參考文獻(xiàn)/References:
[1] ALLARD N A E,JANSSEN L,LAGERWAARD B,et al.Prolonged moderate-intensity exercise does not increase muscle injury markers in symptomatic or asymptomatic statin users[J].J Am Coll Cardiol,2023,81(14):1353-1364.
[2] D'AMICO A,CAVARRETTA E,FOSSATI C,et al.Platelet activation favours NOX2-mediated muscle damage in elite athletes:the role of cocoa-derived polyphenols[J].Nutrients,2022,14(8):1558.
[3] CURTY V M,ZOVICO P V C,SALGUEIRO R B,et al.Blood flow restriction attenuates muscle damage in resistance exercise performed until concentric muscle failure[J].Int J Exerc Sci,2023,16(2):469-481.
[4] CALDAS L C,SALGUEIRO R B,CLARKE N D,et al.Effect of caffeine ingestion on indirect markers of exercise-induced muscle damage:a systematic review of human trials[J].Nutrients,2022,14(9):1769.
[5] PAOLETTA M,MORETTI A,LIGUORI S,et al.Ultrasound imaging in sport-related muscle injuries:pitfalls and opportunities[J].Medicina(Kaunas),2021,57(10):1040.
[6] 黃博,阮磊,王蘭蘭,等.推拿治療骨骼肌損傷的分子生物學(xué)機(jī)制研究進(jìn)展[J].湖南中醫(yī)藥大學(xué)學(xué)報,2023,43(4):753-758.
[7] 華曉瓊,李彥杰,張淑芹,等.中醫(yī)藥調(diào)控脊髓損傷后肢體痙攣狀態(tài)的機(jī)制及研究進(jìn)展[J].中國老年學(xué)雜志,2023,43(7):1779-1782.
[8] 白勝超,陳圣菊,尚畫雨,等.針刺干預(yù)對大鼠離心運(yùn)動性骨骼肌損傷后線粒體分裂的影響[J].中國運(yùn)動醫(yī)學(xué)雜志,2020,39(11):878-887.
[9] 張廣霞,劉碧原,張媛鳳,等.脾虛證大鼠骨骼肌變化及中醫(yī)補(bǔ)脾類方的作用比較[J].北京中醫(yī)藥大學(xué)學(xué)報,2016,39(9):739-743.
[10] 楊鎧寧,楊芳,邸貴鑫,等.中醫(yī)不同治法對絕經(jīng)后骨質(zhì)疏松癥大鼠骨骼、骨骼肌SDF-1含量影響的比較研究[J].中國骨質(zhì)疏松雜志,2021,27(3):337-340.
[11] TSAO J P,BERNARD J R,TU T H,et al.Garlic supplementation attenuates cycling exercise-induced oxidative inflammation but fails to improve time trial performance in healthy adults[J].J Int Soc Sports Nutr,2023,20(1):2206809.
[12] CHAZAUD B.Inflammation and skeletal muscle regeneration:leave it to the macrophages![J].Trends Immunol,2020,41(6):481-492.
[13] DONG Y,ZHANG X,MIAO R,et al.Branched-chain amino acids promotes the repair of exercise-induced muscle damage via enhancing macrophage polarization[J].Front Physiol,2022,13:1037090.
[14] BERNARD C,ZAVORITI A,PUCELLE Q,et al.Role of macrophages during skeletal muscle regeneration and hypertrophy-Implications for immunomodulatory strategies[J].Physiol Rep,2022,10(19):15480.
[15] KAWASHIMA M,KAWANISHI N,TOMINAGA T,et al.Icing after eccentric contraction-induced muscle damage perturbs the disappearance of necrotic muscle fibers and phenotypic dynamics of macrophages in mice[J].J Appl Physiol(1985),2021,130(5):1410-1420.
[16] JENSEN S M,BECHSHOFT C J L,HEISTERBERG M F,et al.Macrophage subpopulations and the acute inflammatory response of elderly human skeletal muscle to physiological resistance exercise[J].Front Physiol,2020,11:811.
[17] NOSRATI-OSKOUIE M,AGHILI-MOGHADDAM N S,TAVAKOLI-ROUZBEHANI O M,et al.Curcumin:a dietary phytochemical for boosting exercise performance and recovery[J].Food Sci Nutr,2022,10(11):3531-3543.
[18] FERNANDEZ-LAZARO D,MIELGO-AYUSO J,SECO CALVO J,et al.Modulation of exercise-induced muscle damage,inflammation,and oxidative markers by curcumin supplementation in a physically active population:a systematic review[J].Nutrients,2020,12(2):501.
