First name,Last name,Preferred title,Overview,Position,Department,Individual
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
Michael,Benedik,Regents Professor,My laboratory studies basic biological problems using molecular genetic methods with simple microbial systems. Additionally we are developing novel microbial approaches for biotechnological applications.,Regents Professor,Biology,https://scholars.library.tamu.edu/vivo/display/nac9856e5
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
Randall,Davis,Regents Professor,"Randall William Davis is an educator and researcher who studies the physiology and behavioral ecology of marine mammals and other aquatic vertebrates. His physiological research focuses on adaptations of marine mammals for deep, prolonged diving. Davis has continually emphasized the importance of studying aquatic animals in their natural environment and has spent many years developing animal-borne instruments that record video and monitor three-dimensional movements, swimming performance and environmental variables to better understand their behavior and ecology. His academic endeavors and 100 research expeditions have taken him to 65 countries and territories on seven continents and all of the world's oceans.
https://en.wikipedia.org/wiki/Randall_William_Davis",Regents Professor||Regents Professor,"Rangeland, Wildlife and Fisheries Management||Wildlife and Fisheries Sciences||Marine Biology",https://scholars.library.tamu.edu/vivo/display/nf5158696
Kathy,Svoboda,Regents Professor,"Dr Svoboda is a well-established senior principal investigator with a broad background in developmental biology and cellular biology. Her research focus is on the cell biology of whole embryonic tissues, including cornea, cartilage, palate. Her lab has been funded from NIH, March of Dimes, Foundations and Private Companies for 3 decades. As a postdoctoral fellow at Harvard Medical School, she carried out cell and molecular biology experiments on developing systems and worked with Dr. Elizabeth Hay when she developed her theories on cell-matrix interactions. As PI or co-Investigator on many previous university- and March of Dimes funded grants (over 30 years of continuous funding), she worked on how cell-matrix interactions change during development. In addition, she was a mentor on two training grants (T32 and KL2) and has successfully administered other NIH supported developmental and cell biology projects (e.g. staffing, research protections, and budget), collaborated with other researchers, and produced peer-reviewed publications from each project.
She has a new project that contributes evidence to the theory that periocular mesenchyme (POM) cells contribute to the development of the ciliary body, trabecular meshwork and the iridocorneal angle. The objective of this project is to determine if Gli1 positive cells contribute to the POM and anterior eye structures by using inducible Gli1-CreERT2; tdTomatoflox (Gli1-tdTomato) mouse model. Experiments were recently completed that demonstrated the Gli1 + cells were also positive for Pitx2, FOXC1, and FOXC2, known markers for periocular mesenchyme during anterior eye development.
She has successfully trained 40 Postdoctoral, Ph.D., M.S. graduate students, undergraduate, medical and dental predoctoral students, and college/high school summer research trainees.",Regents Professor,Biomedical Sciences,https://scholars.library.tamu.edu/vivo/display/nf7d937ba