NCT02339051

Brief Summary

Osteoporosis is a large public health disease, characterized by low bone mass and micro architectural deterioration of bone tissue, resulting in enhanced bone fragility and consequent increase in fracture risk. Osteoporosis is present when bone mineral density (BMD) or content (BMC), measured by dual-energy X-ray absorptiometry (DXA), is more than 2.5 SDs below the mean value of the young adult. BMD measured by DXA is a surrogate measure of bone strength and is the primary determinant of fracture risk in both men and women. However, the majority of fragility fractures occur in women and in individuals who do not have osteoporosis according to these standards, indicating that BMD is just one among several indicators of bone health and that assessment of fracture risk should also rely on other bone properties. Newer imaging methods, such as quantitative computerized tomography (QCT), can complement information from DXA-measurements due to its ability to assess volumetric BMD and bone geometry and to differentiate between cortical and trabecular bone compartments. Bones are composite materials made predominantly of living cells, extracellular matrix, water and lipids. This composite nature of the bone material enables it to absorb stresses by elastic deformation and to endure high loads before fracturing. A new in vivo measurements of bone material strength can be used to evaluate bone mechanical properties and thereby the fracture risk. It is well established that the skeleton benefits, in terms of increased density, from regular physical activity. However, changes in BMD are still the main surrogate for assessing improvements in exercise-induced bone health despite the experimental findings as well as findings in humans showing that improvements in mechanical bone properties are independent of changes in BMD. These improvements in mechanical bone properties may be due to changes in bone shape or matrix composition. It could then be argued that a decrease in BMD is only one of the possible manifestations of osteoporosis and that bone strength or fragility is multifactorial. The objective for this study is to investigate the role of mechanical loading on bone material strength and bone microarchitecture in middle-aged women. The overall hypothesis is that mechanical loading is a regulator of bone material strength and microarchitecture in middle-aged women. This is an intervention study where the participants will act as their own controls. The investigators intend to include 40 postmenopausal and healthy women 50-60 years of age in the study. Advertisements in local papers and at the hospital will be used to come into contact with suitable study subjects. The women will be asked to perform an intervention program, including jumping on one leg every day during a 3-month period according to a protocol with a gradually increasing load/number of jumps. The women have to choose one of their legs as intervention-leg and stick to the chosen leg throughout the study. The leg without intervention will be used as a control. Both bone material strength (BMS) and bone microarchitecture will be measured before and after intervention in both legs (tibia). The operators measuring BMS (OsteoProbe®) and bone microarchitecture (high resolution pQCT) will be blinded concerning each participant's choice of leg for intervention. In addition, subjects will be asked to register daily physical activity in a structured diary. The primary outcome measure will be changes in bone material strength (BMS) in the lower leg (tibia) with intervention compared to the leg (tibia) without intervention. Participants will attend two clinic visits, at baseline and after 3 months when the intervention period is completed. The secondary outcome measures will be changes in total volumetric density, cortical volumetric density, cortical cross sectional area and trabecular bone volume fraction in the lower leg (tibia) with intervention compared to the leg (tibia) without intervention.

Trial Health

100
On Track

Trial Health Score

Automated assessment based on enrollment pace, timeline, and geographic reach

Enrollment
20

participants targeted

Target at below P25 for not_applicable

Timeline
Completed

Started Jan 2015

Shorter than P25 for not_applicable

Status
completed

Health score is calculated from publicly available data and should be used for screening purposes only.

Trial Relationships

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Study Timeline

Key milestones and dates

Study Start

First participant enrolled

January 1, 2015

Completed
11 days until next milestone

First Submitted

Initial submission to the registry

January 12, 2015

Completed
3 days until next milestone

First Posted

Study publicly available on registry

January 15, 2015

Completed
6 months until next milestone

Primary Completion

Last participant's last visit for primary outcome

July 1, 2015

Completed
Same day until next milestone

Study Completion

Last participant's last visit for all outcomes

July 1, 2015

Completed
Last Updated

July 11, 2016

Status Verified

July 1, 2016

Enrollment Period

6 months

First QC Date

January 12, 2015

Last Update Submit

July 7, 2016

Conditions

OsteoporosisPostmenopause

Keywords

Basic Science

Outcome Measures

Primary Outcomes (1)

  • Changes in bone material strength in the tibia (measured using OsteoProbe®)

    Bone material strength measured using OsteoProbe®

    Three months

Secondary Outcomes (4)

  • Changes in total volumetric density in the tibia (Measured using high-resolution pQCT device (HR-pQCT)

    Three months

  • Changes in cortical volumetric density in the tibia (Measured using high-resolution pQCT device (HR-pQCT)

    Three months

  • Changes in cortical cross sectional area in the tibia (Measured using high-resolution pQCT device (HR-pQCT)

    Three months

  • Changes in trabecular bone volume fraction in the tibia (Measured using high-resolution pQCT device (HR-pQCT)

    Three months

Study Arms (1)

One leg jumping

EXPERIMENTAL

Study subjects will jump on one leg on repeated occasions (incremental daily repetitions) for a period of three months. The same leg will be used for jumping throughout the study. The other leg will serve as control.

Behavioral: Jumping on one leg

Interventions

Jumping on one legBEHAVIORAL
One leg jumping

Eligibility Criteria

Age50 Years - 60 Years
Sexfemale
Healthy VolunteersYes
Age GroupsAdult (18-64)

You may qualify if:

  • aged between 50 and 60 years,
  • no history of osteoporosis,
  • not undertaken resistance training and/or weight-bearing impact exercise more than once a week in the past three months,
  • be able and willing to perform the intervention program (one leg jumping), and
  • be reachable via telephone once weekly throughout the study

You may not qualify if:

  • current smoking,
  • current or prior (past 6 months) use of hormone replacement therapy,
  • having sustained a low trauma fragility fracture in the past 6 months,
  • any medical condition (e.g. type 1 diabetes,
  • chronic kidney failure or liver disease, cancer) or
  • use of medication known to influence bone metabolism or fracture risk (e.g. glucocorticoids, thiazide diuretics, anticonvulsants, bisphosphonates), or
  • initiating calcium or vitamin D supplementation in the preceding 6 months

Contact the study team to confirm eligibility.

Sponsors & Collaborators

MeSH Terms

Conditions

Osteoporosis

Condition Hierarchy (Ancestors)

Bone Diseases, MetabolicBone DiseasesMusculoskeletal DiseasesMetabolic DiseasesNutritional and Metabolic Diseases

Study Design

Study Type
interventional
Phase
not applicable
Allocation
NA
Masking
NONE
Purpose
TREATMENT
Intervention Model
SINGLE GROUP
Sponsor Type
OTHER
Responsible Party
SPONSOR INVESTIGATOR
PI Title
Professor

Study Record Dates

First Submitted

January 12, 2015

First Posted

January 15, 2015

Study Start

January 1, 2015

Primary Completion

July 1, 2015

Study Completion

July 1, 2015

Last Updated

July 11, 2016

Record last verified: 2016-07