Age-dependent Muscle Adaptation after Chronic Stretch-shortening Contractions in Rats

Rader, Erik P.; Layner, Kayla N.; Triscuit, Alyssa M.; Chetlin, Robert D.; Ensey, James; Baker, Brent A.

doi:10.14336/ad.2015.0920

Cited by 24 publications

(35 citation statements)

References 29 publications

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“…However, this phenomenon is very distinct from cases where maladaptation results, such is the case in physical work and exercise-induced events, and is accompanied by transient soreness and discomfort following loading of soft tissue [12,35,36]. These latter disorders have been reported in both humans [37] and animals [13,38] and typically present with no known etiology, while representing cases where functional loss occurs in the absence of any underlying obvious pathophysiology (i.e., overt inflammation, degeneration, etc.). Obviously, both overt skeletal muscle injury as well as maladaptation may occur at any age [35]; yet, specifically, with respect to maladaptive events incurred during aging, the conditions known as dynapenia and sarcopenia as well as skeletal muscle quality will be examined in this context.…”

Section: Musculoskeletal Disorders (Msds): Dynapenia Sarcopenia Andmentioning

confidence: 99%

“…For these reasons and with these limitations in mind, fundamental, in vivo animal models that are valid and representative of the human exposure-response relationship with respect to aging and exercise are an essential tool for investigating and quantifying these phenomena due to the exquisite control they allow over the biomechanical loading exposure as well as providing a means to evaluate, characterize, and quantify the integrated skeletal muscle response systematically. Interestingly, only recently have investigations begun to question and quantify the impact age-specific RTET imparts on skeletal muscle quality and whether this specific and sensitive outcome metric (i.e., "biomarker") is modifiable with aging [13,38,66,86]. Initial studies by Cutlip and colleagues provided a basis for investigating non-injurious SSC RTET exposure in a validated, fundamental rodent model of aging, which quantified the adaptive and maladaptive response in young and old skeletal muscle, respectively [13].…”

Section: Efficacy Of Ssc Rtet In Restoring the Youthful Phenotypementioning

confidence: 99%

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Efficacy of Age-Specific High-Intensity Stretch-Shortening Contractions in Reversing Dynapenia, Sarcopenia, and Loss of Skeletal Muscle Quality

Baker

2018

JFMK

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During the aging process, skeletal muscle performance and physiology undergoes alterations leading to decrements in functional capacity, health-span, and independence. Background: The utility and implementation of age-specific exercise is a paramount research agenda focusing on ameliorating the loss of both skeletal muscle performance and physiology; yet, to date, no consensus exists as to the most appropriate mechanical loading protocol design or overall exercise prescription that best meets this need. Thus, the purpose of this review is to highlight the most optimal type of exercise presently available and provide the most current, evidence-based findings for its efficacy. The hypothesis that high-intensity, stretch-shortening contractions (SSCs)-a form of "resistance-type exercise" training-present as the preferred exercise mode for serving as an intervention-based modality to attenuate dynapenia, sarcopenia, and decreased muscle quality with aging, even restoring the overall youthful phenotype, will be demonstrated. Conclusions: Appreciating the fundamental evidence supporting the use of high-intensity SSCs in positively impacting aging skeletal muscle's responsivity and their use as a specific and sensitive countermeasure is crucial. Moreover, from an applied perspective, SSCs may improve skeletal muscle quality and rejuvenate health-span and, ultimately, lead to augmented functional capacity, independence, and quality of life concomitant with decreased morbidity.

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Section: Musculoskeletal Disorders (Msds): Dynapenia Sarcopenia Andmentioning

confidence: 99%

Section: Efficacy Of Ssc Rtet In Restoring the Youthful Phenotypementioning

confidence: 99%

Efficacy of Age-Specific High-Intensity Stretch-Shortening Contractions in Reversing Dynapenia, Sarcopenia, and Loss of Skeletal Muscle Quality

Baker

2018

JFMK

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“…Differential effects of aging are particularly evident in the cerebral cortex, in which the superior frontal, middle frontal, and superior parietal cortex are most susceptible to steady age-related atrophy (Lockhart and DeCarli, 2014 ). Other cortical regions have fluctuating rates of change, with some areas showing accelerated atrophy early in aging, others demonstrating accelerated atrophy late in aging, and others showing a combination of early and late acceleration (Figure 1 ; Lockhart and DeCarli, 2014 ; Claassen et al, 2016 ). Subcortically, the caudate nucleus, cerebellum, and hippocampus show susceptibility to age-related structural degeneration (Raz et al, 2005 ).…”