[19] YEH T S,LEI T H,BARNES M J,et al.Astragalosides supplementation enhances intrinsic muscle repair capacity following eccentric exercise-induced injury[J].Nutrients,2022,14(20):4339.
[20] SHABANI M,SADEGHI A,HOSSEINI H,et al.Resveratrol alleviates obesity-induced skeletal muscle inflammation via decreasing M1 macrophage polarization and increasing the regulatory T cell population[J].Sci Rep,2020,10(1):3791.
[21] 王勇,侯改霞,劉艷秋.草珊瑚粗多糖對運(yùn)動性骨骼肌損傷(EIMD)的干預(yù)效果及機(jī)制[J].三明學(xué)院學(xué)報,2020,37(2):1-9.
[22] 劉海潮,王浩,王詩忠,等.點(diǎn)按脾經(jīng)合穴對急性鈍挫傷大鼠骨骼肌炎癥因子及鈣離子穩(wěn)態(tài)的影響[J].中國組織工程研究,2023,27(20):3123-3128.
[23] 周榮杰,高明,李慧,等.基于TLR9/MyD88/NF-κB信號通路探討針刺預(yù)處理對運(yùn)動性骨骼肌損傷大鼠炎性反應(yīng)的影響[J].中國針灸,2024,44(1):78-86.
[24] HUNG C H,TSAI M H,WANG P S, et al.Oxidative stress involves phenotype modulation of morbid soreness symptoms in fibromyalgia[J].RMD Open,2023,9(1):2741.
[25] MARTINEZ-REYES I,CHANDEL N S.Mitochondrial TCA cycle metabolites control physiology and disease[J].Nat Commun,2020,11(1):102.
[26] LIU R,HAO Y T,ZHU N,et al.The gastroprotective effect of small molecule oligopeptides isolated from walnut(juglans regia l.)against ethanol-induced gastric mucosal injury in rats[J].Nutrients,2020,12(4):1138.
[27] LIU R,LI Z,YU X C,et al.The effects of peanut oligopeptides on exercise-induced fatigue in mice and its underlying mechanism[J].Nutrients,2023,15(7):1743.
[28] 蔡科.香菇多糖對運(yùn)動性骨骼肌損傷的恢復(fù)作用[J].中國食用菌,2020,39(8):68-71.
[29] 丁雨.毛蕊花糖苷對力竭運(yùn)動的骨骼肌損傷的保護(hù)作用[J].基因組學(xué)與應(yīng)用生物學(xué),2020,39(9):4289-4294.
[30] 陳誠.連翹提取物可有效緩解力竭運(yùn)動導(dǎo)致的骨骼肌組織氧化損傷[J].基因組學(xué)與應(yīng)用生物學(xué),2018,37(1):53-58.
[31] 夏庚,韓蕓.毛竹木犀草素-6-C-新橙皮苷通過調(diào)節(jié)IRF4PTG糖原途徑促進(jìn)力竭運(yùn)動小鼠的糖原合成[J].分子植物育種,2022,20(15):5143-5149.
[32] 萬利.黑靈芝多糖提取物對力竭運(yùn)動小鼠的抗疲勞作用[J].基因組學(xué)與應(yīng)用生物學(xué),2020,39(9):4339-4344.
[33] 羅翱,唐成林,黃思琴,等.推拿對骨骼肌急性鈍挫傷模型大鼠炎癥、氧化應(yīng)激及細(xì)胞自噬相關(guān)因子的影響[J].中華物理醫(yī)學(xué)與康復(fù)雜志,2018,40(6):407-413.
[34] CHATZINIKITA E,MARIDAKI M,PALIKARAS K,et al.The role of mitophagy in skeletal muscle damage and regene-ration[J].Cells,2023,12(5):716.
[35] RAHMAN F A,QUADRILATERO J.Mitochondrial network remodeling: an important feature of myogenesis and skeletal muscle regeneration[J].Cell Mol Life Sci,2021,78(10):4653-4675.
[36] SEKINE S.PINK1 import regulation at a crossroad of mitochondrial fate:the molecular mechanisms of PINK1 import[J].J Biochem,2020,167(3):217-224.
[37] 張格第,劉庚鑫,郭敏,等.腎衰方干預(yù)PINK1/Parkin介導(dǎo)的線粒體自噬治療CKD心肌損傷的作用機(jī)制研究[J].中國實驗動物學(xué)報,2023,31(5):567-575.
[38] 梁建慶,張媛媛,朱向東,等.基于AMPK-FoxO3a自噬軸探討葛根芩連湯改善2型糖尿病db/db小鼠肝臟脂質(zhì)異位蓄積的機(jī)制[J].中國實驗方劑學(xué)雜志,2023,29(18):1-9.
