grant awards and an R21 grant award from the NIH; seven CDMRP grant awards from the DOD; five Merit Grant awards and two Research Career Scientist Awards from the VA; and two industry grants. He has also served as Co-I of 8 other DOD grants. Grants from the NIH, DOD, and industry fund Dr. Shetty's current research. Dr. Shetty has authored 181 peer-reviewed publications (147 as senior/first author) and edited a book on Neural Stem Cells in Health and Disease. His work has appeared in many prestigious and high-impact journals. Dr. Shetty has received >17,000 citations for his publications with an h-index of 64. Dr. Shetty has the distinction of serving on two NIH Study Sections and one VA study section as a Chartered Member. Besides, he has served as a member of many other study section panels of the NIH, DOD, VA, and Maryland State Stem Cell Research Fund. Dr. Shetty is Co-Editor-in-Chief of the journal, Aging & Disease and Associate Editor of 6 Neuroscience journals. He is also a Member of the Editorial Board of many prestigious journals, including The Journal of Extracellular Vesicles, Aging Cell, and Stem Cells. Dr. Shetty is a Fellow of the American Society for Neural Transplantation and Repair. Dr. Shetty received the Senior Research Excellence Award in 2021 from the TAMU College of Medicine and is among the ""World's Top 2% Scientists"" across all scientific fields.","Associate Director, Institute for Regenerative Medicine||Professor",Cell Biology and Genetics||Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/nba613a86
Roula,Mouneimne,Research Professor,"For the past 24 years my research focused on: 1- The development of methods in the fluorescence microscopy field that achieve data acquisition and analysis in real time, quantitative analysis, and mathematical modeling of cellular signaling. 2- The development of novel technological tools to decipher molecular and physiological events in cells and immunological tissues under normal toxin exposure and disease conditions.",Research Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/nbb6c8c2a
Lih,Kuo,Regents Professor,"My research focuses on the physiological and pathophysiological regulation of coronary and retinal microcirculation. In the circulatory system, the amount of blood delivered to each tissue can be regulated by the activity of arterial microvessels (<100 m in diameter). Changes in vascular tone, i.e., constriction or dilation of these microvessels, will decrease or increase blood supply to the tissue, respectively. However, the mechanisms involved in the regulation of vascular tone are not completely understood. Our current research focuses on the regulation of microvascular tone by hemodynamic (e.g., pressure and shear stress), metabolic (e.g., adenosine, osmolarity, K+, pH, pO2) and neural (adrenergic receptors) factors. To have an integrative view on the flow regulation, this basic information are reconstructed using mathematical model and computer simulation technology. This research provides a basic foundation critical to our understanding of blood flow regulation in the microvascular network under normal and disease states.",Regents Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/nbc742025
Richard,Kreider,Professor,"Director of the Exercise and Sport Nutrition Lab.
We study the role of exercise and nutrition on health, performance, disease and rehabilitation.","Faculty Fellow||Professor and Head||Director||DIrector, Human Clinical Core||Professor",Center for Health Systems and Design||Kinesiology and Sport Management||School of Education and Human Development||The Exercise and Sport Nutrition Laboratory||Nutrition,https://scholars.library.tamu.edu/vivo/display/nbc81b4e0
Gary,Mccord,Professor,"I am primarily a teaching faculty member and also a board certified radiologist. In the past I have spent some time researching the use of computerized applications for detection of calcifications on mammograms, but I am currently devoting all of my time in the neuroscience department to teaching. I am a full time participant and senior faculty member in the medical gross anatomy and neuroscience courses. I also maintain some private practice time in radiology and work in the Office of Student Affairs at the medical school. My current research interests are in the domain of medical education, especially looking at determinants of licensure exam performance.",Professor||Associate Dean,Neuroscience and Experimental Therapeutics||School of Medicine,https://scholars.library.tamu.edu/vivo/display/nbccd1f64
