Finding the Optimal Resistance Training Intensity For Your Bones

Not Applicable

Active, not recruiting

• Conditions: Osteopenia; Osteoporosis
• Interventions: Other: Supervised strength training (group 2); Other: Supervised strength training (group 1); Other: Home exercise

• Registration Number: NCT05541432
• Lead Sponsor: University of Waterloo

Brief Summary

Osteoporosis is a bone disease that can result in fractures, disability and an increased risk of premature death. Exercise is recommended for fall and fracture prevention, but health care professionals often recommend walking or lower intensity community exercise classes, which may not be effective for building bone. Further, individuals with osteoporosis are often told to avoid lifting or moving in certain ways, which creates fear and activity avoidance. Conversely, research suggests that to stimulate bone, you need higher loads on bone, with either higher intensity resistance training or impact exercise - the types of things people with low bone mass are told to avoid. Our study will examine different types of exercise intensity and how they translate to building bone in people with low bone mineral density (BMD).

Detailed Description

The FORTIFY Bones study will compare the effect of supervised twice-weekly progressive resistance training (PRT) at moderate or high intensity for one year to a home posture and balance exercise program on lumbar spine bone mineral density (BMD), in individuals with low bone mass not taking osteoporosis medication. As secondary analyses, we will examine the differences between each resistance training intensity and home exercise, and between resistance training intensities on all outcomes. Participants will be randomized to one of three exercise programs to be completed twice weekly: posture and balance exercise program at home, in-person, supervised progressive resistance training at 70% of estimated 1 Repetition Maximum (1RM) intensity, or in-person, supervised progressive resistance training at an 85% estimated 1RM intensity. The study is a multi-centre trial that will take place at the University of Waterloo, Toronto General Hospital, and the University of Saskatchewan. The long-term goal of this study is to generate evidence to support decision-making on the type of exercises for people with osteoporosis.

Study Timeline

• Study First Submitted: 2022-07-06
• Study First Submitted QC: 2022-09-12
• Study Start: 2022-09-13
• Study First Posted: 2022-09-15
• Status Verified: 2024-05
• Last Update Submitted: 2025-03-25
• Last Update Posted: 2025-03-30
• Primary Completion: 2026-09
• Study Completion: 2026-09

Recruitment & Eligibility

• Status: ACTIVE_NOT_RECRUITING
• Sex: All
• Target Recruitment: 324

Inclusion Criteria

• Age 50 or over

• Has received 2 vaccines for COVID-19

• Has femoral neck, total hip, or lumbar spine BMD T-score of ≤ -1, OR has been or have a FRAX probability of fracture of greater than or equal to 20% for major osteoporotic fracture or 3% or greater for hip fracture.*

  • Individuals at high risk of fracture (i.e., risk in next 10 years is >20% according to FRAX) should be offered medication for osteoporosis. We will only include individuals at high risk of fracture who have declined medication or who had been on osteoporosis medication and decided to cease taking it in the appropriate timeline (as outlined by PI's and Physician).

• Willing to participate in 2x weekly exercise sessions

• Self-reported as postmenopausal for ≥ 2 years, OR postmenopausal stats confirmed via blood test (female participants only)

Exclusion Criteria

• Is unable to communicate in English
• Has conditions affecting bone health
• Takes or has taken medications affecting bone in the last 12 months or longer (as determined by the research team)
• Has had a clinical or symptomatic spine fracture in the last 12 months, or a lower/upper limb fracture in the last 6 months
• Has had a joint replacement in the last 6 months
• Is receiving palliative care
• Has major surgery planned in the next 12 months
• Has had cancer within the last 2 years (excluding non-melanoma skin cancer)
• Has planned travel time of greater than 6 weeks
• Has been diagnosed with dementia
• Is already participating in moderate- or high-intensity progressive resistance training ≥ twice weekly
• Weighs over 450 lbs
• Has contraindications to resistance training

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Supervised strength training (group 2)	Supervised strength training (group 2)	In-person, supervised muscle strengthening exercises twice weekly at a specific intensity.
Supervised strength training (group 1)	Supervised strength training (group 1)	In-person, supervised muscle strengthening exercises twice weekly at a specific intensity.
Home exercise	Home exercise	Home exercise program, with biweekly group virtual education and exercise classes.

Primary Outcome Measures

Name	Time	Method
Lumbar Spine bone mineral density (BMD)	Baseline and 12 months	Lumbar spine (L1-L4) bone mineral density measured via dual-energy X-ray Absorptiometry (DXA) scan.

