PITTSBURGH SOUTH
Science
OsteoStrong sessions utilize a series of devices that allow axial compression of bone to emulate the effect of impact, which is called Osteogenic Loading. Because of the optimized positioning of the human body, loading forces go through the human bone that are far higher than those seen in daily activity or weight training. Heavy loading is already understood and recommended by all international bodies of medical education, but at OsteoStrong, we make it safer.
In fact, we’ve known for over 100 years that Osteogenic Loading works. In the late 1800’s, Dr. Julius Wolff discovered that bones will adapt to the loads under which they are placed (Wolff’s Law). What we didn’t know until the 2012 Deere & Tobias study (to the right) was that there is a minimum threshold to triggering osteogenesis. 4.2 multiples of your body weight is the minimum required force to trigger bone growth in the hip joint (the most important place to avoid fracture) and peak forces with adults in conventional resistance exercise only show 1.26 to 1.54 multiples of body weight.
Studies
Learn why walking, running and even weight lifting have little to no positive effect to improving bone density. Deere & Tobias 2012 Study
Learn how osteogenic loading works with and without bisphosphonates and how your body is perfectly capable of rebuilding bone tissue holistically. Osteoporosis International 2013 Study
Proving the efficacy of osteogenic loading with a group of women over the age of 50. Hunte, Jaquish, Huck 2015 Study
Learn how Osteogenic Loading lowered A1C levels by .6% in only 6 months without changing their diet. Type II Diabetes 2015 Study
10 Minutes, 1X / Week
The four device circuit takes only minutes once per week to complete. Under the direction of a skilled technician, users engage in a safe controlled movement on each device that results in a stimulus to the central nervous system triggering osteogenesis or new bone growth.
NEW STUDY! Brief, low-impact, high-intensity Osteogenic Loading training utilizing proprietary OsteoStrong devices with once-a-week, 10-minute treatments improve Bone Mineral Density in Women with Osteoporosis of the lumbar spine
The OsteoStrong Technology: Spectrum System
OsteoStrong uses the Spectrum System to deliver unprecedented results. Spectrum is first-in-class of a new category devices called Robotic Musculoskeletal Development System (RMDS).
The Spectrum System consists of four modalities as demonstrated in the videos below: 1) Upper Growth Trigger, 2) Lower Growth Trigger, 3) Core Growth Trigger and 4) Postural Growth Trigger.
Spectrum was invented by the Father of Osteogenic Loading, Dr. John Jaquish, Ph.D. Dr. Jaquish is the Chief Science Advisor for OsteoStrong and author of Osteogenic Loading. Dr. Jaquish has been a frequent speaker at the World Congress on Osteoporosis and is on the board of American Bone Health. His contributions to the OsteoStrong brand have been invaluable in bringing this technology to the world.
OsteoStrong Case Studies and FAQ’s
For Health Professionals
Greek Study: Effective Brief, Low Impact, High-intensity Osteogenic Loading In Postmenopausal Osteoporosis
2025
The Bone More Study of Sweden
2021
Weekly Bone Loading Exercise Effects on a Healthy Subjects Strength, Bone Density, and Bone Biomarkers
2021
World Congress on Osteoporosis, Osteoarthritis and Musculoskeletal Diseases (WCO-IOFESCEO 2015): Non-sponsored Symposia Abstract
2012
Axial Bone Osteogenic Loading-Type Resistance Therapy Showing BMD and Functional Bone Performance Musculoskeletal Adaptation Over 24 Weeks with Postmenopausal Female Subjects
2015
A small amount of precisely measured high-intensity habitual physical activity predicts bone health in pre- and post-menopausal women in UK Biobank
2017
Habitual Levels of High, But Not Moderate or Low, Impact Activity Are Positively Related to Hip BMD and Geometry: Results From a Population-Based Study of Adolescents
2012
Intensity of exercise is associated with bone density change in premenopausal women
2006
Load-specific differences in the structure of femoral neck and tibia between world-class moguls skiers and slalom skiers
2000
Physical activity and bone: may the force be with you
2014
Static tensional forces increase osteogenic gene expression in three-dimensional periodontal ligament cell culture
2009
Load-specific differences in the structure of femoral neck and tibia between world-class moguls skiers and slalom skiers
2000
The Effects of Axial Bone Osteogenic Loading-Type Resistance Exercise on Adults with Risk of Moderate-Metabolic Dysfunction: A Pilot Study
2015