Mechanosensation and transduction in osteocytes

Klein-Nulend, Jenneke<sup>1</sup>; Bakker, Astrid D.<sup>1</sup>; Bacabac, Rommel G.<sup>2</sup>; Vatsa, Aviral<sup>3</sup>; Weinbaum, Sheldon<sup>4</sup>

Year	Entry
2001	Bakker AD, Soejima K, Klein-Nulend J, Burger EH. The production of nitric oxide and prostaglandin E₂ by primary bone cells is shear stress dependent. J Biomech. May 2001;34(5):671-677.
1996	Fox SW, Chambers TJ, Chow JW. Nitric oxide is an early mediator of the increase in bone formation by mechanical stimulation. Am J Physiol Endocrinol Metab. June 1996;270(6):E955-E960.
1990	Kufahl RH, Saha S. A theoretical model for stress-generated fluid flow in the canaliculi-lacunae network in bone tissue. J Biomech. 1990;23(2):171-180.
2006	Robinson JA, Chatterjee-Kishore M, Yaworsky PJ, Cullen DM, Zhao W, Li C, Kharode Y, Sauter L, Babij P, Brown EL, Hill AA, Akhter MP, Johnson ML, Recker RR, Komm BS, Bex FJ. Wnt/β-catenin signaling is a normal physiological response to mechanical loading in bone. J Biol Chem. October 20, 2006;281(42):31720-31728.
1977	Parfitt AM. The cellular basis of bone turnover and bone loss: a rebuttal of the osteocytic resorption—bone flow theory. Clin Orthop Relat Res. September 1977;127:236-247.
2004	van Bezooijen RL, Roelen BAJ, Visser A, van der Wee-Pals L, de Wilt E, Karperien M, Hamersma H, Papapoulos SE, ten Dijke P, Löwik CWGM. Sclerostin is an osteocyte-expressed negative regulator of bone formation, but not a classical BMP antagonist. J Exp Med. March 15, 2004;199(6):805-814.
2009	Fritton SP, Weinbaum S. Fluid and solute transport in bone: flow-induced mechanotransduction. Annu Rev Fluid Mech. 2009;41:347-374.
2007	Taylor AF, Saunders MM, Shingle DL, Cimbala JM, Zhou Z, Donahue HJ. Mechanically stimulated osteocytes regulate osteoblastic activity via gap junctions. Am J Physiol Cell Physiol. January 2007;292(1):C545-C552.
1997	Smalt R, Mitchell FT, Howard RL, Chambers TJ. Induction of NO and prostaglandin E₂ in osteoblasts by wall-shear stress but not mechanical strain. Am J Physiol Endocrinol Metab. October 1997;273(4):E751-E758.
2004	Wang L, Ciani C, Doty SB, Fritton SP. Delineating bone's interstitial fluid pathway in vivo. Bone. March 2004;34(3):499-509.
2009	Adachi T, Aonuma Y, Tanaka M, Hojo M, Takano-Yamamoto T, Kamioka H. Calcium response in single osteocytes to locally applied mechanical stimulus: differences in cell process and cell body. J Biomech. August 25, 2009;42(12):1989-1995.
2001	Toyosawa S, Shintani S, Fujiwara T, Ooshima T, Sato A, Ijuhin N, Komori T. Dentin matrix protein 1 is predominantly expressed in chicken and rat osteocytes but not in osteoblasts. J Bone Miner Res. November 2001;16(11):2017-2026.
2010	Gardinier JD, Townend CW, Jen K-P, Wu Q, Duncan RL, Wang L. In situ permeability measurement of the mammalian lacunar–canalicular system. Bone. April 2010;46(4):1075-1081.
2005	Cherian PP, Siller-Jackson AJ, Gu S, Wang X, Bonewald LF, Sprague E, Jiang JX. Mechanical strain opens connexin 43 hemichannels in osteocytes: a novel mechanism for the release of prostaglandin. Mol Biol Cell. July 2005;16(7):3100-3106.