Secondary Outcome Measures

Name	Time	Method
Fractures	Over 12 months	Composite outcome of new non-vertebral and vertebral fractures, and progression of existing vertebral fractures. We will report the number in each category separately. We will use a fracture questionnaire for non-vertebral fractures, and vertebral fractures that come to clinical attention. Participants will undergo a DXA scan for Vertebral Fracture Assessment (VFA) at baseline and the 12-months. A vertebral fracture will be defined as having a radiographic presence of ≥25% reduction in anterior, middle, or posterior vertebral height, verified by an experienced radiologist at University Health Network via the Genant visual semi-quantitative method. Baseline VFA will be assessed for vertebral fractures and compared to VFA at 12 months to ascertain if there has been progression of new fractures; progression will be defined as progression to a new Genant level or a change in height of at least 10%.
Appendicular lean mass	Baseline and 12 months	We will calculate appendicular lean mass (kg) and its index (kg/m\^2) from appendicular bone-free lean mass and height (cm).
30 Second Chair Stand Test.	Baseline, 6 months, and 12 months	We will use the 30 Second Chair Stand Test.
Four Square Step Test	Baseline, 6 months, and 12 months	We will use the Four Square Step Test to assess lower extremity muscle power and dynamic balance during functional tasks.
6 Minute Walk Test.	Baseline, 6 months, and 12 months	We will assess endurance using the 6 Minute Walk Test.
Osteoporosis-specific quality of life (QUALEFFO-41)	Baseline, 6 months, and 12 months	We will use the QUALEFFO-41 as an osteoporosis specific measure of health-related quality of life.
Occiput-to-wall distance	Baseline and 12 months	Occiput-to-wall distance will be a proxy measure of posture.
Knee extension peak torque	Baseline, 6 months, and 12 months	We will assess isometric knee extension peak torque using a knee extension test with a dynamometer.
10 Metre Walk Test.	Baseline, 6 months, and 12 months	We will assess gait speed using the 10 Metre Walk Test.
Rate of falls per person per year	Over 12 months	Participants will be emailed a falls calendar via a survey at the end of each month. Participants will be asked to immediately report any falls to research assistant and to exercise physiologist. Exercise physiologists will report any noted falls to their study coordinator immediately and additional follow-up documentation will be required. Rate of falls and number of people who experience one or more falls will be compared between groups.
Bone-free lean mass	Baseline and 12 months	Whole body fat- and bone-free lean mass will be derived from DXA scans.
Number of people who experience one or more falls	Over 12 months	Participants will be emailed a falls calendar via a survey at the end of each month. Participants will be asked to immediately report any falls to research assistant and to exercise physiologist. Exercise physiologists will report any noted falls to their study coordinator immediately and additional follow-up documentation will be required. Rate of falls and number of people who experience one or more falls will be compared between groups.
Height	Baseline and 12 months	Height will be a proxy measure of posture.
Grip Strength	Baseline, 6 months, and 12 months	We will assess grip strength of the non-dominant arm using a hand dynamometer.
Glucose concentration	Baseline and 6 months	We will be taking a fasted blood sample from participants to measure plasma glucose concentrations using biochemical assay. Blood samples will only be collected from participants at the University of Waterloo site.
peptides synthesized and released by myocytes in muscle tissue	Baseline and 6 months	We will be taking fasting blood samples from participants to measure peptides synthesized and released by myocytes in muscle tissue via the Luminex Performance Assay. Blood samples will only be collected from participants at the University of Waterloo site.
Serious adverse events	Over 12 months	We will ask participants to report adverse events, using Health Canada definitions. We will report all serious and non-serious adverse events and identify those attributable to intervention. Safety outcomes will include all falls, fractures, and serious and non-serious adverse events. Any fractures or falls that are attributable to intervention will be considered under both fall or fracture outcomes, and harms.
Non-serious adverse events	Over 12 months	We will ask participants to report adverse events, using Health Canada definitions. We will report all serious and non-serious adverse events and identify those attributable to intervention. Safety outcomes will include all falls, fractures, and serious and non-serious adverse events. Any fractures or falls that are attributable to intervention will be considered under both fall or fracture outcomes, and harms.
Pro/anti-inflammatory markers	Baseline and 6 months	We will be taking a fasted blood sample from participants to measure plasma pro- and anti-inflammatory markers using a multiplex kit. Blood samples will only be collected from participants at the University of Waterloo site.
Oxidative stress markers/antioxidant status (including oxygen radical absorbance capacity (ORAC) assay, protein carbonyls, glutathione peroxidase activity, thioredoxin, malondialdehyde)	Baseline and 6 months	We will be taking a fasted blood sample from participants to measure antioxidant status and markers of oxidative stress using commercially available assays. Blood samples will only be collected from participants at the University of Waterloo site.
Quality of life (EQ5D5L)	Baseline, 6 months, and 12 months	We will use the EQ5D5L measure as a generic health-related quality of life measure.
Total Hip BMD	Baseline and 12 months	Bone mineral density of the hip measured via DXA scans
Hip Geometry	Baseline and 12 months	We will use the DXA scanner's hip structural analysis feature to calculate estimates of hip geometry from proximal femur scans.
Willingness to pay	Baseline, 6 months, and 12 months	We will assess willingness to pay for various exercise models using a contingent valuation survey.
Insulin concentration	Baseline and 6 months	We will be taking a fasted blood sample from participants to measure serum insulin concentrations using radioimmunoassay. Blood samples will only be collected from participants at the University of Waterloo site.
Health Service Use	Baseline, 6 months, and 12 months	We will assess direct medical resources (e.g., tests, medications, hospitalization, rehabilitation), direct non-medical resources (e.g., out of pocket expenses, transportation), indirect resources (e.g., iMTA Productivity Cost Questionnaire) and clinical events and management. We will assess resource use for incident falls, fractures or adverse events. Multiplying resources collected by jurisdictional unit costs in Canadian dollars will determine the total cost per exercise program.
Femoral Neck BMD	Baseline and 12 months	Bone mineral density of the femoral neck measured via DXA scans
Trabecular Bone Score	Baseline and 12 months	Trabecular bone score (TBS) will be calculated using TBS iNsight software. A high TBS value indicates high quality boner structure, whereas a low TBS value demonstrates a lower quality structure. The TBS index ranges from 0.9 - 1.6.
Ratio of costs to QALY	Baseline, 6 months, and 12 months	We will calculate the ratio of incremental costs between the interventions, determined by trial resources, and clinical outcome (QALY) to achieve an incremental cost per life year gained outcome.
Body weight	Baseline, 6 months and 12 months	Body weight in kg measured using scale

Trial Locations

Locations (3)

University of Waterloo; 🇨🇦 Waterloo, Ontario, Canada

University of Toronto; 🇨🇦 Markham, Canada

University of Saskatchewan; 🇨🇦 Saskatoon, Canada