Does Aerobic Exercise Training Promote Changes in Structural and Biomechanical Properties of the Tendons in Experimental Animals? A Systematic Review

Bezerra, Márcio Almeida; Lemos, Andréa; Lira, Kamilla Dinah Santos de; Silveira, Peterson; Coutinho, Marcos Paulo Galdino; Moraes, Sílvia Regina Arruda de

doi:10.5604/20831862.1019661

Cited by 3 publications

(3 citation statements)

References 33 publications

(53 reference statements)

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“…They found a wide variety of study methodologies, some of which they considered problematic and came to no conclusive result. 5 The Achilles tendon is the largest, strongest, and thickest tendon in the human body, 23 but due to the strong forces transmitted through it, the Achilles has to withstand high stress and is exposed to overload injuries more than any other human tendon. 11 Our group has recently published a study conducted on former elite Israeli infantry soldiers that showed that the high loads involved in their training induced significant strengthening of the tibia mediated by an increase in the cross-sectional area moment of inertia.…”

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confidence: 99%

Achilles Tendons Hypertrophy in Response to High Loading Training

Milgrom

Altaras

et al. 2014

Foot Ankle Int.

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confidence: 99%

Achilles Tendons Hypertrophy in Response to High Loading Training

Milgrom

Altaras

et al. 2014

Foot Ankle Int.

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“…Exercise training could effectively increase muscle cross-sectional area and decrease muscle fiber density in experimental animals with KOA ( Assis et al, 2015 ). Increasing the ultimate load supported during the exercise training, the biomechanical characteristics and the structure of the tendon in experimental animals can be improved ( Bezerra et al, 2012 ). Four weeks of regular exercise training can alleviate cartilage degeneration in model rats with KOA ( Fallah Mohammadi et al, 2013 ).…”

Section: Exercise Training and Koamentioning

confidence: 99%

Benefits and Mechanisms of Exercise Training for Knee Osteoarthritis

et al. 2021

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Knee osteoarthritis is a chronic degenerative disease. Cartilage and subchondral bone degeneration, as well as synovitis, are the main pathological changes associated with knee osteoarthritis. Mechanical overload, inflammation, metabolic factors, hormonal changes, and aging play a vital role in aggravating the progression of knee osteoarthritis. The main treatments for knee osteoarthritis include pharmacotherapy, physiotherapy, and surgery. However, pharmacotherapy has many side effects, and surgery is only suitable for patients with end-stage knee osteoarthritis. Exercise training, as a complementary and adjunctive physiotherapy, can prevent cartilage degeneration, inhibit inflammation, and prevent loss of the subchondral bone and metaphyseal bone trabeculae. Increasing evidence indicates that exercise training can improve pain, stiffness, joint dysfunction, and muscle weakness in patients with knee osteoarthritis. There are several exercise trainings options for the treatment of knee osteoarthritis, including aerobic exercise, strength training, neuromuscular exercise, balance training, proprioception training, aquatic exercise, and traditional exercise. For Knee osteoarthritis (KOA) experimental animals, those exercise trainings can reduce inflammation, delay cartilage and bone degeneration, change tendon, and muscle structure. In this review, we summarize the main symptoms of knee osteoarthritis, the mechanisms of exercise training, and the therapeutic effects of different exercise training methods on patients with knee osteoarthritis. We hope this review will allow patients in different situations to receive appropriate exercise therapy for knee osteoarthritis, and provide a reference for further research and clinical application of exercise training for knee osteoarthritis.

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“…Regarding the tendinous complex, a recent systematic review demonstrated increased load borne by the tendon in response to resistance or endurance training, specifically on physical training in an aquatic environment 19 . Increases on the tendon elasticity module were found, which does not trigger losses on the energy storage of the tendon.…”

Section: Introductionmentioning

confidence: 99%