Five jumps per day increase bone mass and breaking force in rats

Umemura, Yoshihisa; Ishiko, Toshihiro; Yamauchi, Takeshi; Kurono, Masashi; Mashiko, Shoji

Year	Entry
2001	Jee WSS. Integrated bone tissue physiology: anatomy and physiology. In: Cowin SC, ed. Bone Mechanics Handbook. 2nd ed. Boca Raton, FL: CRC Press; 2001:1-1–1-68.
2021	Popp KL, Ackerman KE, Rudolph SE, Johannesdottir F, Hughes JM, Tenforde AS, Bredella MA, Xu C, Unnikrishnan G, Reifman J, Bouxsein ML. Changes in volumetric bone mineral density over 12 months after a tibial bone stress injury diagnosis: implications for return to sports and military duty. Am J Sports Med. January 2021;49(1):226-235.
2003	Frost HM. Bone's mechanostat: a 2003 update. Anat Rec. 2003;275A(2):1081-1101.
2006	Robling AG, Castillo AB, Turner CH. Biomechanical and molecular regulation of bone remodeling. Annu Rev Biomed Eng. 2006;8:455-498.
1998	Turner CH. Three rules for bone adaptation to mechanical stimuli. Bone. November 1998;23(5):399-407.
2002	Burr DB, Robling AG, Turner CH. Effects of biomechanical stress on bones in animals. Bone. May 2002;30(5):781-786.
2007	Wallace JM, Rajachar RM, Allen MR, Bloomfield SA, Robey PG, Young MF, Kohn DH. Exercise-induced changes in the cortical bone of growing mice are bone- and gender-specific. Bone. April 2007;40(4):1120-1127.
2012	Lu XL, Huo B, Park M, Guo XE. Calcium response in osteocytic networks under steady and oscillatory fluid flow. Bone. September 2012;51(3):466-473.
2014	Holguin N, Brodt MD, Sanchez ME, Silva MJ. Aging diminishes lamellar and woven bone formation induced by tibial compression in adult C57BL/6. Bone. August 2014;65:83-91.
2020	Stunes AK, Erben RG, Schüler C, Eriksen EF, Tice M, Vashishth D, Syversen U, Mosti MP. Skeletal effects of plyometric exercise and metformin in ovariectomized rats. Bone. March 2020;132:115193.
2021	Spain L, Yang L, Wilkinson JM, McCloskey E. Transmission of whole body vibration: comparison of three vibration platforms in healthy subjects. Bone. March 2021;144:115802.
2021	Daly RM, Dalla Via J, Fyfe JJ, Nikander R, Kukuljan S. Effects of exercise frequency and training volume on bone changes following a multi-component exercise intervention in middle aged and older men: secondary analysis of an 18-month randomized controlled trial. Bone. July 2021;148:115944.
2022	Wang H, Du T, Li R, Main RP, Yang H. Interactive effects of various loading parameters on the fluid dynamics within the lacunar-canalicular system for a single osteocyte. Bone. May 2022;158:116367.
2023	Vitienes I, Mikolajewicz N, Hosseinitabatabaei S, Bouchard A, Julien C, Graceffa G, Rentsch A, Widowski T, Main RP, Willie BM. Breed and loading history influence in vivo skeletal strain patterns in pre-pubertal female chickens. Bone. August 2023;173:116785.
2000	Kodama Y, Umemura Y, Nagasawa S, Beamer WG, Donahue LR, Rosen CR, Baylink DJ, Farley JR. Exercise and mechanical loading increase periosteal bone formation and whole bone strength in C57BL/6J mice but not in C3H/Hej mice. Calcif Tiss Int. April 2000;66(4):298-306.
2002	Turner CH, Robling AG, Duncan RL, Burr DB. Do bone cells behave like a neuronal network? Calcif Tiss Int. June 2002;70(6):435-442.
2009	Robling AG, Turner CH. Mechanical signaling for bone modeling and remodeling. Crit Rev Eukaryot Gene Expr. 2009;19(4):319-338.
2003	Turner CH, Robling AG. Designing exercise regimens to increase bone strength. Exerc Sport Sci Rev. January 2003;31(1):45-50.
2005	Batra NN, Li YJ, Yellowley CE, You L, Malone AM, Kim CH, Jacobs CR. Effects of short-term recovery periods on fluid-induced signaling in osteoblastic cells. J Biomech. September 2005;38(9):1909-1917.
2012	Al Nazer R, Lanovaz J, Kawalilak C, Johnston JD, Kontulainen S. Direct in vivo strain measurements in human bone: a systematic literature review. J Biomech. January 3, 2012;45(1):27-40.
1998	Bassey EJ, Rothwell MC, Littlewood JJ, Pye DW. Pre- and postmenopausal women have different bone mineral density responses to the same high-impact exercise. J Bone Miner Res. December 1998;13(12):1805-1813.
2000	Robling AG, Burr DB, Turner CH. Partitioning a daily mechanical stimulus into discrete loading bouts improves the osteogenic response to loading. J Bone Miner Res. August 2000;15(8):1596-1602.