2005	Li X, Zhang Y, Kang H, Liu W, Liu P, Zhang J, Harris SE, Wu D. Sclerostin binds to LRP5/6 and antagonizes canonical Wnt signaling. J Biol Chem. May 20, 2005;280(20):19883-19887.
2010	Kamel MA, Picconi JL, Lara-Castillo N, Johnson ML. Activation of β-catenin signaling in MLO-Y4 osteocytic cells versus 2T3 osteoblastic cells by fluid flow shear stress and PGE2: implications for the study of mechanosensation in bone. Bone. November 2010;47(5):872-881.
2007	Malone AMD, Anderson CT, Tummala P, Kwon RY, Johnston TR, Stearns T, Jacobs CR. Primary cilia mediate mechanosensing in bone cells by a calcium-independent mechanism. Proc Natl Acad Sci USA. August 14, 2007;104(33):13325-13330.
2005	Sugawara Y, Kamioka H, Honjo T, Tezuka K-i, Takano-Yamamoto T. Three-dimensional reconstruction of chick calvarial osteocytes and their cell processes using confocal microscopy. Bone. May 2005;36(5):877-883.
2004	You L, Weinbaum S, Cowin SC, Schaffler MB. Ultrastructure of the osteocyte process and its pericellular matrix. Anat Rec. June 2004;278A(2):505-513.
2007	Rath Bonivtch A, Bonewald LF, Nicolella DP. Tissue strain amplification at the osteocyte lacuna: a microstructural finite element analysis. J Biomech. 2007;40(10):2199-2206.
1991	Cowin SC, Moss-Salentijn L, Moss ML. Candidates for the mechanosensory system in bone. J Biomech Eng. May 1991;113(2):191-197.
2008	Bacabac RG, Mizuno D, Schmidt CF, MacKintosh FC, Van Loon JJWA, Klein-Nulend J, Smit TH. Round versus flat: bone cell morphology, elasticity, and mechanosensing. J Biomech. 2008;41(7):1590-1598.
2010	Litzenberger JB, Kim J-B, Tummala P, Jacobs CR. Β₁ integrins mediate mechanosensitive signaling pathways in osteocytes. Calcif Tiss Int. April 2010;86(4):325-332.
1995	Hung T Clark, Pollack R Solomon, Reilly TM, Brighton T Carl. Real-time calcium response of cultured bone cells to fluid flow. Clin Orthop Relat Res. April 1995;313:256-269.
1992	van der Plas A, Nijweide PJ. Isolation and purification of osteocytes. J Bone Miner Res. April 1992;7(4):389-396.
1977	Piekarski K, Munro M. Transport mechanism operating between blood supply and osteocytes in long bones. Nature. September 1, 1977;270(5623):80-82.
1996	Hung CT, Allen FD, Pollack SR, Brighton CT. Intracellular Ca²⁺ stores and extracellular Ca²⁺ are required in the real-time Ca²⁺ response of bone cells experiencing fluid flow. J Biomech. November 1996;29(11):1411-1417.
1998	Knothe Tate ML, Niederer P, Knothe U. In vivo tracer transport through the lacunocanalicular system of rat bone in an environment devoid of mechanical loading. Bone. February 1998;22(2):107-117.
2006	Feng JQ, Ward LM, Liu S, Lu Y, Xie Y, Yuan B, Yu X, Rauch F, Davis SI, Zhang S, Rios H, Drezner MK, Quarles LD, Bonewald LF, White KE. Loss of DMP1 causes rickets and osteomalacia and identifies a role for osteocytes in mineral metabolism. Nat Genet. November 2006;38(11):1310-1315.
1996	Ajubi NE, Klein-Nulend J, Nijweide PJ, Vrijheid-Lammers T, Alblas MJ, Burger EH. Pulsating fluid flow increases prostaglandin production by cultured chicken osteocytes: a cytoskeleton-dependent process. Biochem Biophys Res Commun. August 5, 1996;225(1):62-68.
