Tipos de fibras de los músculos intrínsecos laríngeos de seres humanos: una revisión de la literatura / Fiber types in human intrinsic laryngeal muscles: a literature review

El estudio de las fibras musculares permite comprender con mejor detalle la composición de los músculos y sus características funcionales. Además, facilita la aplicación de programas de entrenamiento y rehabilitación basados en las vías energéticas que regulan la contracción muscular. Su estudio generalmente va unido al análisis de las cadenas pesadas de miosina (MyHC), las que informan sobre las características y propiedades funcionales del músculo. El objetivo de este trabajo fue sintetizar la evidencia científica disponible sobre la distribución de fibras musculares y de isoformas de cadenas pesadas de miosina de los músculos intrínsecos de la laringe de seres humanos. Se realizó una revisión sistemática de la literatura mediante el análisis de artículos encontrados en las bases de datos PubMed, EBSCOHost y SciELO. Los hallazgos informan sobre la existencia de fibras tónicas lentas y tipo I, II, IIA y IIX/IIB. Además, se reconoce la presencia de las isoformas MyHC-I, MyHC-IIA, MyHC-IIX, MyHC-Fetal, MyHC-L y MyHC-IIB. En conclusión, los músculos intrínsecos de la laringe presentan una mezcla de fibras y de isoformas de MyHC lentas y rápidas,la que obedece a adaptaciones y cambios evolutivos que han permitido, por ejemplo, las características fonatorias que presenta la voz del ser humano.

The study of muscle fibers allows the composition of muscles and their functional characteristics to be understood in greaterdetail. In addition, it makes it possible to applytraining and rehabilitation programs based on the energypathways that regulatemuscle contraction. Studying muscle fibers is generally associated withthe analysis of myosin heavy chains (MHC) which provide information on the functional characteristics and properties of muscles. The objective of this study was to synthesize the available scientific evidence onthe distribution of muscle fibers and myosin heavy chain isoforms present in the intrinsic laryngeal muscles of human beings. A systematic reviewof the literature was carried outand articles found on PubMed, EBSCOHost,and SciELOwere analyzed.The findings showthe presenceof slow-tonic, type I, type II, type IIA, and type IIX/IIB fibers. Additionally,isoforms MHC-I, MHC-IIA, MHC-IIX, MHC-Fetal, MHC-L, and MHC-IIB canbe found. In conclusion, intrinsic laryngeal muscles are composed ofa combination of slow and fast fibers and MHC isoforms, derived from evolutionary adaptations and changes which have given way, among other things, to the phonetic characteristics ofthe human voice.

Regulation effect of endoplasmic reticulum stress and unfolded protein response activation on skeletal muscle fiber immune behavior / 解剖学报

Objective To investigate the regulatory effects of activated endoplasmic reticulum stress（ERS） and unfolded protein response（UPR） on the immune behavior of the stressed muscle fibers in inflammatory environments induced by interferon-γ（IFN-γ）. Methods The myogenic precursor cells（MPCs） of C57 BL/6 mice cultured in vitro were differentiated into multinucleated myogenic tubes by horse serum and then to set up: 1. Control group; 2. IFN-γ group; 3. Tunicamycin group; 4. Thapsigargin group; 5. IFN-γ and 4-phenylbutyrate（4-PBA） combined treatment group; 6. IFN-γ, TG and 4-PBA combined treatment group; 7. IFN-γ and 4μ8 c combined treatment group; 8. IFN-γ, TG and 4μ8 c combined treatment group; 9. IFN-γ and GSK2606414 combined treatment group; 10. IFN-γ, TG and GSK2606414 combined treatment group. The level of myokines gene was detected by Real-time PCR. The expression of UPR key molecules including eukaryotic intiatio factor 2α（eIF2α）, inositol requrring enzyme 1α（IRE1α） and activating transcription factor 6（ATF6） in muscle fibers was observed by immunofluorescence. Western blotting was used to detect immune molecules related to muscle cells, myokines and key molecules of UPR. Luminex analyzed the levels of pro-inflammatory myokines in muscle fibers. Results The expression of H-2 Kb, H2-Ea, Toll like receptor 3（TLR3）, p-eIF2α and p-IRE1α were up-regulated in IFN-γ induced inflammatory environment. The expression of H-2 Kb, H2-Ea, TLR3 and myokines in the group with UPR inhibitor 4-PBA was down-regulated compared with IFN-γ group, and the expression of these molecules in the group with IRE1α specific inhibitor 4μ8 c was down-regulated compared with the IFN-γ group. The addition of protein kinase R-like endoplasmic eticulum（PERK） specific inhibitor GSK2606414 showed no significant change. Conclusion In IFN-γ induced inflammatory environment, the UPR-IRE1α pathway activates and inhibits the synthesis of muscle fiber immune-related molecules, which further inhibits the muscle fiber mediated immune response and facilitates muscle regeneration.