2002	Robling AG, Hinant FM, Burr DB, Turner CH. Improved bone structure and strength after long‐term mechanical loading is greatest if loading is separated into short bouts. J Bone Miner Res. August 2002;17(8):1545-1554.
2002	Srinivasan S, Weimer DA, Agans SC, Bain SD, Gross TS. Low‐magnitude mechanical loading becomes osteogenic when rest is inserted between each load cycle. J Bone Miner Res. September 2002;17(9):1613-1620.
2020	Troy KL, Mancuso ME, Johnson JE, Wu Z, Schnitzer TJ, Butler TA. Bone adaptation in adult women is related to loading dose: a 12‐month randomized controlled trial. J Bone Miner Res. July 2020;35(7):1300-1312.
2001	Robling AG, Burr DB, Turner CH. Recovery periods restore mechanosensitivity to dynamically loaded bone. J Exp Biol. 2001;204(19):3389-3399.
2018	Sun D, Brodt MD, Zannit HM, Holguin N, Silva MJ. Evaluation of loading parameters for murine axial tibial loading: stimulating cortical bone formation while reducing loading duration. J Orthop Res. February 2018;36(2):682-691.
1998	Turner CH, Pavalko FM. Mechanotransduction and functional response of the skeleton to physical stress: the mechanisms and mechanics of bone adaptation. J Orthop Sci. November 1998;3(6):346-355.
2002	Robling AG, Hinant FM, Burr DB, Turner CH. Shorter, more frequent mechanical loading sessions enhance bone mass. Med Sci Sports Exer. February 2002;34(2):196-202.
2008	Weeks BK, Beck BR. The BPAQ: a bone-specific physical activity assessment instrument. Osteoporos Int. November 2008;19(11):1567-1577.
2020	Bland VL, Heatherington-Rauth M, Howe C, Going SB, Bea JW. Association of objectively measured physical activity and bone health in children and adolescents: a systematic review and narrative synthesis. Osteoporos Int. October 2020;31(10):1865-1894.
2004	Pearson OM, Lieberman DE. The aging of Wolff's “law”: ontogeny and responses to mechanical loading in cortical bone. Yearb Phys Anthropol. 2004;47:63-99.
2011	Burt LA. Upper Body Bone Strength and Muscle Function in Non-Elite Artistic Gymnasts [PhD thesis]. Australian Catholic University; May 2011.
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.
2007	Young CM. Do in-Line Dance, Progressively Loaded Squats and Foot Stomping Affect the Parameters of Fracture Risk in Postmenopausal Women? [Master's thesis]. Brisbane, Australia: Griffith University; 2007.
2008	Weeks BK. Improving Bone Health With Physical Activity: The Power PE Study and Development of the Bone-Specific Physical Activity Questionnaire (BPAQ) [PhD thesis]. Brisbane, Australia: Griffith University; January 2008.
2019	Lambert C. A Comparison of the Bone Response to Impact Loading and Resistance Training in Young Adult Women: The OPTIMA-Ex Trial [PhD thesis]. Brisbane, Australia: Griffith University; July 2019.
2019	Watson S. LIFTMOR: Lifting Intervention for Training Muscle and Osteoporosis Rehabilitation [PhD thesis]. Brisbane, Australia: Griffith University; January 2019.
2014	Ferro Pereira A. Cortical Bone Adaptation: A Finite-Element Study of the Mouse Tibia [PhD thesis]. Imperial College London; January 2014.
2015	Weatherholt AM. Translational Studies Into the Effects of Exercise on Estimated Bone Strength [PhD thesis]. Indianapolis, IN: Indiana University; September 2015.
2022	Ng CATT. Getting the Jump on Healthy Bones: The Skeletal Effects of Impact Physical Activity Across the Lifespan [PhD thesis]. Monash University; 2022.
2019	Piet J. Restoring Mechano-Adaptation in Aged Murine Bone [PhD thesis]. Northeastern University; March 2019.
2003	Peterman MM. A Strain Map of the Human Distal Tibia During the Stance Phase of Walking, from Dynamic Cadaver Experiments and Finite Element Analysis Simulations [PhD thesis]. State College, PA: Pennsylvania State University; August 2003.
2016	Berman AG. Influence of Mechanical Stimulation on the Quantity and Quality of Bone During Modeling [Master's thesis]. Purdue University; August 2016.
2015	Weber JF. The Sensitivity of Articular Chondrocytes to Dynamic Mechanical Stimulation [PhD thesis]. Queen's University; December 2015.
2005	George WT. Multiaxial Fracture Characteristics of Aging Human Bone [PhD thesis]. Troy, NY: Rensselaer Polytechnic Institute; April 2005.
2012	Brennan MA. Close to the Bone: Investigations Into Bone Tissue Mineralisation and Mechanobiology of Osteoporosis [PhD thesis]. University of Southampton; January 2012.
