Impact of sex and chronic resistance training on human patellar tendon dry mass, collagen content, and collagen cross-linking

LeMoine, Jennifer K.; Lee, Jonah D.; Trappe, Todd A.

doi:10.1152/ajpregu.90607.2008

Cited by 30 publications

(16 citation statements)

References 52 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In vitro work also supports the suggestion that the tendinous structures of the two genders differ since it is found that female tendon has~9.6% lower dry mass, as well as reduced water content compared with males (LeMoine et al 2009). Interestingly, these authors reported no gender differences in either the cross-linking of collagen, or in collagen content normalised for dry mass (LeMoine et al 2009). What is more, these authors also report no influence of chronic resistance training on these markers (i.e.…”

Section: Discussionsupporting

confidence: 71%

The magnitude and character of resistance-training-induced increase in tendon stiffness at old age is gender specific

Onambélé-Pearson

Pearson

2011

AGE

View full text Add to dashboard Cite

Human tendon mechanical properties are modified with loading. Moreover, there are indications that the training response in the tendon is gender specific. The aim of the current study was to examine whether in vivo patella tendon stiffness (K) differentially alters with training in older males compared with females. We also aimed to identify which endocrine pathway underlies the responses. Maximal knee extensor forces were also monitored to determine the training effect on muscle function. Fourteen healthy, habitually active older persons (seven males aged 74.0 ± 1.2 years (mean±SEM) and seven females aged 76.7 ± 1.2 years) were tested at baseline and after 12 weeks of weekly, progressive resistance training. With training, percentage increase in quadriceps maximum voluntary isometric force (MVC) was similar in males (2,469.6 ± 168.0 to 3,097.3 ± 261.9 N; +25.3 ± 6.1% (p < 0.01)) and females (1,728.8 ± 136.3 to 2,166.5 ± 135.8 N; +30.4 ± 15.1% (p < 0.05)), respectively. K increased more in males (338.0 ± 26.6 to 616.9 ± 58.7 N/mm; 79.8 ± 4.2% (p < 0.001)) compared to females (338.9 ± 31.0 to 373.2 ± 25.8 N/mm; +13.0 ± 3.7% (p < 0.001)). Interestingly, a pattern was found whereby below ~40% MVC, the females showed their greatest degree of K changes, whereas the males showed their greatest degree of K change above this relative force level. This gender contrast was also true at a standardised force level (1,200 N), with 5.8 ± 0.4% vs. 82.5 ± 1.8% increments in the females (i.e. value change from 380.3 ± 14.1 to 402.4 ± 13.3 N/mm) and the males (i.e. value change from 317.8 ± 13.8 to 580.2 ± 30.9 N/mm), respectively (p < 0.001). While circulating levels of both IGF-I and IL-6 did not alter with training, IGFBP-3 showed a significant training effect (19.1 ± 4.8%, p < 0.001) and only in the male sub-group (p = 0.038). We show here that with training, in vivo older females' tendon is less dramatically modulated than that of males'. We also show that the relative forces, at which the greatest adaptations are exhibited, differ by gender, with a suggestion of endocrine adaptations in males only. We thus propose that both training and rehabilitation regimens should consider gender-specific tendon responsiveness, at least in older persons.

show abstract

Section: Discussionsupporting

confidence: 71%

The magnitude and character of resistance-training-induced increase in tendon stiffness at old age is gender specific

Onambélé-Pearson

Pearson

2011

AGE

View full text Add to dashboard Cite

show abstract

“…In addition to contributing to knee function, knowledge about the biomechanical properties of the patellar tendon is important because it is commonly used as autograft material in the reconstruction of ligaments. Tendon strength and mechanical properties are affected by tendon dry mass, collagen content, and cross-linking [13][14][15][16]. Although the impact of exercise training on collagen content and cross-linking in human tendon tissue is unknown, animal data has shown increased collagen content with chronic training and biomechanical studies have revealed that tendon stiffness increases in tendons after long exercise [17,18].…”

Section: Discussionmentioning

confidence: 99%

Real-time sonoelastography of the patellar and quadriceps tendons: pattern description in profesional athletes and healthy volunteers.