La rigidez cadavérica, el espasmo cadavérico y tipos de fibras musculares / The cadaveric rigidity, the cadaveric spasm and types of muscle fibers

La rigidez cadavérica (rigor mortis) es un proceso no muy bien comprendido por la mayoría de los médicos. El conocimiento de la intimidad del proceso de la rigidez cadavérica es de vital importancia ya que es una de las variables que junto con las livideces (livor mortis) y la temperatura (algor mortis) del cadáver ayudan a determinar el cronotanatodiagnóstico, tanatocronodiagnóstico o intervalo postmortal del período inmediato de la muerte. Para entender el mecanismo de la rigidez y el espasmo cadavérico es preciso hacer un repaso de la contracción muscular fisiológica en el vivo. Hay que tener presente que el tipo de fibra muscular predominante modificará las características de la contracción muscular fisiológica en el vivo, y también la rigidez y el espasmo cadavérico. (AU)

The cadaveric rigidity (rigor mortis) is a process which is not very well understood by the majority of the doctors. The knowledge of the intimacy of the cadaveric stiffness process is of vital importance since it is one of the variables that, as well as the postmortem lividity (livor mortis) and the body temperature post mortem (algor mortis) help determine the chronotanatodiagnostic, tanatochronodiagnostic or postmortal interval of the immediate period of death. In order to understand the mechanism of stiffness and cadaveric spasm, it is necessary to review the physiological muscle contraction in vivo. We should keep in mind that the predominant type of muscle fiber will modify the characteristics of physiological muscle contraction in vivo, as well as stiffness and cadaveric spasm. (AU)

Use of zebrafish ( Danio rerio ) embryos as a model to assess effects of mercury on developing skeletal muscle: a morphometric and immunohistochemical study / Uso de embriones de pez cebra ( Danio rerio ) como modelo para evaluar los efectos del mercurio en el desarrollo del músculo esquelético: un estudio morfométrico e inmunohistoquímico

Exposure to mercury in the environment continues to be a significant worldwide concern, especially for developing embryos and fetuses. While extensive research effort has focused on the effects of mercury on the developing nervous system, much less is known concerning adverse effects of mercury on other organ systems, including the development of skeletal muscle. We exposed developing zebrafish embryos to a range of concentrations of mercuric chloride (100 to 400 µg/liter or ppb) and compared them to control embryos (0 µg/L mercuric chloride). Embryos were examined at 48 hours post fertilization (hpf) for morphometry and morphological deformities of skeletal muscle fibers in the trunk and tail. Embryos exposed to 400 ppb mercuric chloride showed decreased trunk and tail areas compared to control embryos. A dose-dependent reduction in muscle fiber length was observed, and exposure to all concentrations of mercuric chloride used in this study resulted in decreased muscle fiber immunohistochemical staining with anti-myosin antibodies. Irregular muscle fiber diameters, twisted muscle fibers, and degenerated muscle fibers were observed in sections of embryos stained with eosin at the higher exposure concentrations. Evidence presented in this study suggests that exposure to even low concentrations of mercuric chloride adversely affects skeletal muscle fiber development or muscle fiber integrity, or both.

La exposición al mercurio en el medio ambiente sigue siendo una preocupación mundial importante, especialmente para el desarrollo de embriones y fetos. Si bien un amplio esfuerzo de investigación se ha centrado en los efectos del mercurio en el sistema nervioso en desarrollo, se sabe mucho menos sobre los efectos adversos en otros sistemas orgánicos, incluido el desarrollo del músculo esquelético. Expusimos embriones de pez cebra en desarrollo a un rango de concentraciones de cloruro de mercurio (100 a 400 mg / l o ppb) y los comparamos con embriones de control (0 mg / L de cloruro de mercurio). Los embriones se examinaron a las 48 horas después de la fertilización (HPF) pararealizar la morfometría y verificar las deformidades morfológicas de las fibras del músculo esquelético en el tronco y la cola. Los embriones expuestos a 400 ppb de cloruro de mercurio mostraron una disminución de las áreas del tronco y la cola en comparación con los embriones de control. Se observó una reducción dependiente de la dosis en la longitud de la fibra muscular, y la exposición a todas las concentraciones de cloruro de mercurio utilizadas en este estudio, dio como resultado una tinción inmunohistoquímica de fibra muscular disminuida con anticuerpos anti-miosina. Se observaron diámetros irregulares de fibras musculares, fibras musculares retorcidas y fibras musculares degeneradas en secciones de embriones teñidos con eosina en las concentraciones de exposición más altas. La evidencia presentada en este estudio sugiere que la exposición incluso a bajas concentraciones de cloruro mercúrico afecta negativamente el desarrollo de la fibra del músculo esquelético o la integridad de la fibra muscular, o ambas.