Amanda,Macfarlane,Director Food and Nutrition Evidence Center,,Director Food and Nutrition Evidence Center||Professor,Texas A&M AgriLife Research||Nutrition,https://scholars.library.tamu.edu/vivo/display/nbd1502ad
Nicolaas,Deutz,Professor,"My research background and expertise focus on nutrition, metabolism, and physiology studies involving the use of stable isotope methodologies, both in humans and animals. I also have extensive experience with isotopic calculations, validation and data interpretation.",Professor,Primary Care and Rural Medicine,https://scholars.library.tamu.edu/vivo/display/nbd596655
David,Huston,Professor,The overall goal of my laboratory is to understand mechanisms regulating inflammation and thereby develop strategies for modulating immune responses. One project focuses on the role of the cytokine thymic stromal lymphopoietin (TSLP) as the master switch in the pathobiology of allergic inflammation and asthma. The role of allergens and respiratory viruses on the induction of TSLP transcription by mast cells and epithelial cells is being studied in vitro and in human subjects.,Professor,Microbial Pathogenesis and Immunology,https://scholars.library.tamu.edu/vivo/display/nbd68089f
Sai,Koka,Associate Professor,"My research is focused on the studying the cellular and molecular mechanisms regulating the development of cardiometabolic disorders and identifying novel pharmacologic strategies to combat cardiovascular cardiovascular diseases such as atherosclerosis, endothelial and vascular dysfunction in diabetic, obese and aging patients. Currently we are exploring the role of gut microbe-derived metabolites in endothelial and vascular cell signaling.",Associate Professor,Pharmaceutical Sciences,https://scholars.library.tamu.edu/vivo/display/nbdc012b7
Carl,Tong,Associate Professor,"Cardiovascular disease remains as the number one cause of mortality. About 50% of heart failure patients will perish in five years. At age 40, lifetime risk of developing heart failure is one in five. Diastolic dysfunction heart failure prevalence has increased to 50% of all heart failure. In this context, My research is dedicated to elucidating underlying mechanisms and translating discoveries to new treatments.",Associate Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/nbf050ef5
William,Mcintosh,Professor,Current research of the choices row farmers make regarding soil erosion; the willingness of feedlot operators and dairies to reduced antibiotic use earlier before cattle goes to slaughter; how parents' and children's affects one anothers use of time.,Profesor||Professor||Faculty Fellow||Professor,"Center for Health Systems and Design||Sociology||Nutrition||Hospitality, Hotel Management and Tourism",https://scholars.library.tamu.edu/vivo/display/nc0988f9a
Susan,Bloomfield,Professor,"My research interests focus on the integrative physiology of bone, with specific reference to adaptations to disuse, microgravity, and caloric deficiency.",Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/nc2a60db1
James,Fluckey,Professor,"My research focuses on mechanisms associated with protein turnover and glucoregulatory function in muscle and how these mechanisms may be altered by exercise, aging, obesity, diabetes or periods of microgravity. More currently, we are interested in small molecules arising from contracting skeletal muscle that impact other cells/tissues in the body, including cancer.",Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/nc58f05ea
Abhishek,Jain,Associate Professor,"The overarching theme of my research is to design patient-specific and digital microengineered models of cardiovascular and hematologic diseases (such as, atherosclerosis) for enabling basic scientific discoveries and the advancement of precision and personalized healthcare.",Associate Professor,Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/nc7e6af54
Giuliana,Noratto,Research Assistant Professor,"Research is focused on the role of bioactive compounds in dairy products/by-products and botanicals with effects for prevention of chronic/inflammatory diseases using in vitro and in vivo models. Emphasis is on molecular mechanisms modulated by non-digestible bioactive compounds, partially through changes in intestinal bacteria.