1995	Lean JM, Jagger CJ, Chambers TJ, Chow JWM. Increased insulin-like growth factor I mRNA expression in rat osteocytes in response to mechanical stimulation. Am J Physiol Endocrinol Metab. February 1995;268(1):E318-E327.
2001	Balemans W, Ebeling M, Patel N, Van Hul E, Olson P, Dioszegi M, Lacza C, Wuyts W, Van Den J Ende, Willems P, Paes-Alves AF, Hill S, Bueno M, Ramos FJ, Tacconi P, Dikkers FG, Stratakis C, Lindpaintner K, Vickery B, Foernzler D, Van Hul W. Increased bone density in sclerosteosis is due to the deficiency of a novel secreted protein (SOST). Hum Mol Genet. March 1, 2001;10(5):537-543.
2008	Bonewald LF, Johnson ML. Osteocytes, mechanosensing and Wnt signaling. Bone. April 2008;42(4):606-615.
2007	Tatsumi S, Ishii K, Amizuka N, Li M, Kobayashi T, Kohno K, Ito M, Takeshita S, Ikeda K. Targeted ablation of osteocytes induces osteoporosis with defective mechanotransduction. Cell Metab. June 2007;5(6):464-475.
2003	Donahue SW, Donahue HJ, Jacobs CR. Osteoblastic cells have refractory periods for fluid-flow-induced intracellular calcium oscillations for short bouts of flow and display multiple low-magnitude oscillations during long-term flow. J Biomech. January 2003;36(1):35-43.
2008	Vatsa A, Breuls RG, Semeins CM, Salmon PL, Smit TH, Klein-Nulend J. Osteocyte morphology in fibula and calvaria: is there a role for mechanosensing? Bone. September 2008;43(3):452-458.
2005	McGarry JG, Klein-Nulend J, Prendergast PJ. The effect of cytoskeletal disruption on pulsatile fluid flow-induced nitric oxide and prostaglandin e2 release in osteocytes and osteoblasts. Biochem Biophys Res Commun. April 29, 2005;330(1):341-348.
2008	You L, Temiyasathit S, Lee P, Kim CH, Tummala P, Yao W, Kingery W, Malone AM, Kwon RY, Jacobs CR. Osteocytes as mechanosensors in the inhibition of bone resorption due to mechanical loading. Bone. January 2008;42(1):172-179.
2006	Xiao Z, Zhang S, Mahlios J, Zhou G, Magenheimer BS, Guo D, Dallas SL, Maser R, Calvet JP, Bonewald L, Quarles LD. Cilia-like structures and polycystin-1 in osteoblasts/osteocytes and associated abnormalities in skeletogenesis and Runx2 expression. J Biol Chem. October 13, 2006;281(41):30884-30895.
1996	Turner CH, Takano Y, Owan I, Murrell GA. Nitric oxide inhibitor L-NAME suppresses mechanically induced bone formation in rats. Am J Physiol Endocrinol Metab. April 1996;270(4):E634-E639.
2005	Wang L, Wang Y, Han Y, Henderson SC, Majeska RJ, Weinbaum S, Schaffler MB. In situ measurement of solute transport in the bone lacunar-canalicular system. Proc Natl Acad Sci USA. August 16, 2005;102(46):11911-11916.
1994	Zeng Y, Cowin SC, Weinbaum S. A fiber matrix model for fluid flow and streaming potentials in the canaliculi of an osteon. Ann Biomed Eng. May–June 1994;22(3):280-292.
1881	Roux W. Der kampf der theile im organismus: Ein beitrag zur vervollständigung der mechanischen zweckmässigkeitslehre. Leipzig: Verlag von Wilhelm Engelmann; 1881.
1995	Cowin SC, Weinbaum S, Zeng Y. A case for bone canaliculi as the anatomical site of strain generated potentials. J Biomech. November 1995;28(11):1281-1297.