Morphological analysis of articularis genus and involvement in muscle synchronicity with vastus intermedius / Análisis morfológico del músculo articular de la rodilla y su participación en la sincronicidad muscular con el músculo vasto intermedio

The articularis genus, which lies under the vastus intermedius, has been regarded as part of the quadriceps femoris. However, they are well known to have different function because their respective origins and insertions are mutually distinct. These muscles are considered to work almost simultaneously when the knee is extended. The electromyogram has been used to demonstrate muscle co-contraction. However, the articularis genus is deeper than other muscles. Moreover, it is difficult to analyze it by surface electromyogram. The relative proportions of muscle fiber types and the characteristics of these fiber types are important determinants of the surface electromyogram. Furthermore, biomechanical analysis of AG has remained unclear. This study investigated the ratio of muscle fiber types in these muscles. Muscle samples from seven human cadaveric specimens were used with application of immunofluorescence double staining. Results show that in the vastus intermedius and articularis genus, the percentage of Type I fibers was significantly higher than that of Type II fibers. No significant difference was found in the mean percentages of Type I and Type II fiber types. The percentages of Type I and Type II fibers in articularis genus muscle were correlated positively to the percentage in the vastus intermedius. These results suggest that similar muscle fiber compositions of these muscles might reflect their contraction during the same active phase of knee extension, despite their different functions.

El músculo articular de la rodilla, que se encuentra cubierto por el músculo vasto intermedio, se ha considerado como parte del músculo cuádriceps femoral. Sin embargo, es sabido que tienen diferentes funciones debido a que sus respectivos orígenes e inserciones son mutuamente distintas. Se considera que estos músculos trabajan de forma casi simultánea cuando la rodilla está extendida. El electromiograma se ha usado para demostrar la contracción muscular. Sin embargo, el músculo articular de la rodillas es más profundo que otros músculos. Además, es difícil analizarlo por electromiograma de superficie. Las proporciones relativas de los tipos de fibras musculares y las características de estos tipos de fibras son importantes determinantes del electromiograma de superficie. Además, el análisis biomecánico de músculo articular de la rodilla no ha sido claro. Este estudio investigó la proporción de tipos de fibras musculares en estos músculos. Se usaron muestras musculares de siete cadáveres humanos con la aplicación de doble tinción de inmunofluorescencia. Los resultados muestran que en los músculos articular de la rodilla y vasto intermedio, el porcentaje de fibras de Tipo I fue significativamente mayor que el de las fibras de Tipo II. No se encontraron diferencias significativas en los porcentajes medios de los Tipo I y Tipo II. Los porcentajes de fibras Tipo I y Tipo II en el músculo articular de la rodilla se correlacionaron positivamente con el porcentaje en el músculo vasto intermediario. Estos resultados sugieren que las composiciones de las fibras musculares similares de estos músculos podrían reflejar su contracción durante la misma fase activa de la extensión de la rodilla, a pesar de sus diferentes funciones.

Morphometry of pectoral muscle fiber and intestinal villi of Calidris pusilla during the wintering period in Brazil / Morfometria da fibra muscular peitoral e das vilosidades intestinais de Calidris pusilla durante o período de invernada no Brasil

Migration is an event observed in several animals, such as shorebirds moving between the northern and southern hemispheres, during breeding and wintering intervals. Morphophysiological adaptations are necessary to allow the maintenance of migratory cycles and, therefore, studies with this focus can help clarify biological aspects related to migration. We analyzed the morphology variation in pectoral muscles and intestinal mucosa of Calidris pusilla, during different phases of the wintering period on the coast of Brazil. Fragments of pectoral muscles and duodenal were collected, fixed and processed for histology according to standard procedure, from specimens captured in a locality on the Brazilian coast. Modifications were found in the measured parameters among the three phases of wintering, arrival in Brazil (October, mid-period), January and departure to the Northern Hemisphere - May. The registered structural dynamism characterizes the growth of flight musculature and intestinal changes related to nutrition. Such changes occur temporarily due to the activities of preparation and migration between the northern and southern hemispheres.(AU)

A migração é um evento observado em vários animais, como as aves limícolas que se deslocam entre os hemisférios norte e sul, durante os intervalos de reprodução e invernada. Adaptações morfofisiológicas são necessárias para permitir a manutenção dos ciclos migratórios e, portanto, estudos com esse enfoque podem ajudar a esclarecer aspectos biológicos relacionados à migração. Analisamos a variação morfológica nos músculos peitorais e mucosa intestinal de Calidris pusilla, durante diferentes fases do período de invernada no litoral brasileiro. Fragmentos de músculos peitorais e duodenais foram coletados, fixados e processados ​​para histologia de acordo com o procedimento padrão, a partir de espécimes capturados na localidade da costa brasileira. O dinamismo estrutural registrado caracteriza o crescimento da musculatura de vôo e as alterações intestinais relacionadas à nutrição. As mudanças nos parâmetros medidos entre as três fases do inverno, chegada ao Brasil (outubro, meio período), janeiro e saída para o Hemisfério Norte. Tais mudanças ocorrem temporariamente devido às atividades de preparação e migração entre os hemisférios norte e sul.(AU)