Research projects look to integrate microbiome, metabolomics, and proteomics analyses to investigate the biological mechanisms influenced by dietary interventions and their correlations with end point biomarkers of obesity-related diseases including diabetes, cancer, and cardiovascular diseases. Research is funded by the Western Dairy Center, National Raspberry Council, Northwest Cherry Growers/ Washington State Fruit Commission, and Washington State Department of Agriculture.",Associate Research Scientist,Texas A&M AgriLife Research,https://scholars.library.tamu.edu/vivo/display/nca14d7e6
Cristine,Heaps,Dr.,,Associate Professor and Associate Department Head,School of Veterinary Medicine and Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/ncbe2c8d8
Xin,Li,Professor,AI-assisted visual data processing and analysis;
Computer graphics;
Computer vision;
3D scene reconstruction;
Computer-aided design and engineering;
Computational Forensics;
Medical Image Analysis and Motion Modeling;
Robotic Simultaneous Localization and Mapping (SLAM);
Text-to-Image Synthesis with Deep Learning;
Cross-modality data fusion;
Real-time scene reconstruction and analysis for disaster warning and monitoring.,Professor,Visualization,https://scholars.library.tamu.edu/vivo/display/ncecb7a52
Christopher,Woodman,Associate Professor,My research focuses on the interactive effects of aging and exercise training on skeletal muscle vascular beds.,Associate Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/ncffb2181
Fen,Wang,Professor,"The laboratory focuses on understanding the molecular basis of cell signaling, and how aberrant cell signaling leads to birth defects and causes cancers. Using in vitro cell culture systems and in vivo mouse models, we study how the fibroblast growth factor (FGF) activates its receptor (FF) tyrosine kinase, and how the activated FF transmits the signals to downstream targets and regulates proliferation, differentiation, homeostasis, and function of the cells, as well as in organogenesis and development, including prostate and cardiovascular system development. The laboratory also employs molecular biology, cell biology, and mouse genetic technologies to study how aberrant FGF signals promote tumor initiation, progression, and metastasis. In addition, how environmental factors contribute to tumorigenesis and congenital birth defects by modulating FGF signal intensity and specificity is also under the scope of our research interests.",Professor,Institute of Biosciences and Technology,https://scholars.library.tamu.edu/vivo/display/nd5ef47ba
Steven,Martin,Clinical Associate Professor,,Clinical Associate Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/ne06e80e9
Brett,Mitchell,Professor,Our research focuses on understanding the mechanisms by which immune system activation causes organ dysfunction and various forms of hypertension.,Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/ne0d93385
Susanne,Talcott,Professor,"Dr. Susanne Talcott's research revolves around botanical compounds (polyphenols, terpenoids and alkaloids) and the impact of their metabolites on inflammation, cognitive function, and intestinal health. She primarily focuses on conducting human clinical studies to understand the pharmacokinetics and pharmacodynamics of these compounds.
Recently, the impact of bioactive metabolites produced by the gut microbiota on intestinal and cognitive health through the gut-brain axis has been of great interest.
Dr. Susanne Talcott is working on federally funded projects (USDA, NIH) and collaborates with the dietary supplement and functional food industry on health-related product claims that are supported by unbiased scientific evidence and comply with FDA- and FTC-regulations.",Professor||Professor,Food Science and Technology||Nutrition,https://scholars.library.tamu.edu/vivo/display/ne4324c37
Robert,Taylor,Research Professor,,Research Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/ne49b235c
Sanjukta,Chakraborty,Assistant Professor,"Tumor cell metastasis to the regional or draining lymph nodes (LN) is the primary indicator of tumor aggressiveness. Tumor cells lodged in nodes acquire significant vulnerabilities that enable them to evade therapy. In addition, expansion of the vasculature near the primary tumor bed activates multiple pathways that induce lymphangiogenesis and angiogenesis. The primary research focus of my laboratory is to determine how an inflammatory tumor-lymphatic microenvironment contributes to cancer metastasis and progression by reprograming molecular pathways in a) primary tumor niche and b) metastatic tumor draining LNs. We use tumor-LEC 3D spheroids, orthotopic tumor models and clinical samples to evaluate the tumor-lymphatic crosstalk in different solid tumors. In addition, we are also interested in delineating the role of the microbiota and specific tryptophan metabolites in cancer progression, tumor associated lymphangiogenesis and alterations to the metastatic node.",Assistant Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/ne7dd93d7