2007	Genetos DC, Kephart CJ, Zhang Y, Yellowley CE, Donahue HJ. Oscillating fluid flow activation of gap junction hemichannels induces ATP release from MLO‐Y4 osteocytes. J Cell Physiol. July 2007;212(1):207-214.
2011	Xiong J, Onal M, Jilka RL, Weinstein RS, Manolagas SC, O'Brien CA. Matrix-embedded cells control osteoclast formation. Nat Med. November 2011;17(10):1235-1242.
2011	Price C, Zhou X, Li W, Wang L. Real‐time measurement of solute transport within the lacunar‐canalicular system of mechanically loaded bone: direct evidence for load‐induced fluid flow. J Bone Miner Res. February 2011;26(2):277-285.
2003	Gluhak-Heinrich J, Ye L, Bonewald LF, Feng JQ, MacDougall M, Harris SE, Pavlin D. Mechanical loading stimulates dentin matrix protein 1 (DMP1) expression in osteocytes in vivo. J Bone Miner Res. May 2003;18(5):807-817.
2007	Wang Y, McNamara LM, Schaffler MB, Weinbaum S. A model for the role of integrins in flow induced mechanotransduction in osteocytes. Proc Natl Acad Sci USA. October 2, 2007;104(40):15941-15946.
1998	Tanaka-Kamioka K, Kamioka H, Ris H, Lim S-S. Osteocyte shape is dependent on actin filaments and osteocyte processes are unique actin-rich projections. J Bone Miner Res. October 1998;13(10):1555-1568.
2005	Li J, Liu D, Ke HZ, Duncan RL, Turner CH. The P2X7 nucleotide receptor mediates skeletal mechanotransduction. J Biol Chem. December 30, 2005;280(52):42952-42959.
2009	McNamara LM, Majeska RJ, Weinbaum S, Friedrich V, Schaffler MB. Attachment of osteocyte cell processes to the bone matrix. Anat Rec. March 2009;292(3):355-363.
1997	Maniotis AJ, Chen CS, Ingber DE. Demonstration of mechanical connections between integrins, cytoskeletal filaments, and nucleoplasm that stabilize nuclear structure. Proc Natl Acad Sci USA. February 1997;94(3):849-854.
1995	Klein-Nulend J, van der Plas A, Semeins CM, Ajubi NE, Frangos JA, Nijweide PJ, Burger EH. Sensitivity of osteocytes to biomechanical stress in vitro. FASEB J. March 1995;9(5):441-445.
1994	Weinbaum S, Cowin SC, Zeng Y. A model for the excitation of osteocytes by mechanical loading-induced bone fluid shear stresses. J Biomech. March 1994;27(3):339-360.
1997	Klein‐Nulend J, Burger EH, Semeins CM, Raisz LG, Pilbeam CC. Pulsating fluid flow stimulates prostaglandin release and inducible prostaglandin g/h synthase mrna expression in primary mouse bone cells. J Bone Miner Res. January 1997;12(1):45-51.
1999	Zaman G, Pitsillides AA, Rawlinson SCF, Suswillo RFL, Mosley JR, Cheng MZ, Platts LAM, Hukkanen M, Polak JM, Lanyon LE. Mechanical strain stimulates nitric oxide production by rapid activation of endothelial nitric oxide synthase in osteocytes. J Bone Miner Res. July 1999;14(7):1123-1131.
1999	Ajubi NE, Klein-Nulend J, Alblas MJ, Burger EH, Nijweide PJ. Signal transduction pathways involved in fluid flow-induced PGE₂ production by cultured osteocytes. Am J Physiol Endocrinol Metab. January 1999;276(1):E171-E178.
1996	Forwood MR. Inducible cyclo‐oxygenase (COX‐2) mediates the induction of bone formation by mechanical loading in vivo. J Bone Miner Res. November 1996;11(11):1688-1693.