Electric acupuncture intervention on the effects of disuse muscular atrophy muscle fiber types of mice / 中国康复医学杂志

Objective:To study the frequency of electrical stimulation affect the atrophy recovery of mouse soleus muscle.Method:Sixty mice,30 of them were randomly divided into blank control group (Con) and atrophy model group (Atro) and validated this model after 1 week.The other 30 mice were randomly divided into three groups:the natural recovery group (Rec),the exercise intervention group (Exer),the electroacupuncture intervention group (Elec) after making them atrophy.Atrophy model group were plaster fixed one week.Natural recovery group was natural fed two weeks after removing the plaster.Exercise intervention group runs 1 hour at 16m/min speed two weeks.EA intervention group were stimulated 15min daily for 2 weeks on hind limb,with pulse duration 0.35ms,frequency 50Hz,for 2 weeks.Frozen sections and Immunofluorescence were used to measure the cross-sectional area of muscle fibers.ATPase staining was used to detect the muscle fiber type changing,and Western Blot to detect soleus muscle Troponin I-SS (TNNI1) and Troponin I-FS (TNNI2) protein expression.Result:The soleus muscle in Atro group showed significant change in cross-sectional area and wet weight compared with Con group(P＜0.01),The expression of TNNI1 and TNNI2 protein was also significantly different from that of Con group (P＜0.05).Compared with the Rec group,the cross-sectional area of slow muscle and fast muscle in the Exer and Elec groups significantly increased (P＜0.05),TNNI1 protein expression significant ly increased (P＜0.01),TNNI2 protein was no significant difference detected(P＞0.05).Conclusion:The middle low frequency electroacupuncture intervention can effectively increase the cross-sectional area of muscle fibers,in particular,increase the TNNI1 and TNNI2 protein expression of slow muscle fibers.It is as effective as exercise intervention to promote recovery of disuse muscular atrophy.

Efeito do treinamento resistido sobre a sensibilidade à insulina, músculo esquelético e tecido ósseo em ratos pinealectomizados / Effect of resistance training on sensitivity to insulin, skeletal muscle and bone tissue in pinealectomized rats

Produzida pela glândula pineal exclusivamente em período noturno e na escuridão, a melatonina apresenta papel fundamental na sincronização dos ritmos circadianos com o ciclo claro-escuro do meio ambiente. A exposição à luz suprime a síntese e secreção de melatonina pela glândula pineal, podendo prejudicar a ação insulínica em células do músculo esquelético. O transporte ineficiente de glicose no músculo esquelético pode promover atrofia, geralmente acompanhada por perda de massa óssea. Resistência à insulina, atrofia muscular esquelética e perda de massa óssea são efeitos patológicos que podem ser prevenidos ou atenuados pela prática regular de exercícios físicos. O objetivo do presente estudo foi avaliar o efeito do exercício resistido (ER) sobre a sensibilidade à insulina e manutenção da musculatura esquelética e tecido ósseo em ratos pinealectomizados. 40 ratos Wistar machos foram distribuídos, aleatória e igualmente, em 4 grupos: 1) controle (CNS); 2) exercitado (CNEX); 3) pinealectomizado (PNX) e 4) pinealectomizado exercitado (PNXEX). O ER foi realizado em escada, durante 8 semanas, 3 sessões semanais (em dias não consecutivos), 9 repetições por sessão e intervalo de tempo de 2 minutos entre as repetições. O teste de força máxima foi realizado a cada 2 semanas e a intensidade selecionada foi 60% de 1 repetição máxima (1RM). Após o período de treinamento, os animais foram submetidos ao teste de tolerância à insulina. Após o sacrifício, amostras de sangue foram coletadas para fosforilação da glicemia e insulinemia. A partir destes valores, a resistência à insulina foi calculada pelo índice HOMA-IR. O cálculo da área de secção transversa do extensor digitorum longus (EDL) foi realizado a partir da análise histológica, utilizando o software IMAGEJ. Também foram avaliadas a expressão gênica e fosforilação de proteínas presentes nas vias de manutenção do músculo esquelético: GLUT4, TNF-α, atrogin-1, MuRF1, IGF-1, Akt1, miostatina e SMAD2/3. O cálculo da área do trabeculado ósseo esponjoso inferiormente à linha epifisial da tíbia foi realizado a partir da análise histológica em cortes longitudinais, utilizando o software IMAGEJ. Os parâmetros morfológicos do tecido ósseo foram avaliados por micro-CT; a análise mineral óssea foi avaliada pelo Dual-energy X-ray absorptiometry ­ DEXA e análise mecânica foi avaliada pelo teste de três pontos. As análises estatísticas foram realizadas por análise de variância com 2 fatores - ANOVA two way, seguida pelo teste de Bonferroni, ao nível de significância de 5%. A pinealectomia promoveu resistência à insulina e aumento na expressão de TNF-α em animais PNX. A prática de exercícios resistidos atuou na prevenção da resistência à insulina pelo aumento na expressão de GLUT4 em animais PNXEX. A pinealectomia também promoveu atrofia muscular esquelética nos grupos PNX e PNXEX. A prática de exercícios resistidos, realizada pelo período de tempo, frequência e intensidade selecionados, não foi suficiente para promover hipertrofia muscular no grupo CNEX ou prevenir a atrofia muscular no grupo PNXEX. Os grupos PNX e PNXEX apresentaram aumento da expressão gênica de miostatina e fosforilação proteica de SMAD2/3 em relação aos grupos CNS e CNEX. Não houve diferença na expressão gênica e fosforilação das demais proteínas analisadas entre os grupos estudados. Os resultados sugerem que a atrofia muscular esquelética, observada nos grupos PNX e PNXEX, está relacionada ao aumento na ativação da via da miostatina e, quem sabe, ao aumento de TNF-α em músculo esquelético. O aumento da DMO em animais PNX foi tomado como um mecanismo protetivo do osso. O exercício resistido promoveu melhora da qualidade óssea em animais pinealectomizados ou não. O presente estudo demonstrou que a prática regular de exercícios resistidos (60% de 1 RM) preveniu a resistência à insulina em animais pinealectomizados e melhorou a qualidade óssea em animais com e sem pineal. A partir desses resultados podemos aventar que o exercício físico, em trabalhadores noturnos, pode melhorar a sensibilidade à insulina e auxiliar na manutenção do tecido ósseo(AU)

