Welcome. WBLDB is my personal collection of bibliographic data for articles, chapters, books and other scholarly literature. There are currently 18917 entries, of which 2141 are author pages and 331 are organization pages.
Please note that only information about the items is provided, not the items themselves. Links to electronic versions are included wherever possible; however, subscription or paid access may be required to download certain materials.
I've made this information available on the off-chance that you might find it helpful. While I have not consciously introduced errors, I cannot guarantee that all of the information is complete or accurate. Additions, corrections, and comments are all welcome and can be sent to email@example.com.
|Hernandez CJ. Simulation of Bone Remodeling During the Development and Treatment of Osteoporosis [PhD thesis]. Stanford, CA: Stanford University; 2001.|
|Ramsey DS. Effects of Gamma Irradiation on the Damage Processes in Human Trabecular Bone [Master's thesis]. Cleveland, OH: Case Western Reserve University; October 2010.|
|Nguyen C. Multiscale Network Characterization of the Strength and Robustness of Trabecular Bone [PhD thesis]. Santa Barbara, CA: Santa Barbara, University of California; September 2019.|
|Siegler S. Biomechanics of Flexion and Extension of the Human Ankle Joint [PhD thesis]. Philadelphia, PA: Drexel University; 1982.|
|Halldin P, Gilchrist A, Mills NJ. A new oblique impact test for motorcycle helmets. Int J Crashworthiness. 2001;2(1):53-64.|
|Agel J, Arendt EA, Bershadsky B. Anterior cruciate ligament injury in National Collegiate Athletic Association basketball and soccer: a 13-year review. Am J Sports Med. April 2005;33(4):524-530.|
|Adharapurapu RR, Jiang F, Vecchio KS. Dynamic fracture of bovine bone. Mater Sci Eng C Mater Biol Appl. September 2006;26(8):1325-1332.|
|Pugh JW. Structure and Dynamic Properties of Trabecular Bone [PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; 1972.|
|Dorman, Sandra C.|
|Johnston, James Duncan|
|Orr, Tracy Elisabeth|
|Nuzzo S, Peyrin F, Cloetens P, Baruchel J, Boivin G. Quantification of the degree of mineralization of bone in three dimensions using synchrotron radiation microtomography. Med Phys. November 2002;29(11):2672-2681.|
|Saha PK, Gomberg BR, Wehrli FW. Three-dimensional digital topological characterization of cancellous bone architecture. Int J Imaging Syst Technol. 2000;11(1):81-90.|
|Tetzlaff E, Eger T, Pegoraro A, Dorman S, Pakalnis V. Analysis of recommendations from mining incident investigative reports: a 50-year review. Safety. March 2020;6(1):3.|
|Leichter I, Margulies JY, Weinreb A, Mizrahi J, Robin GC, Conforty B, Makin M, Bloch B. The relationship between bone density, mineral content, and mechanical strength in the femoral neck. Clin Orthop Relat Res. March 1982;163:272-281.|
|Chen Y. Verification and Validation of MicroCT-Based Finite Element Models of Bone Tissue Biomechanics Sheffield, UK: University of Sheffield; July 2016.|
|Kaynia N, Soohoo E, Keaveny TM, Kazakia GJ. Effect of intraspecimen spatial variation in tissue mineral density on the apparent stiffness of trabecular bone. J Biomech Eng. January 2015;137(1):011010.|
|Gross T, Pahr DH, Peyrin F, Zysset PK. Mineral heterogeneity has a minor influence on the apparent elastic properties of human cancellous bone: SRμCT-based finite element study. Comput Methods Biomech Biomed Eng. November 2012;15(11):1137-1144.|
|Melsen F, Melsen B, Mosekilde L, Bergmann S. Histomorphometric analysis of normal bone from the iliac crest. Acta Pathol Microbiol Scand. July 1978;86A(1-6):70-81.|