1979	Starkebaum W, Pollack SR, Korostoff E. Midroelectrode studies of stress-generated potentials in four-point bending of bone. J Mater Res. September 1979;13(5):729-751.
2001	Kamioka H, Honjo T, Takano-Yamamoto T. A three-dimensional distribution of osteocyte processes revealed by the combination of confocal laser scanning microscopy and differential interference contrast microscopy. Bone. February 2001;28(2):145-149.
2011	Nakashima T, Hayashi M, Fukunaga T, Kurata K, Oh-hora M, Feng JQ, Bonewald LF, Kodama T, Wutz A, Wagner EF, Penninger JM, Takayanagi H. Evidence for osteocyte regulation of bone homeostasis through RANKL expression. Nat Med. October 2011;17(10):1231-1234.
2011	Bonewald LF. The amazing osteocyte. J Bone Miner Res. 2011;26(2):229-238.
2007	Tan SD, de Vries TJ, Kuijpers-Jagtman AM, Semeins CM, Everts V, Klein-Nulend J. Osteocytes subjected to fluid flow inhibit osteoclast formation and bone resorption. Bone. November 2007;41(5):745-751.
2000	You J, Yellowley CE, Donahue HJ, Zhang Y, Chen Q, Jacobs CR. Substrate deformation levels associated with routine physical activity are less stimulatory to bone cells relative to loading-induced oscillatory fluid flow. J Biomech Eng. August 2000;122(4):387-393.
2001	You L, Cowin SC, Schaffler MB, Weinbaum S. A model for strain amplification in the actin cytoskeleton of osteocytes due to fluid drag on pericellular matrix. J Biomech. November 2001;34(11):1375-1386.
2000	Huiskes R, Ruimerman R, van Lenthe GH, Janssen JD. Effects of mechanical forces on maintenance and adaptation of form in trabecular bone. Nature. June 8, 2000;405(6787):704-706.
2004	Han Y, Cowin SC, Schaffler MB, Weinbaum S. Mechanotransduction and strain amplification in osteocyte cell processes. Proc Natl Acad Sci USA. November 23, 2004;101(47):16689-16694.
2002	Zhao S, Kato Y, Zhang Y, Harris S, Ahuja SS, Bonewald LF. MLO‐Y4 osteocyte‐like cells support osteoclast formation and activation. J Bone Miner Res. November 2002;17(11):2068-2079.

Year	Entry
2016	Meyer LA, Johnson MG, Cullen DM, Vivanco JF, Blank RD, Ploeg H-L, Smith EL. Combined exposure to big endothelin-1 and mechanical loading in bovine sternal cores promotes osteogenesis. Bone. April 2016;85:115-122.
2020	Martin M, Sansalone V, Cooper DML, Forwood MR, Pivonka P. Assessment of romosozumab efficacy in the treatment of postmenopausal osteoporosis: results from a mechanistic PK-PD mechanostat model of bone remodeling. Bone. April 2020;133:115223.
2020	Williams KM, Leser JM, Gould NR, Joca HC, Lyons JS, Khairallah RJ, Ward CW, Stains JP. TRPV4 calcium influx controls sclerostin protein loss independent of purinergic calcium oscillations. Bone. July 2020;136:115356.
2021	Smith C, Tacey A, Mesinovic J, Scott D, Lin X, Brennan-Speranza TC, Lewis JR, Duque G, Levinger I. The effects of acute exercise on bone turnover markers in middle-aged and older adults: a systematic review. Bone. February 2021;143:115766.
2021	Gould NR, Torre OM, Leser JM, Stains JP. The cytoskeleton and connected elements in bone cell mechano-transduction. Bone. August 2021;149:115971.
2021	Li Y, de Bakker CMJ, Lai X, Zhao H, Parajuli A, Tseng W-J, Pei S, Meng T, Chung R, Wang L, Liu XS. Maternal bone adaptation to mechanical loading during pregnancy, lactation, and post-weaning recovery. Bone. October 2021;151:116031.