Produced by the pineal gland exclusively at night time and in darkness, melatonin plays a key role in synchronizing circadian rhythms with the light dark cycle of the environment. Exposure to light suppresses the synthesis and secretion of melatonin by the pineal gland, and may impair insulin action in skeletal muscle cells. The inefficient transport of glucose in skeletal muscle can promote atrophy, usually accompanied by loss of bone mass. Insulin resistance, skeletal muscle atrophy and loss of bone mass are pathological effects that can be prevented or attenuated by regular physical exercise. The objective of the present study was to evaluate the effect of resistance exercise on insulin sensitivity and maintenance of skeletal muscle and bone tissue in pinealectomized rats. For this, 40 male Wistar rats were randomly and equally distributed in 4 groups: 1) control (CNS); 2) exercised (CNEX); 3) pinealectomized (PNX) and 4) pinealectomized exercised (PNXEX). Resistance training was performed on a ladder for 8 weeks, 3 weekly sessions (on non-consecutive days), 9 repetitions per session and 2 minutes interval between repetitions. The maximal strength test was performed every 2 weeks and the intensity selected was 60% of 1 maximal repetition (1RM). After the training period, the animals were submitted to the insulin tolerance test. After sacrifice, blood samples were collected for quantification of plasma glucose and insulin. From these values, insulin resistance was calculated by the HOMA-IR index. The calculation of the cross-sectional area of the extensor digitorum longus (EDL) was performed from the histological analysis using IMAGEJ software. Gene expression and phosphorylation of proteins present in skeletal muscle maintenance pathways were also evaluated: GLUT4, TNF-α, atrogin-1, MuRF1, IGF-1, Akt1, myostatin and SMAD2/3. The area of the spongy bone trabeculae inferior to the epiphyseal line of the tibia was calculated from the histological analysis in longitudinal sections using the IMAGEJ software. The morphological parameters of the bone tissue were evaluated by micro-CT; bone mineral analysis was assessed by Dual-energy X-ray absorptiometry - DEXA and mechanical analysis was assessed by the three-point test. Statistical analyzes were performed by analysis of variance with 2 factors - ANOVA two way, followed by the Bonferroni test, at a significance level of 5%. Pinealectomy promoted insulin resistance and increased TNF-α expression in PNX animals. The practice of resistance exercises was performed in the prevention of insulin resistance by the increase in GLUT4 expression in PNXEX animals. Pinealectomy also promoted skeletal muscle atrophy in the PNX and PNXEX groups. The practice of resistance exercises, performed for the selected period of time, frequency and intensity, was not enough to promote muscle hypertrophy in the CNEX group or to prevent muscle atrophy in the PNXEX group. The PNX and PNXEX groups showed increased myostatin gene expression and protein content of SMAD2/3 in relation to the CNS and CNEX groups. There was no difference in the gene expression and prosphorilation of the other proteins analyzed between the studied groups. The results suggest that skeletal muscle atrophy, observed in the PNX and PNXEX groups, is related to the increased activation of the myostatin pathway, and, perhaps, to the increase of TNF-α in skeletal muscle. The increase in BMD in PNX animals was taken as a protective mechanism of bone. Resistance exercise promoted improvement of bone quality in pinealectomized animals or not. The present study demonstrated that the regular practice of resistance exercises (60% of 1 RM) prevented insulin resistance in pinealectomized animals and improved bone quality in animals with and without pineal. From these results we can point out that physical exercise, in night workers, can improve insulin sensitivity and aid in the maintenance of bone tissue(AU)