Section: Magnetic Resonance Imaging Measures Of Brain Agingmentioning

confidence: 99%

“…Regions highlighted in yellow show decline late in aging (remain structurally intact early in aging but decrease quickly late in aging). Modified from Claassen et al ( 2016 ) in Aging and Disease licensed under CC BY.…”

Section: Magnetic Resonance Imaging Measures Of Brain Agingmentioning

confidence: 99%

Nutritional Cognitive Neuroscience: Innovations for Healthy Brain Aging

Zamroziewicz

Barbey

2016

Front. Neurosci.

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Nutritional cognitive neuroscience is an emerging interdisciplinary field of research that seeks to understand nutrition's impact on cognition and brain health across the life span. Research in this burgeoning field demonstrates that many aspects of nutrition—from entire diets to specific nutrients—affect brain structure and function, and therefore have profound implications for understanding the nature of healthy brain aging. The aim of this Focused Review is to examine recent advances in nutritional cognitive neuroscience, with an emphasis on methods that enable discovery of nutrient biomarkers that predict healthy brain aging. We propose an integrative framework that calls for the synthesis of research in nutritional epidemiology and cognitive neuroscience, incorporating: (i) methods for the precise characterization of nutritional health based on the analysis of nutrient biomarker patterns (NBPs), along with (ii) modern indices of brain health derived from high-resolution magnetic resonance imaging (MRI). By integrating cutting-edge techniques from nutritional epidemiology and cognitive neuroscience, nutritional cognitive neuroscience will continue to advance our understanding of the beneficial effects of nutrition on the aging brain and establish effective nutritional interventions to promote healthy brain aging.

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“…The absolute prevalences of these deformities are not known accurately, prevalance studies for HV presents a wide range from 3 to 74% with acute differences owing to a number of factors including age, gender and race/ethnicity. 4 , 5 , 6 , 7 , 8 , 9 , 10 , 11 …”

Section: Introductionmentioning

confidence: 99%

Prevalence estimation and familial tendency of common forefoot deformities in Turkey: A survey of 2662 adults

Şaylı

Altunok

Güven

et al. 2018

Acta Orthopaedica et Traumatologica Turcica

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ObjectiveThis survey was designed to evaluate the prevalence estimations of HV, bunionette, hammertoe as well as their relations to shoe wearing and also familial tendency, in Turkey.Material and MethodsTwo thousand six hundred sixty two volunteers (1615 females and 1047 males) with a mean age of 34.15 ± 14.23 (range; 18 to 96) years were asked to answer the predetermined questionnaire between January and June, 2016. Hallux valgus, hammertoe and bunionette images were provided as references and every adult participant without any known forefoot problems or past forefoot surgery history was asked to rate his/her foot and to respond the questions about family history and shoe wearing habits. Responses were statistically analyzed.ResultsThe prevalence estimations of hallux valgus, bunionette and hammertoe were calculated as 54.3%, 13.8% and 8.9% and positive family history rates were 53.2%, 61.2% and 56.1%, respectively. All three deformities were more common in females than in males (p < 0.001). Nonetheless the older age group reported significantly higher prevalence rates for only HV (p < 0.001). Likewise, among the three deformities, females reported a higher rate of positive family history only in HV compared to men (p < 0.001). Constricting shoe wear was found to affect HV incidence in women (p < 0.001) and bunionette incidence in both sexes (p < 0.01).ConclusionThis study concludes that forefoot deformities are common with high familial tendency. Hence it is worthwhile to work on molecular genetics and this may enable the anticipation of forthcoming deformities in order to take early action in prevention, in nearly the half of the population.

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Age-dependent Muscle Adaptation after Chronic Stretch-shortening Contractions in Rats

Cited by 24 publications

References 29 publications

Efficacy of Age-Specific High-Intensity Stretch-Shortening Contractions in Reversing Dynapenia, Sarcopenia, and Loss of Skeletal Muscle Quality

Efficacy of Age-Specific High-Intensity Stretch-Shortening Contractions in Reversing Dynapenia, Sarcopenia, and Loss of Skeletal Muscle Quality

Nutritional Cognitive Neuroscience: Innovations for Healthy Brain Aging

Prevalence estimation and familial tendency of common forefoot deformities in Turkey: A survey of 2662 adults

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