2023	Matthews MD, Cook E, Naguib N, Wiesner UB, Lewis KJ. Intravital imaging of osteocyte integrin dynamics with locally injectable fluorescent nanoparticles. Bone. September 2023;174:116830.
2018	Gatti V, Azoulay EM, Fritton SP. Microstructural changes associated with osteoporosis negatively affect loading-induced fluid flow around osteocytes in cortical bone. J Biomech. January 3, 2018;66:127-136.
2015	Oftadeh R, Perez-Viloria M, Villa-Camacho JC, Vaziri A, Nazarian A. Biomechanics and mechanobiology of trabecular bone: a review. J Biomech Eng. January 2015;137(1):010802.
2013	Thi MM, Suadicani SO, Schaffler MB, Weinbaum S, Spray DC. Mechanosensory responses of osteocytes to physiological forces occur along processes and not cell body and require αᵥβ₃ integrin. Proc Natl Acad Sci USA. December 24, 2013;110(52):21012-21017.
2020	Rabelo GD, vom Scheidt A, Klebig F, Hemmatian H, Citak M, Amling M, Busse B, Jähn K. Multiscale bone quality analysis in osteoarthritic knee joints reveal a role of the mechanosensory osteocyte network in osteophytes. Sci Rep. 2020;10:673.
2014	Fonseca H, Moreira-Gonçalves D, Coriolano H-JA, Duarte JA. Bone quality: the determinants of bone strength and fragility. Sports Med. January 2014;44(1):37-53.
2015	Scully N. Differentiation of Osteoblasts to Osteocytes in 3D Type I Collagen Gels: A Novel Tool to Study Osteocyte Responses to Mechanical Loading [PhD thesis]. Cardiff, UK: Cardiff University; April 2015.
2015	Cabahug-Zuckerman P. A Β₃ Integrin Based Mechanosome in Bone Tissue Osteocytes: Plasticity to Changes in Mechanical Loading [PhD thesis]. New York, NY: The City College of New York; 2015.
2021	Wilmoth RL. Development of a 3D Ex Vivo Culture System to Study Osteocyte Mechanobiology [PhD thesis]. University of Colorado; 2021.
2016	Brown GN. The Sustainment and Consequences of Cytosolic Calcium Signals in Osteocytes [PhD thesis]. Columbia University; 2016.
2017	Gatti V. The Effects of Skeletal Unloading on Bone Microstructure and Fluid-Mediated Osteocyte Mechanotransduction [PhD thesis]. New York, NY: The City University of New York; 2017.
2022	Goff E. Osteocyte Lacunar Biomarkers in Human Rare Bone Diseases [PhD thesis]. Swiss Federal Institute of Technology Zürich; 2022.
2015	Rodriguez-Florez N. Mechanics of Cortical Bone: Exploring the Micro- and Nano-Scale [PhD thesis]. Imperial College London; January 2015.
2017	Hemmatian H. Does the Osteocyte Lacuna Affect Bone Adaptive Response in Aging? [PhD thesis]. Katholieke Universiteit Leuven; December 2017.
2019	Ilas DC. The Role of Mesenchymal Stem Cells and Osteocytes in Subchondral Bone Changes in Hip Osteoarthritis [PhD thesis]. University of Leeds; May 2019.
2016	Druchok C. Temporal Influence of NSAIDs on Mechanically Induced Bone Formation and Fluid Flow Stimulated Cellular PGE₂ Production [PhD thesis]. Hamilton, ON: McMaster University; August 2016.
2015	Tuin SA. Enhanced Mass Transport Nonwovens as Industrial Scale Tissue Engineering Scaffolds Using Human Adipose Derived Stem Cells [PhD thesis]. North Carolina State University; 2015.
2015	Oftadeh R. Hierarchical Analysis and Multiscale Modelling of Cellular Structures: From Meta Materials to Bone Structure [PhD thesis]. Northeastern University; December 2015.