Morphological classification and comparison of suboccipital muscle fiber characteristics / 대한해부학회지

In an attempt to clarify the function of the suboccipital muscles, we performed morphological observation of the suboccipital muscles for variations in the muscle belly and compared the morphology of their muscle fibers in terms of cross-sectional area by immunostaining with anti-myosin heavy chain antibodies. The cadavers of 25 Japanese individuals were used: 22 for morphological examinations and three for histological examinations. Among samples of the rectus capitis posterior major muscle (RCPma) and rectus capitis posterior minor muscle (RCPmi), 86.4% had a typical muscle appearance with a single belly, and 13.6% had an anomalous morphology. None of the samples of the obliquus capitis superior (OCS) or obliquus capitis inferior (OCI) muscles had an anomalous appearance. Measurement of cross-sectional area revealed that fast-twitch muscle fibers in the RCPma and OCI had a significantly greater cross-sectional area than those of the RCPmi and OCS. The cross-sectional area of intermediate muscle fibers was also significantly greater in the OCS than in the RCPma, RCPmi, and OCI. The cross-sectional area of slow-twitch muscle fibers was significantly greater in the OCS than in the RCPma, RCPmi, and OCI, and the RCPmi showed a significantly greater cross-sectional area for slow-twitch muscle fibers than did the RCPma, and OCI. Our findings indicate that the RCPmi and OCS exert a greater force than the RCPma and OCI, and act as anti-gravity agonist muscles of the head. Prolonged head extension in individuals with anomalous suboccipital muscle groups could result in dysfunction due to undue stress.

Effects of electroacupuncture at "Weizhong" (BL 40) on morphology and expression of CK and IL-17 in rats with bupivacaine-induced multifidus muscle injury / 中国针灸

<p><b>OBJECTIVE</b>To observe effects of electroacupuncture (EA) at "Weizhong" (BL 40) on morphology and expression of creatine kinase (CK) and interleukin-17 (IL-17) in rats with bupivacaine-induced multifidus muscle injury.</p><p><b>METHODS</b>A total of 32 male SD rats were randomly divided into a control group, a model group, a Weizhong group and a Shenshu group, 8 rats in each one. The rats in the model group, Weizhong group and Shenshu group were treated with intramuscular injection of 0.5% bupivacaine to establish the model of multifidus muscle injury; the rats in the control group were injected with 0.9% sodium chloride solution. The rats in the Weizhong group and Shenshu group were treated with EA (2 Hz/10 Hz in frequency, 1~2 mA in intensity) at "Weizhong" (BL 40) and "Shenshu" (BL 23), 20 min per treatment. No treatment was given in the control group and model group. After 14-day treatment of EA, the inflammatory cell count, scar tissues area and muscle fiber cross sectional area of multifidus muscle were observed with HE and Masson staining method. The activity of CK and serum content of IL-17 were test with enzyme-linked immunosorbent assay (ELISA) method; the expression of IL-17 in multifidus muscle was measured with immunohistochcmical method.</p><p><b>RESULTS</b>After intervention, the inflammatory cell count and scar tissues area in the model group, Weizhong group and Shenshu group were higher than those in the control group (all<0.01), but the muscle fiber cross sectional area was significantly reduced (all<0.01); the inflammatory cell count and scar tissues area in the Weizhong group and Shenshu group were lower than those in the model group (all<0.01), and the muscle fiber cross sectional area was significantly increased (<0.01,<0.05). After intervention, the expression of IL-17 in multifidus muscle, serum content of IL-7 and activity of CK in the model group, Weizhong group and Shenshu group were higher than those in the control group (all<0.01); the expression of IL-17 in multifidus muscle, serum content of IL-7 and activity of CK in the Weizhong group and Shenshu group were lower than those in the model group (<0.01,<0.05); compared with the Shenshu group, the down-regulation of IL-17 was more obvisous in the Weizhong group (<0.01).</p><p><b>CONCLUSION</b>EA at "Weizhong" (BL 40) can down-regulate the overexpression of serum CK and IL-17, alleviate inflammation reaction and improve the repair of multifidus muscle.</p>

Multicenter clinical study on Yaotongning Capsule in treatment of lumbar muscle fiber inflammation / 中草药

Objective: To observe the clinical efficacy and safety of Yaotongning Capsule in acute lumbar muscle fiber inflammation (cold damp stagnation syndrome). Methods: A randomized, double-blind, placebo controlled multicenter and clinical trial was performed. The 144 patients were randomly divided into two groups, 72 cases in the treatment group treated with Yaotongning Capsule and 72 cases in the control group treated with placebo, 14 d as a course of treatment. Results: After one course of treatment, there was significant difference in the curative rate between treatment group and control group. According to FAS analysis, the ratio of control/effective cases and total cases (effective rate) in the treatment group was higher than that in the control group (P < 0.001). According to PPS analysis, the effective rate of the treatment group was obviously higher than that of the control group (P < 0.001). The pain relief of FAS and PPS in the treatment group also surpasses that in the control group (P < 0.001). And the differences both had statistical significance. Among 144 patients, the adverse events were found in three cases with the incidence of 2.10%. All of the adverse events were found in the control group and there were no remarkable adverse event and side effect in the treatment group. The incidence rate of adverse event in the treatment group was similar to that in the control group (P = 0.245). Conclusion: Yaotongning Capsule for lumbar muscle fiber inflammation has reliable efficacy, safety, and less incident of adverse effects.

