C
Cari M. Whyne
Researcher at Sunnybrook Research Institute
Publications - 210
Citations - 4227
Cari M. Whyne is an academic researcher from Sunnybrook Research Institute. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 34, co-authored 181 publications receiving 3618 citations. Previous affiliations of Cari M. Whyne include University of Toronto & Sunnybrook Health Sciences Centre.
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Journal ArticleDOI
Vertebral compression fracture after stereotactic body radiotherapy for spinal metastases
TL;DR: The evidence and predictive factors for VCF induced by spinal SBRT are summarized, the pathophysiology of VCF in the metastatic spine is reviewed, and strategies used to prevent and manage this potentially disabling complication are discussed.
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T-Lymphocytes Enable Osteoblast Maturation via IL-17F during the Early Phase of Fracture Repair
Diane Nam,Elaine Mau,Yufa Wang,David Wright,David Silkstone,Heather Whetstone,Cari M. Whyne,Benjamin A. Alman +7 more
TL;DR: A model in which the Th17 subset of T-lymphocytes produces IL-17F to stimulate bone healing is proposed, which in turn may aid in optimizing fracture management and in the treatment of impaired bone healing.
Volumetric quantification of cement leakage following percutaneous vertebroplasty in metastatic and osteoporotic vertebrae
TL;DR: In this paper, the authors quantified and compared cement leakage and its clinical significance in osteoporotic and metastatic vertebrae treated with vertebroplasty and found that despite high incidences of cement leakage, patients experienced significant immediate pain relief post-vertebroplastic surgery.
Journal ArticleDOI
Volumetric quantification of cement leakage following percutaneous vertebroplasty in metastatic and osteoporotic vertebrae
TL;DR: There exists a risk of serious complications due to cement leakage, and both patients with osteoporotic and metastatic disease experienced significant immediate pain relief postoperatively.
Journal ArticleDOI
Hierarchical Model of Fibrillar Collagen Organization for Interpreting the Second-Order Susceptibility Tensors in Biological Tissue
Adam E. Tuer,Margarete K. Akens,Serguei Krouglov,Daaf Sandkuijl,Brian C. Wilson,Cari M. Whyne,Virginijus Barzda +6 more
TL;DR: A hierarchical organizational model of fibrillar collagen is developed to interpret the second-harmonic generation polarization properties and a three-dimensional reconstruction of lamellae of intervertebral disk is presented.