Ana P. Valencia, Ashton T. Samuelson, Rudolph Stuppard, David J. Marcinek
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The plantarflexor muscles were subjected to 20 eccentric contractions <i>in vivo</i> to induce injury (EIMD). Changes in tetanic force and kinetics were assessed before EIMD, immediately after EIMD and 3 days after EIMD (3d-EIMD). Force–frequency and rates of fatigue were assessed 3d-EIMD and compared with baseline. Histological analysis was conducted in injured and non-injured contralateral gastrocnemius muscle.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p>There was a greater loss in isometric tetanic force immediately following EIMD in VO compared with YA (−31.6% ± 10.4 vs. −21.7% ± 6.0, <i>P</i> < 0.05). At 3d-EIMD, the rate of contraction of tetanus began to recover in VO, but not in YA (20.8% vs. −6.8%, <i>P</i> < 0.05), whereas the extent of recovery of force tended to be greater in VO than YA (39.3% vs. 17.1%, <i>P</i> = 0.08) when compared with tetanic function immediately after injury. Compared with function pre-injury (baseline), VO and YA had similar deficits in tetanic force (−7.3% ± 5.3 vs. -9.2% ± 6.0, respectively) and kinetics at Day 3. Twitch kinetics (rate of relaxation) recovered faster in VO compared with YA. The rate of muscle fatigue was similar to baseline values, with VO continuing to be more fatigue resistant than YA 3d-EIMD. There were no detectable differences in muscle mass or myofibre cross-sectional area despite continued deficits in force following EIMD in either age group.</p>\n </section>\n \n <section>\n \n <h3> Conclusions</h3>\n \n <p>Despite clear functional deficits and greater susceptibility to injury, aged sarcopenic muscle exhibited a similar ability to recover contractile function to younger muscle following EIMD. In addition, neither age group showed accelerated muscle fatigue in the recovery phase after EIMD; thus, sarcopenic mouse muscles do not appear to be more susceptible to long-term functional impairment than young healthy muscles.</p>\n </section>\n </div>","PeriodicalId":73544,"journal":{"name":"JCSM rapid communications","volume":"4 2","pages":"222-231"},"PeriodicalIF":0.0000,"publicationDate":"2021-06-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1002/rco2.33","citationCount":"2","resultStr":"{\"title\":\"Functional recovery from eccentric injury is maintained in sarcopenic mouse muscle\",\"authors\":\"Ana P. Valencia, Ashton T. Samuelson, Rudolph Stuppard, David J. Marcinek\",\"doi\":\"10.1002/rco2.33\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div>\\n \\n \\n <section>\\n \\n <h3> Background</h3>\\n \\n <p>Eccentric contractions induce muscle damage (EIMD) that compromises muscle function. 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引用次数: 2
摘要
背景偏心收缩引起肌肉损伤(EIMD),损害肌肉功能。EIMD恢复不良被认为是肌肉减少症中肌肉功能明显下降的原因之一,但目前尚不清楚老年肌肉和年轻肌肉中哪些方面的肌肉功能更容易受到EIMD的破坏。本研究的目的是确定与年轻成年(YA)相比,VO小鼠在EIMD恢复期间收缩功能(力、疲劳、破伤风和抽动动力学)损伤的程度。方法雄性CB6F1来源于美国国家老龄研究所菌落。VO小鼠29 ~ 31月龄,YA小鼠7 ~ 9月龄。在体内对跖屈肌进行20次偏心收缩诱导损伤(EIMD)。分别在EIMD前、EIMD后和EIMD后3天(3d-EIMD)评估破伤风力和动力学的变化。用3d-EIMD评估受力频率和疲劳率,并与基线进行比较。对损伤和未损伤的对侧腓肠肌进行组织学分析。结果与YA相比,VO在EIMD后立即出现的等长破伤风力损失更大(- 31.6%±10.4比- 21.7%±6.0,P <0.05)。在3d-EIMD时,VO组破伤风收缩率开始恢复,而YA组则没有(20.8% vs. - 6.8%, P <0.05),而与伤后立即破伤风功能相比,VO组的力量恢复程度往往大于YA组(39.3%比17.1%,P = 0.08)。与损伤前(基线)的功能相比,VO和YA在第3天的破伤风力和动力学方面有相似的缺陷(分别为- 7.3%±5.3和-9.2%±6.0)。与YA相比,VO组的抽搐动力学(松弛率)恢复得更快。肌肉疲劳率与基线值相似,VO继续比YA 3d-EIMD更具抗疲劳性。尽管EIMD后肌力持续下降,但两组在肌肉质量或肌纤维横截面积方面没有可检测到的差异。结论:尽管有明显的功能缺陷和更大的损伤易感性,老年肌肉萎缩肌在EIMD后表现出与年轻肌肉相似的收缩功能恢复能力。此外,在EIMD后的恢复阶段,两个年龄组都没有出现肌肉疲劳加速;因此,肌肉减少的小鼠肌肉似乎并不比年轻健康的肌肉更容易受到长期功能损害。
Functional recovery from eccentric injury is maintained in sarcopenic mouse muscle
Background
Eccentric contractions induce muscle damage (EIMD) that compromises muscle function. Poor recovery from EIMD has been suggested to be a contributor to the decline in muscle function evident in sarcopenia, but it is unclear which aspects of muscle function are more susceptible to disruption by EIMD in old versus young muscle. The purpose of this study was to determine the extent of impairment in contractile function (force, fatigue, tetanus and twitch kinetics) during the recovery from EIMD in VO mice compared to young adult (YA).
Methods
Male CB6F1 were obtained from National Institure of Aging colony. VO mice were 29–31 months of age, and YA mice were 7–9 months of age. The plantarflexor muscles were subjected to 20 eccentric contractions in vivo to induce injury (EIMD). Changes in tetanic force and kinetics were assessed before EIMD, immediately after EIMD and 3 days after EIMD (3d-EIMD). Force–frequency and rates of fatigue were assessed 3d-EIMD and compared with baseline. Histological analysis was conducted in injured and non-injured contralateral gastrocnemius muscle.
Results
There was a greater loss in isometric tetanic force immediately following EIMD in VO compared with YA (−31.6% ± 10.4 vs. −21.7% ± 6.0, P < 0.05). At 3d-EIMD, the rate of contraction of tetanus began to recover in VO, but not in YA (20.8% vs. −6.8%, P < 0.05), whereas the extent of recovery of force tended to be greater in VO than YA (39.3% vs. 17.1%, P = 0.08) when compared with tetanic function immediately after injury. Compared with function pre-injury (baseline), VO and YA had similar deficits in tetanic force (−7.3% ± 5.3 vs. -9.2% ± 6.0, respectively) and kinetics at Day 3. Twitch kinetics (rate of relaxation) recovered faster in VO compared with YA. The rate of muscle fatigue was similar to baseline values, with VO continuing to be more fatigue resistant than YA 3d-EIMD. There were no detectable differences in muscle mass or myofibre cross-sectional area despite continued deficits in force following EIMD in either age group.
Conclusions
Despite clear functional deficits and greater susceptibility to injury, aged sarcopenic muscle exhibited a similar ability to recover contractile function to younger muscle following EIMD. In addition, neither age group showed accelerated muscle fatigue in the recovery phase after EIMD; thus, sarcopenic mouse muscles do not appear to be more susceptible to long-term functional impairment than young healthy muscles.
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