The Preventive Effects of 8 Weeks of Resistance Training on Glucose Tolerance and Muscle Fiber Type Composition in Zucker Rats

BACKGROUND: We investigated the therapeutic effects of resistance training on Zucker rats before and after the onset of diabetes to understand the importance of the timing of exercise intervention. We assessed whether 8 weeks of resistance training ameliorated impaired glucose tolerance and altered muscle fiber type composition in Zucker rats. METHODS: Five-week-old male Zucker rats were divided into Zucker lean control (ZLC-Con), non-exercised Zucker diabetic fatty (ZDF-Con), and exercised Zucker diabetic fatty (ZDF-Ex) groups. The ZDF-Ex rats climbed a ladder three times a week for 8 weeks. Intraperitoneal glucose tolerance tests (IPGTT) were performed on the 1st and 8th weeks of training, and grip strength was measured during the last week. We also measured glucose transporter 4 (GLUT4) expression by Western blot and immunofluorescence. Moreover, immunohistochemistry was performed to assess muscle fiber type composition. RESULTS: Fasting glucose levels and area under the curve responses to IPGTTs gradually increased as diabetes progressed in the ZDF-Con rats but decreased in the ZDF-Ex rats. Grip strength decreased in the ZDF-Con rats. However, resistance training did not improve grip strength in the ZDF-Ex rats. GLUT4 expression in the ZLC-Con and the ZDF-Con rats did not differ, but it increased in the ZDF-Ex rats. The proportions of myosin heavy chain I and II were lower and higher, respectively, in the ZDF-Con rats compared to the ZLC-Con rats. Muscle fiber type composition did not change in the ZDF-Ex rats. CONCLUSION: Our results suggest that regular resistance training initiated at the onset of diabetes can improve glucose tolerance and GLUT4 expression without changing muscle morphology in Zucker rats.

Review on the effects of TCM on chronic exertional compartment syndrome, and signaling pathways of CaN-NFAT or PPAR/PGC-1 in muscle fiber type conversion / 国际中医中药杂志

The anti-fatigue ability decline is one of the most important clinical symptoms of chronic exertional compartment syndrome (CECS). The percentage change of type-I and II skeletal-muscle fiber is an important reason for anti-fatigue ability decline after intracompartmental pressure increase. There is a close relationship between CaN-NFAT or PPAR/PGC-1 signaling pathways and muscle fiber type conversion. Studies have confirmed that Traditional Chinese medicine can protect the body tissue by activing CaN-NFAT or inhibiting PPAR/PGC-1 signaling pathways. Therefore, we wrote the review in order to better analyze the research progress in this field.

Ultrastructural study of the denervated diaphragm in rats / Estudio ultraestructural del diafragma desnervado en ratas

The structural alterations that occur in the muscle fibers of denervated rat diaphragms were studied. Fifteen adult male albino rats (Rattus norvegicus) with a mean weight of 200 g and about 60 days of age were used. Chronically denervated diaphragms were obtained and the animals were sacrificed after 4, 8 and 12 weeks of denervation. The left antimere of the diaphragm was denervated by sectioning of the phrenic nerve and the right antimere served as control. Each antimere was divided into fragments, which were used for analysis transmission electron microscopy. During the initial phase of denervation (4 weeks), ultrastructural muscle modifications appeared in scattered fibers and in foci along these fibers. Muscle fibers with foci of less dense and loosely arranged myofibrils, disorganized Z line, displaced T tubules, and central nucleus exhibiting reentrances and fragmented aspect were observed. After 8 weeks, formation of large aggregates of small elongated mitochondria showing altered cristae, matrix inclusions and increased electron density was noted. At 12 weeks of denervation the alterations were found to be more drastic. Nuclei with internal deposits of myofibrillar or amorphous material were observed. In these fibers, vacuoles harbored enormous myeloid structures in the subsarcolemmal or intermyofibrillar region.

