Bettina Willie
- Associate Dean of Research and Graduate Education
- Associate Member, Department of Biomedical Engineering and Department of Surgery and Department of Pediatric Surgery
Bettina Willie earned a doctoral degree in Bioengineering from the University of Utah and underwent postdoctoral training at the Institute for Trauma Surgery and Biomechanics, University of Ulm in Ulm, Germany and then at the Hospital for Special Surgery, Weill Cornell Medical College in NYC, USA. From 2008-2015, she led a research group in the Julius Wolff Institute at the Charit茅 - Universit盲tsmedizin Berlin, in聽Germany. She became an Associate Professor in 2015 and a Full Professor in 2022 in the Department of Pediatric Surgery, Faculty of Medicine and Health Sciences at 平特五不中. In mid-2022, she joined the Faculty of Dental Medicine and Oral Health Sciences as a Tenured Full Professor. Since 2015, she has been an investigator at Shriners Hospitals for Children-Canada and an Associate Member in the Departments of Biomedical Engineering, Surgery, and Pediatric Surgery at 平特五不中.
Her research program uses multidisciplinary approaches, including state-of-the-art high resolution imaging technologies, to study the causes as well as improve the detection and treatment of skeletal fragility. She is particularly interested in understanding how the local mechanical environment influences bone adaptation and regeneration during skeletal aging and rare bone disorders. She examines the role of osteoblastic cells (osteocytes and osteoblasts) in the mechanosensation processes, since these cells make up the primary sensor and effector cells of mechanical cues.
The following themes comprise her research program:
Theme 1: Investigate the causes and improve the detection and treatment of skeletal fragility in rare bone diseases (eg. osteogenesis imperfecta, XLH, multiple myeloma bone disease, marfan syndrome, gerodermia osteodysplastica).
Theme 2: Determine the mechanistic role that the circadian clock plays in mechanoadaptive bone (re)modeling.
Theme 3: Enhance bone healing outcomes using novel drugs and biophysical therapies.
Theme 4: Investigate聽mechanical stimuli as an adjuvant bone anabolic therapy in rare bone diseases
Theme 5: Examine how skeletal aging and the mechanical environment affect bone fragility in egg laying hens.
PhD, Bioengineering, University of Utah
Skeletal Mechanobiology, Osteocytes, Bone healing, Bone adaptation, Rare bone diseases, Microcomputed tomography, Circadian rhythms in bone, multiple myeloma bone disease聽
Gabel L, Kent K, Hosseinitabatabaei S, Burghardt AJ, Leonard MB,听Rauch F, Willie BM,听Guidelines on high-resolution peripheral quantitative computed tomography assessment of bone density, microarchitecture, and strength in pediatric populations, Current Osteoporosis Reports, 21(5):609-623, 2023.
Vitienes I, Mikolajewicz N, Hosseinitabatabaei S, Bouchard A, Julien C,听Graceffa G, Rentsch A, Widowski TM, Main R, Willie BM,听Breed and loading history influence in vivo skeletal strain patterns in female chickens,听Bone, 173:116785, 2023.
Hosseinitabatabaei S, Mikolajewicz N, Zimmermann EA, Rummler M, Steyn B, Julien C, Rauch F, Willie BM,听3D image registration marginally improves the precision of HR-pQCT measurements compared to cross-sectional-area registration in adults with osteogenesis imperfecta,听Journal of Bone and Mineral Research, 37(5):908-924, 2022.
Bouchard A, Dsouza C, Julien C, Rummler M, Gaumond M-H, Cermakian N, Willie BM,听Bone adaptation to mechanical loading in mice is affected by circadian rhythms,听Bone, 24:116218, 2021.
Mikolajewicz N, Zimmerman EA, Rummler M, Hosseinitabatabaei S, Julien C, Glorieux F, Rauch F, Willie BM,听Multisite longitudinal calibration of HR-pQCT scanners and precision in osteogenesis imperfecta,听Bone, 147:115880, 2021
Rummler M, Ziouti F, Bouchard A, Brandl A, Duda GN, Bogen B, Beilhack A, Lynch M, Jundt F, Willie BM,听Mechanical stimulation rescues bone loss and exerts cell-extrinsic anti-tumor effects in the MOPC315.BM.Luc model of myeloma bone disease,听Acta Biomaterialia, 119:247-258, 2021.聽