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Load magnitude affects patellar tendon mechanical properties but not collagen or collagen cross-linking after long-term strength training in older adults.

BMC geriatrics
January 1, 1970
Christian S Eriksen et al. (6 authors)
Journal ArticleRandomized Controlled TrialResearch Support, Non-U.S. Gov'tHuman StudyClinical
Study Details

Study Goal

The researchers aimed to compare the effects of moderate versus high load resistance training on tendon mechanical properties and matrix components, including advanced glycation end-products (AGEs), in older adults.

Results Summary

The study found that tendon fluorescence (a measure of AGEs) was unaffected by either moderate or heavy load resistance training. Heavy load training maintained tendon mechanical properties, but this effect was unrelated to changes in major matrix components, including AGEs.

Population

17 women and 19 men, aged 62-70 years.

Effective Dosage

Not specified (training load magnitudes: heavy vs. moderate resistance training).

Duration

12 months.

Interactions

None mentioned.

Extracted Claims (15)
InterventionDirectionEndpointPopulationDosageImpactClaim #
heavy load resistance training (HRT)
increase
isometric quadriceps strength (IsoMVC)
participants age 62-70 years
+21%
increased more
#1
moderate load resistance training (MRT)
increase
isometric quadriceps strength (IsoMVC)
participants age 62-70 years
+8%
increased
#2
control (CON)
increase
isometric quadriceps strength (IsoMVC)
participants age 62-70 years
+7%
increased
#3
heavy load resistance training (HRT)
no change
tendon stiffness
participants age 62-70 years
-
not reduced
#4
moderate load resistance training (MRT)
decrease
tendon stiffness
participants age 62-70 years
-
reduction
#5
control (CON)
decrease
tendon stiffness
participants age 62-70 years
-
reduction
#6
heavy load resistance training (HRT)
no change
Young's modulus
participants age 62-70 years
-
not reduced
#7
moderate load resistance training (MRT)
decrease
Young's modulus
participants age 62-70 years
-
reduction
#8
control (CON)
decrease
Young's modulus
participants age 62-70 years
-
reduction
#9
moderate load resistance training (MRT)
increase
patellar tendon cross-sectional area (PT-CSA)
participants age 62-70 years
-
increased
#10
heavy load resistance training (HRT)
increase
patellar tendon cross-sectional area (PT-CSA)
participants age 62-70 years
-
increased
#11
resistance training
no change
collagen content
participants age 62-70 years
-
unaffected
#12
resistance training
no change
fibril morphology
participants age 62-70 years
-
unaffected
#13
resistance training
no change
enzymatic cross-links
participants age 62-70 years
-
unaffected
#14
resistance training
no change
tendon fluorescence (advanced glycation end-products)
participants age 62-70 years
-
unaffected
#15
Abstract

BACKGROUND: Regular loading of tendons may counteract the negative effects of aging. However, the influence of strength training loading magnitude on tendon mechanical properties and its relation to matrix collagen content and collagen cross-linking is sparsely described in older adults. The purpose of the present study was to compare the effects of moderate or high load resistance training on tendon matrix and its mechanical properties. METHODS: Seventeen women and 19 men, age 62-70 years, were recruited and randomly allocated to 12 months of heavy load resistance training (HRT), moderate load resistance training (MRT) or control (CON). Pre- and post-intervention testing comprised isometric quadriceps strength test (IsoMVC), ultrasound based testing of in vivo patellar tendon (PT) mechanical properties, MRI-based measurement of PT cross-sectional area (CSA), PT biopsies for assessment of fibril morphology, collagen content, enzymatic cross-links, and tendon fluorescence as a measure of advanced glycation end-products (AGEs). RESULTS: Thirty three participants completed the intervention and were included in the data analysis. IsoMVC increased more after HRT (+ 21%) than MRT (+ 8%) and CON (+ 7%) (p < 0.05). Tendon stiffness (p < 0.05) and Young's modulus (p = 0.05) were also differently affected by training load with a reduction in CON and MRT but not in HRT. PT-CSA increased equally after both MRT and HRT. Collagen content, fibril morphology, enzymatic cross-links, and tendon fluorescence were unaffected by training. CONCLUSION: Despite equal improvements in tendon size after moderate and heavy load resistance training, only heavy. load training seemed to maintain tendon mechanical properties in old age. The effect of load magnitude on tendon biomechanics was unrelated to changes of major load bearing matrix components in the tendon core. The study is a sub-study of the LISA study, which was registered at http://clinicaltrials.gov (NCT02123641) April 25th 2014.

Medical Subject Headings (MeSH)
AgedBiomechanical PhenomenaCollagenCross-Sectional StudiesElastic ModulusFemaleHumansMaleMiddle AgedMuscle StrengthPatellar LigamentResistance TrainingTime FactorsWeight-Bearing
Study Links
Quality Scores
SafetyNot Assessed
Efficacy50/10
Quality85/10
Citation Metrics
Total Citations30
Citations/Year5.0
Relative Citation Ratio2.93
NIH Percentile84.4%
Research Impact Scores
APT Score0.75
Weight Score1.86
Normalized Score0.57