Thomas,Welsh,Professor,"Areas of research for Dr. Welsh include developing endocrine-based biotechnologies to selectively and precisely regulate growth and reproduction in livestock; in vitro and in vivo methodologies used to identify mechanisms whereby specific hormones regulate the biosynthesis of pituitary, adrenal, gonadal and hypothalamic hormones; and correlative in vivo and in vitro studies conducted using bovine, equine, porcine and ovine animal models.",Professor||Professor,Animal Science||Texas A&M AgriLife Research,https://scholars.library.tamu.edu/vivo/display/neae2cac6
Christopher,Quick,Professor,My cardiovascular research focuses on interstitial fluid balance; pulsatile hemodynamics; coordination of adaptation in vascular networks. Since 2016 I have focused on developing research education programs based on the Research-Intensive Community model developed with Dr. Sarah Gatson and students.,Professor,Veterinary Physiology and Pharmacology,https://scholars.library.tamu.edu/vivo/display/neb80aca8
Charles,Shea,Senior Professor,,Senior Professor,Kinesiology and Sport Management,https://scholars.library.tamu.edu/vivo/display/ned525ce0
Stephen,Smith,Professor,"Dr. Smith teaches meat science, nutrition and physiological nutrition courses. He also conducts research on the growth and development of adipose tissue, particularly in the bovine species. He has investigated the limitation of cattle to marble and has used his background in molecular biology to investigate lipid metabolism in the bovine muscle.",Professor||Professor,Animal Science||Nutrition,https://scholars.library.tamu.edu/vivo/display/nee8e5966
Tapasree,Roy Sarkar,Assistant Professor,"The dynamic interaction of cancer cells with the tumor microenvironment (TME) is crucial to stimulate the heterogeneity of cancer cells, and to increase multidrug resistance ending in cancer cell progression and metastasis. Understanding the underlying molecular & cellular mechanisms governing these interactions can be used as a novel strategy to disrupt cancer cell-TME interaction and contribute to the development of efficient therapeutic strategies. By integrating cutting-edge cellular and molecular biology, bioinformatics, and bioengineering approaches, our lab is investigating the complexity of TME.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/nf08a1119
Joseph,Rutkowski,Assistant Professor,"Current ongoing projects are mostly focused on the Lymphatic Physiology of Metabolic Systems. Herein, we are utilizing an extensive toolkit of genetic mouse models and physiologically-relevant in vitro systems to identify how changes in lymphatic biology impact metabolite transport and whole animal metabolism. Other projects use our toolkit in identifying factors driving the pathology of lymphatic diseases such as generalized lymphatic anomalies (GLA) and lymphedema. Additional collaborative efforts employ our models in renal and pulmonary health.",Assistant Professor,Medical Physiology,https://scholars.library.tamu.edu/vivo/display/nf1902e01
Jay,Maddock,Professor,My research focuses on social ecological approaches to increasing physical activity and the effect of spending time in nature on human health.,Professor||Faculty Fellow,Center for Health Systems and Design||Environmental and Occupational Health,https://scholars.library.tamu.edu/vivo/display/nf33a34f7
Jiang,Chang,Professor,"Heart failure (impaired ventricular pump function) is an eventual outcome for diverse cardiovascular disorders and the leading cause of combined morbidity and mortality in the United States and other developed industrial nations. The focus of my lab is to understand the molecular and cellular mechanisms that initiate and mediate the pathogenesis of maladaptive cardiac remodeling, such as cardiac hypertrophy and fibrosis as result of various pathological scenarios such as myocardial infarction, hypertension, obesity, diabetes, aging and post-traumatic stress disorder. The overall approach consists of generation and analysis of clinically-relevant genetic mouse models including a tool mouse enabling tracking endogenous cardiac exosomes, and conduct mechanistic studies using cutting-edge technology. The ultimate goal of our efforts is to provide clinical translation for the prevention and treatment of pathological cardiac remodeling from our mechanistic studies.",Professor,Center for Genomic and Precision Medicine,https://scholars.library.tamu.edu/vivo/display/nf80a9dad
Darwin,Prockop,Professor,,Professor,Cell Biology and Genetics,https://scholars.library.tamu.edu/vivo/display/nfcfd0990
Phillip,Kramer,Professor and Director,,Professor and Director,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/nffafc708