[39] 馬玉珍,舒田,潘子君,等.槲皮素促進(jìn)大鼠離心運(yùn)動后骨骼肌線粒體自噬相關(guān)蛋白的表達(dá)[J].武警后勤學(xué)院學(xué)報(醫(yī)學(xué)版),2018,27(6):477-480.
[40] HOU Y,TANG Y,WANG X,et al.Rhodiola crenulata ame-liorates exhaustive exercise-induced fatigue in mice by suppressing mitophagy in skeletal muscle[J].Exp Ther Med,2020,20(4):3161-3173.
[41] 國春鼎,楊軍霞,李鵬程.蘿卜硫素通過抑制PINK1/Parkin信號通路介導(dǎo)的線粒體自噬減輕力竭運(yùn)動誘導(dǎo)的骨骼肌損傷和疲勞[J].中國食品衛(wèi)生雜志,2022,34(6):1158-1165.
[42] 薛亞楠,董佳梓,曲怡,等.電針“足三里”穴對脾氣虛大鼠肌肉組織內(nèi)線粒體自噬相關(guān)因子MUL1及ULK1表達(dá)的影響[J].遼寧中醫(yī)雜志,2019,46(4):856-859.
[43] 王玥,張玉函,王家益,等.銀質(zhì)針導(dǎo)熱治療肌筋膜疼痛綜合征大鼠骨骼肌線粒體和SIRT3表達(dá)的變化[J].中國組織工程研究,2024,28(14):2202-2208.
[44] 尚畫雨,付玉,夏志,等.針刺對運(yùn)動性骨骼肌損傷大鼠骨骼肌線粒體自噬的影響[J].中國病理生理雜志,2017,33(11):2038-2046.
[45] ZHANG S S,ZHOU S,CROWLEY-MCHATTAN Z J,et al.A review of the role of endo/sarcoplasmic reticulum-mitochondria Ca2+ transport in diseases and skeletal muscle function[J].Int J Environ Res Public Health,2021,18(8):3874.
[46] JIMENEZ-MORENO N,SALOMO-COLL C,MURPHY L C,et al.Signal-retaining autophagy indicator as a quantitative imaging method for er-phagy[J].Cells,2023,12(8):1134.
[47] 吳柏樂,吳迎.骨骼肌質(zhì)膜修復(fù)相關(guān)蛋白研究進(jìn)展[J].生命科學(xué),2022,34(12):1506-1518.
[48] 丁海麗,靳松林,李倫宇,等.針刺對運(yùn)動誘發(fā)骨骼肌損傷大鼠內(nèi)質(zhì)網(wǎng)功能及內(nèi)質(zhì)網(wǎng)應(yīng)激-自噬蛋白的影響[J].中國運(yùn)動醫(yī)學(xué)雜志,2022,41(7):535-542.
[49] 丁海麗,黃增浩,任在方,等.針刺對大鼠運(yùn)動性骨骼肌損傷內(nèi)質(zhì)網(wǎng)應(yīng)激的干預(yù)作用及機(jī)制[J].中國應(yīng)用生理學(xué)雜志,2021,37(4):359-364.
[50] 林建平,王浩,劉海潮,等.推拿對大鼠骨骼肌鈍挫傷內(nèi)質(zhì)網(wǎng)應(yīng)激和炎癥的影響[J].中國醫(yī)藥導(dǎo)報,2022,19(35):8-11.
[51] ROMAGNOLI C,ZONEFRATI R,LUCATTELLI E,et al.In Vitro effects of PTH(1-84)on human skeletal muscle-derived satellite cells[J].Biomedicines,2023,11(4):1017.
[52] 楊思夢,賀慶,石麗君,等.Omega-3多不飽和脂肪酸對運(yùn)動性骨骼肌損傷修復(fù)的促進(jìn)作用及相關(guān)機(jī)制研究進(jìn)展[J].食品科學(xué),2023,44(21):359-367.
[53] JANNAS-VELA S,ESPINOSA A,CANDIA A A,et al.The role of Omega-3 polyunsaturated fatty acids and their lipid mediators on skeletal muscle regeneration: a narrative review[J].Nutrients,2023,15(4):871.
[54] TRIPODI L,MOLINARO D,FARINI A,et al.Flavonoids and omega3 prevent muscle and cardiac damage in du-chenne muscular dystrophy animal model[J].Cells,2021,10(11):2917.
[55] 徐明奎,許日明,林業(yè)武,等.柚皮素調(diào)控巨噬細(xì)胞極化和肌衛(wèi)星細(xì)胞增殖修復(fù)骨骼肌損傷[J].中國組織工程研究,2023,27(14):2133-2138.