2006	Xie L. Low Level Mechanical Vibrations Enhance Musculoskeletal Accretion in Growing Mice [PhD thesis]. Stony Brook, NY: Stony Brook University; December 2006.
2008	Luu YK. Biomechanical Promotion of Mesenchymal Stem Cell Proliferation as a Countermeasure to the Development of Obesity and Osteoporosis [PhD thesis]. Stony Brook, NY: Stony Brook University; May 2008.
2011	Appiah-Nkansah K. Integration of Refractory Periods in the Administration of Low-Magnitude Mechanical Signals Increases Mesenchymal Stem Cell Numbers in the Bone Marrow [Master's thesis]. Stony Brook, NY: Stony Brook University; May 2011.
2018	Synek A. Predicting Habitual Activities from Bone Architecture Using a Biomechanical Approach [PhD thesis]. Vienna University of Technology; 2018.
2006	Macdonald HM. Effectiveness of a School-Based Physical Activity Intervention for Increasing Bone Strength in Children: Action Schools! British Columbia [PhD thesis]. Vancouver, BC: University of British Columbia; July 2006.
2015	Tan VPS. Effects of a School-Based Physical Activity Intervention on Adolescent Bone Strength, Structure and Density: The Health Promoting Secondary Schools (HPSS) Bone Health Study [PhD thesis]. Vancouver, BC: University of British Columbia; June 2015.
2017	Gabel LEC. Bone Strength Accrual Across Adolescent Growth and the Influences of Physical Activity and Sedentary Time [PhD thesis]. Vancouver, BC: University of British Columbia; April 2017.
1999	Judex S. The Effect of Exercise-Induced Mechanical Stimuli on Cortical Bone [PhD thesis]. Calgary, AB: University of Calgary; 1999.
2004	LaMothe JM. Functional Adaptation of Bone [PhD thesis]. Calgary, AB: University of Calgary; September 2004.
2016	Pangka AVS. Biomechanical Measures of the Muscle-Bone Unit in Postmenopausal Females: A Pilot Study [Master's thesis]. Calgary, AB: University of Calgary; August 2016.
2023	Bruce OL. Tibial-Fibular Morphology: Variation, Sexual Dimorphism, and Mechanical Implications [PhD thesis]. Calgary, AB: University of Calgary; May 2023.
2021	Shaffer SK. High-Speed Exercise and Fetlock Kinematics Affect the Development of Stress-Reactions in Racehorse Proximal Sesamoid Bones [PhD thesis]. Davis, University of California; 2021.
2014	Gangadharan V. Delineating the Cellular Mechanism of Osteoblast Desensitization to Mechanical Stimulation [PhD thesis]. University of Delaware; 2014.
2020	Pei S. Osteocyte Mechanosensing: Interstitial Fluid Flow, Cellular Response, and Turnover of Pericellular Matrix [PhD thesis]. University of Delaware; 2020.
2021	Leek CC. The Role of Fibroblast Growth Factor Signaling During Superstructure Development and in Muscle-Bone Crosstalk [PhD thesis]. University of Delaware; 2021.
2007	Wallace JM III. Investigating the Inbred Strain-Specific Response to Biglycan-Deficiency and Exercise: A Study in Genetically-Mediated Skeletal Adaptation [PhD thesis]. University of Michigan; 2007.
2010	Hughes JM. Revisiting Harold Frost's Mechanostat Theory of Bone Functional Adaptation: New Interpretations Based on New Evidence [PhD thesis]. University of Minnesota; December 2010.
2021	El-Kotob R. Considerations for Designing and Managing Resistance Training Intervention Studies [PhD thesis]. University of Waterloo; 2021.
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.
2020	Mancuso ME. Defining the Multiscale Relationship Between Subject-Specific Bone Strain and Structural Adaptation in the Distal Radius of Women [PhD thesis]. Worcester, MA: Worcester Polytechnic Institute; July 2020.
2019	Zannit HM. The Role of Osteoblast Lineage Cells and Proliferation in Anabolic Response to Mechanical Loading [PhD thesis]. St. Louis, MO: Washington University in St. Louis; August 2019.

Year	Entry
1984	Rubin CT, Lanyon LE. Regulation of bone formation by applied dynamic loads. J Bone Joint Surg. March 1984;66A(3):397-402.
1992	Snow-Harter C, Bouxsein ML, Lewis BT, Carter DR, Marcus R. Effects of resistance and endurance exercise on bone mineral status of young women: a randomized exercise intervention trial. J Bone Miner Res. July 1992;7(7):761-769.
1985	Rubin CT, Lanyon LE. Regulation of bone mass by mechanical strain magnitude. Calcif Tiss Int. 1985;37(4):411-417.
1984	Lanyon LE, Rubin CT. Static vs dynamic loads as an influence on bone remodelling. J Biomech. 1984;17(12):897-905.
1984	Carter DR. Mechanical loading histories and cortical bone remodeling. Calcif Tiss Int. March 1984;36(suppl 1):S19-S24.