2013	Verbruggen SW. Mechanobiological Origins of Osteoporosis [PhD thesis]. National University of Ireland Galway; September 2013.
2020	Simfia I. Estrogen Deficiency Alters the Mechanobiological Responses of Osteoblasts and Osteocytes [PhD thesis]. National University of Ireland Galway; April 2020.
2015	Hunter RL. Variation in Cortical Osteocyte Lacunar Density and Distribution: Implications for Bone Quality Assessment [PhD thesis]. The Ohio State University; 2015.
2018	Yang F. The Synergistic Effect of Bone Graft Substitute Architecture and Mechanical Environment on HMSCs Responses in Vitro [PhD thesis]. Queen Mary University of London; December 2018.
2015	Chen Z. Osteoimmunomodulation: A New Aspect for the Development and Evaluation of Bone Biomaterials [PhD thesis]. Queensland University of Technology; 2015.
2019	Forrestal DP. Flow Control in Perfusion Bioreactors for Improved Cell Culture Within Porous Tissue Scaffolds [PhD thesis]. Queensland University of Technology; 2019.
2016	Wittkowske C. The Role of Mechanical Forces in Bone Formation: Evaluation of Long-Term Responses by Osteoblasts to Low Fluid Shear Stress in Vitro [PhD thesis]. University of Sheffield; September 2016.
2021	Watkins LE. Imaging Strategies for Quantitative, Whole-Joint Assessment of Structure and Function Related to Knee Osteoarthritis [PhD thesis]. Stanford University; June 2021.
2013	Adler B. High Fat Diet Rapidly Suppresses B Lymphopoiesis by Disrupting the Supportive Capacity of the Bone Marrow Niche [PhD thesis]. Stony Brook, NY: Stony Brook University; August 2013.
2018	Synek A. Predicting Habitual Activities from Bone Architecture Using a Biomechanical Approach [PhD thesis]. Vienna University of Technology; 2018.
2022	Davis RA. Investigating the Effects of Aging and Prolonged Opioid Use on Bone Histomorphometry, Quality, and Biomechanics [PhD thesis]. University of Akron; August 2022.
2019	Spingarn C. Contribution à la biomécanique de la régénération osseuse: Modélisation, simulation et applications [PhD thesis]. Strasbourg, France: Université de Strasbourg; June 11, 2019.
2019	Youlten S. Defining the Transcriptome of the Osteocyte Network [PhD thesis]. University of New South Wales; 2019.
2021	Li Y. Adaptation of Maternal Skeletal Mechano-Responsiveness, Osteocyte Microenvironment, and Bone Marrow Adipocytes in Response to Reproduction and Lactation [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 2021.
2023	Collins JM. The Roles of YAP and TAZ in Fetal Bone Development [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 2023.
2014	Carter Y. Quantitative Imaging of Sex and Age Differences in Human Cortical Bone Osteocyte Lacunae [PhD thesis]. University of Saskatchewan; July 2014.
2013	Eleazer CD. The Interaction of Mechanical Loading and Metabolic Stress on Human Cortical Bone: Testing Anthropological Assumptions Using Cross-Sectional Geometry and Histomorphology [PhD thesis]. Knoxville, University of Tennessee; August 2013.
2014	Reeves NM. Augmenting Functional Adaptation: Does Obesity Have a Systemic Effect on Bone Strength Properties in Humans? [PhD thesis]. Knoxville, University of Tennessee; May 2014.
2016	Meyer LA. Testing and Modeling Mechanical Properties of Ex Vivo Trabecular Bone [PhD thesis]. University of Wisconsin – Madison; 2016.
2019	Khurelbaatar T. Quantitative Imaging and Computational Modelling to Estimate the Relationship Between Mechanical Strain and Changes Within the Distal Tibia in First-Time Marathon Trainees [Master's thesis]. Worcester, MA: Worcester Polytechnic Institute; June 2019.