[56] 賀舟,常青,唐成林,等.大鼠骨骼肌急性損傷后早期運(yùn)動訓(xùn)練和按摩對肌衛(wèi)星細(xì)胞增殖相關(guān)因子的影響[J].中國康復(fù)理論與實踐,2020,26(1):49-54.
[57] 楊輝,常青,唐成林,等.跑臺運(yùn)動訓(xùn)練與按摩聯(lián)合作用對大鼠骨骼肌急性損傷修復(fù)過程中炎癥的發(fā)展及肌衛(wèi)星細(xì)胞增殖的影響[J].體育科學(xué),2015,35(3):51-58.
[58] 劉軍艦,陳帥,袁紅霞,等.基于Nrf2信號通路探討茵陳蒿湯對阻塞性黃疸大鼠腎氧化應(yīng)激損傷的影響及其作用機(jī)制[J].臨床肝膽病雜志,2023,39(5):1126-1133.
[59] 牛衍龍,曹建民,王禎,等.蝦青素對大強(qiáng)度運(yùn)動致大鼠骨骼肌氧化應(yīng)激損傷及細(xì)胞凋亡的影響[J].營養(yǎng)學(xué)報,2021,43(3):274-278.
[60] 張帥軍,唐月梅,張大鼎,等.刺梨果粉緩解過度訓(xùn)練大鼠骨骼肌氧化應(yīng)激損傷效果的研究[J].食品工業(yè)科技,2022,43(12):338-346.
[61] 薛亞楠,董佳梓,曲怡,等.電針“足三里”穴對脾氣虛大鼠肌肉組織內(nèi)NRF1及NRF2表達(dá)的影響[J].中華中醫(yī)藥學(xué)刊,2019,37(4):886-889.
[62] HUANG Y K,CHANG K C,LI C Y,et al.AKR1B1 Represses glioma cell proliferation through p38 MAPK-mediated Bcl-2/BAX/Caspase-3 apoptotic signaling pathways[J].Curr Issues Mol Biol,2023,45(4):3391-3405.
[63] 袁書立.竹葉黃酮活性物質(zhì)對運(yùn)動性骨骼肌損傷大鼠的干預(yù)作用及機(jī)制[J].分子植物育種,2023,21(6):2045-2050.
[64] 周海濤,曹建民,胡戈,等.低聚原花青素對過度訓(xùn)練大鼠骨骼肌損傷的保護(hù)作用機(jī)制[J].生命科學(xué)研究,2021,25(1):24-30.
[65] 朱曉東.葛根黃酮對大強(qiáng)度運(yùn)動大鼠骨骼肌氧化應(yīng)激損傷的保護(hù)作用及其機(jī)制研究[J].美食研究,2020,37(3):78-82.
[66] 范龍.藥用植物虎杖的活性物虎杖苷對急性運(yùn)動過程中骨骼肌炎癥反應(yīng)及氧化應(yīng)激的影響[J].分子植物育種,2022,20(6):2024-2029.
[67] YANG L,DONG Z,LI S,et al.ESM1 promotes angiogenesis in colorectal cancer by activating PI3K/Akt/mTOR pathway,thus accelerating tumor progression[J].Aging(Albany NY),2023,15(8):2920-2936.
[68] 王冠錦,趙暘.黃芪甲苷對力竭運(yùn)動致大鼠骨骼肌損傷及細(xì)胞凋亡的影響[J].云南農(nóng)業(yè)大學(xué)學(xué)報,2023,38(1):80-86.
[69] 劉祥華,羅湘筠,李文倩.基于磷脂酰肌醇3-激酶/蛋白激酶B信號通路探討針刺對超負(fù)荷運(yùn)動致骨骼肌損傷大鼠氧化應(yīng)激損傷及骨骼肌細(xì)胞凋亡的影響[J].安徽醫(yī)藥,2020,24(12):2443-2448.
[70] HUANG S,HE Q,SUN X,et al.DL-3-n-butylphthalide attenuates cerebral ischemia-reperfusion injury by inhibiting mitochondrial Omi/HtrA2-mediated apoptosis[J].CurrNeurovasc Res,2023,20(1):101-111.
[71] 張欣,尚畫雨,王瑞元.Omi/HtrA2介導(dǎo)的細(xì)胞自噬在運(yùn)動性骨骼肌損傷中的作用[J].西安體育學(xué)院學(xué)報,2022,39(1):104-111.
[72] 張欣,李俊平,王瑞元.針刺對運(yùn)動性骨骼肌損傷大鼠細(xì)胞自噬及Omi/HtrA2通路的影響[J].中國運(yùn)動醫(yī)學(xué)雜志,2022,41(8):625-632.