et al. 2016

View full text Add to dashboard Cite

Aims: The comparison of elastographic features of quadriceps and patellar tendons in a group of professional athletes and healthy volunteers and the description of elasticity characteristics of these tendons. Material and methods: Thirtynine professional athletes (22 male, 17 female; mean age 18.5 years) and 35 healthy volunteers (21 male, 14 female; mean age 19 years) were included. They were divided into two groups by gender. Quadriceps tendon, patellar side of the patellar tendon, and tibial side of the patellar tendon elasticity patterns and strain ratios were investigated with real-time ultrasound elastography. The elasticity features of the dominant leg and non-dominant leg of athletes and volunteers legs were compared. In addition quadriceps and patellar tendons were compared separately for three distinct tendon locations. Results: There was no difference between the athletes and the healthy volunteers and also between the dominant leg and non-dominant leg of athletes. At tendon comparison, the quadriceps tendon was harder than the patellar tendon at both side and patellar side of patellar tendon was found to be stiffer than the tibial side of patellar tendon. Conclusions: Although biomechanical studies showed that tendon stiffness increased after long exercise, no significant difference was found between athletes' and healthy volunteers' tendon elasticity. These three tendon locations exhibit different elasticity features and the knowledge of the elasticity feature will be useful in assessing tendon pathologies.

show abstract

“…This finding is analogous to our previous results after 12 weeks of resistance exercise training in older men and women . Similarly, the patellar tendon collagen content and cross-linking are unchanged in habitually resistance-trained young individuals (Lemoine et al, 2009). However, it is still likely that some change in the internal structure of the tendon occurs with exercise training, as several studies in young and old individuals report changes in the mechanical properties of the tendon (Reeves et al, 2003;Kongsgaard et al, 2007;Couppe et al, 2008;Seynnes et al, 2009;Carroll et al, 2011), albeit sometimes minor.…”

Section: Discussionmentioning

confidence: 99%

Influence of aerobic cycle exercise training on patellar tendon cross‐sectional area in older women

Standley

Harber

Lee

et al. 2011

Scandinavian Med Sci Sports

View full text Add to dashboard Cite

Nine to 12 weeks of resistance exercise training in young individuals induces quadriceps muscle (∼6%) and region-specific patellar tendon (4-6%) hypertrophy. However, 12 weeks of resistance exercise training (∼1 h total exercise time) in older individuals (60-78 years) induces quadriceps muscle hypertrophy (9%) without impacting patellar tendon size. The current study examined if a different loading paradigm using cycle exercise would promote patellar tendon hypertrophy or alter the internal tendon properties, measured with magnetic resonance imaging signal intensity, in older individuals. Nine women (70 ± 2 years) completed 12 weeks of aerobic upright cycle exercise training (∼28 h total exercise time). Aerobic exercise training increased (P < 0.05) quadriceps muscle size (11 ± 2%) and VO2max (30 ± 9%). Mean patellar tendon cross-sectional area (CSA) (2 ± 1%) and signal intensity (-1 ± 2%) were unchanged (P > 0.05) over the 12 weeks of training. Region-specific CSA was unchanged (P > 0.05) at the proximal (-1 ± 3%) and mid regions (2 ± 2%) of the tendon but tended (P = 0.069) to increase at the distal region (5 ± 3%). Region-specific signal intensity differed along the tendon but was unchanged (P > 0.05) with training. Although more studies are needed, exercise-induced patellar tendon hypertrophy, compared with skeletal muscle, appears to be attenuated in older individuals, while the loading pattern associated with aerobic exercise seems to have more impact than resistance exercise in promoting patellar tendon hypertrophy.

show abstract

Impact of sex and chronic resistance training on human patellar tendon dry mass, collagen content, and collagen cross-linking

Cited by 30 publications

References 52 publications

The magnitude and character of resistance-training-induced increase in tendon stiffness at old age is gender specific

The magnitude and character of resistance-training-induced increase in tendon stiffness at old age is gender specific

Real-time sonoelastography of the patellar and quadriceps tendons: pattern description in profesional athletes and healthy volunteers.

Influence of aerobic cycle exercise training on patellar tendon cross‐sectional area in older women

Contact Info

Product

Resources

About