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Haviva M. Goldman

Assistant Professor

Neurobiology and Anatomy, Drexel University College of Medicine

Research Instructor, Orthopedic Surgery

Affiliated Faculty, Materials Science and Engineering


Office: Queen Lane Rm 172

E-mail: hgoldman@drexelmed.edu

Phone: 215-991-8467

Fax: 215-843-9082

Research Webpage: http://neurobio.drexelmed.edu/Goldmanweb/

I received my doctorate in Physical Anthropology from the City University of New York (as part of the New York Consortium of Evolutionary Primatology (NYCEP) Graduate Program in Anthropology). I am predominantly involved in the teaching of Gross Anatomy and Microanatomy to First Year Medical Students, but am also actively engaged in bone biology research.


My research in bone biology aims to improve our understanding of human variability in microstructural and geometric properties of bone. I am interested in understanding how the size and shape of whole bones, as well as the distribution, quantity and quality of the mineralized tissue that forms the bone, reflect both evolutionary constraints of skeletal growth and development, and responsiveness to mechanical loading during life. My research has focused on examining bone microstructure, bone function and the process of bone aging in humans. Specifically, I have studied variability in selected material (i.e. histological composition) and structural (i.e. geometric shape) properties of bone within a sample of adult modern human mid-shaft femora, examining the interactions between these variables as related to biomechanical loading. This research has applications to both the study of age related bone diseases such as osteoporosis, as well as to the reconstruction of health and activities of past populations (through the study of archaeological skeletal remains).

My current research activities include studies of bone growth and development in order to better understand how these processes influence the attainment of adult bone morphology and quality at macrostructural, microstructural and nanostructural length scales. I am also interested in further integrating analyses of bone microstructure with theoretical modeling of the biomechanics of human locomotion, in an effort to better understand how changes in bone structure affect fracture risk.   

I have recently established the Bone Biology Laboratory, which is dedicated to the study of bone quality, structure and adaptation during growth, aging and disease. The laboratory is located at Drexel's Queen Lane campus, established with support from the Department of Orthopedic Surgery. The facility will provide Drexel students and residents new opportunities to participate in bone biology research, as well as to foster interdisciplinary research in musculoskeletal biology between Basic Science, Clinical Orthopedics and Engineering disciplines.


I am primarily engaged in teaching anatomy and microanatomy to first year medical students, as part of Drexel's PIL and IFM programs. I also participate in an advanced anatomy course for Orthopedic Surgery Residents, and will be advising some residents in their research internships. In the past, I have taught at the undergraduate level in Physical Anthropology, including courses such as human osteology, forensic anthropology, and comparative primate anatomy. For more information on any of these teaching activities, please visit my teaching page.