Fueron estudiadas las alteraciones ultra estructurales de las fibras musculares del diafragma denervado de ratas. Fueron utilizadas 15 ratas albinas (Rattus norvegicus), machos, adultas, con peso promedio de 200 g de aproximadamente 60 días de edad. Los diafragmas crónicamente denervados fueron obtenidos después de 4, 8 y 12 semanas de denervación. El antímero izquierdo del diafragma fue denervado por sección del nervio frénico y el antímero derecho fue utilizado como control. Cada antímero fue dividido en fragmentos, que fueron utilizados para el estudio en microscopia electrónica de transmisión. Durante los períodos iniciales de denervación (4 semanas), las modificaciones en la ultraestructura del músculo se disponen en fibras dispersas y en focos a lo largo de las mismas. Se observan fibras musculares con focos de miofibrillas rarefactas y laxamente dispuestas; línea Z desorganizada; túbulos T dislocados; núcleo central con aspecto fragmentado. Después de 8 semanas de denervación, se observa la formación de numeroso agregados de pequeñas mitocondrias alargadas, con alteraciones en las crestas, inclusiones en la matriz y aumento de la electrodensidad. Con 12 semanas de denervación, las alteraciones se muestran más drásticas; se observan núcleos con depósitos internos de material miofibrillar o amorfo. En estas fibras, las vacuolas presentan grandes estructuras mieloides en la región subsarcolemal o intermiofibrillar.

Muscle fiber type composition, fiber diameter, capillary density in temporalis and masseter muscles and correlation with bite force / Tipos de fibras musculares, diámetro de fibras y densidad capilar en los músculos masetero y temporal y su correlación con la fuerza de mordida

The jaw muscles are essential components in the stomatognatic system. Their complex architecture allows them to execute several motor tasks. One of the structural peculiarities is the presence of hybrid and neonatal fibers.We studied the differences of the fiber-type in masseter and temporalis muscles along the first to nineth decades in both genders. Seventy-four (74) samples were analyzed by immunohistochemistry. Slow and fast muscle fibers distribution was similar in both muscles in both genders. Hybrid fiber was observed in all decades, and its frequency decreased significantly (p<0.001) with aging in masseter. Neonatal myosin expression was observed in all decades, its expression was more frequent in masseter (p=0.01), and males in temporalis (p=0.025). Decrease of the cross sectional area of fast and slow fibers, and decrease of capillary density were detected with aging. These morpho-immunohistochemical alterations on masseter and temporalis muscles correlated to the decrease in bite force with aging.

Los músculos cráneomandibulares son componentes esenciales en el sistema estomatognático. Su arquitectura compleja les permite ejecutar variadas tareas motoras. Una de sus características estructurales es la presencia de fibras musculares híbridas y neonatales. Se estudiaron las diferencias del tipo de fibra en los músculos masetero y temporal en la primera a novena décadas dela vida en ambos sexos. Setenta y cuatro (74) muestras se analizaron por inmunohistoquímica. La distribución de lãs fibras musculares lentas y rápidas fue similar en ambos músculos en ambos sexos. Fibras musculares híbridas fueron observadas en todas las décadas, pero su frecuencia disminuyó significativamente (p <0,001) con el envejecimiento en el masétero. La expresión de miosina neonatal se observo em todas los grupos analizados, aunque su expresión era más frecuente en los músculos maseteros (p = 0,01) y en varones en el temporal (p = 0,025). Se observo una disminución del área de la sección transversal de las fibras rápidas y lentas, y disminución de la densidad capilar al aumentar La edad. Estas alteraciones morfológicas en los músculos masetero y temporal se correlacionan con la disminución de la fuerza asociada al envejecimiento.

Regime alimentar para ganho compensatório de ovinos em confinamento: composição regional e tecidual da carcaça / Diet for compensatory gain of feedlot lambs: commercial composition of carcass cuts and tissues

Determinou-se o efeito do regime alimentar para ganho compensatório sobre a composição regional e tecidual da carcaça de cordeiros terminados em confinamento. Foram utilizados 40 ovinos Santa Inês, machos, com média de 17±1,7kg de peso vivo (PV) e 100 dias de idade. Ao final do período de confinamento, os cordeiros foram abatidos, e a meia carcaça esquerda foi seccionada em cinco cortes comerciais primários: pescoço, paleta, costilhar, lombo e perna. A perna foi dissecada em músculos, ossos e gorduras, e, em seguida, teve seu índice de musculosidade determinado. Foi mensurada a hipertrofia muscular por meio da média do diâmetro das fibras musculares. O peso (g) da meia carcaça esquerda, do pescoço, da paleta, do costilhar, do lombo e da perna diminuiu linearmente, à medida que aumentou o nível de restrição prévia, de 0% até 60%, variando, respectivamente, de 11497,4 a 8888,5; de 1453,8 a 1211,4; de 1955,4 a 1560,9; de 3420,0 a 2604,6; de 1669,4 a 1161,6 e de 2998,8 a 2350,0. No rendimento dos cortes, apenas o lombo sofreu efeito do regime alimentar, diminuindo de 14,5 para 13,1%. O índice de musculosidade da perna (0,42 a 0,39) e o diâmetro das fibras musculares (46,0 a 43,4µm) também diminuíram com o aumento da restrição prévia. A restrição alimentar seguida por realimentação diminui o peso dos cortes e não afeta seu rendimento; diminui também a proporção de gordura da carcaça, produzindo, assim, cortes mais leves e carne com menor teor de gordura.

The effect of diets for compensatory gain on the commercial cut yield and carcasses tissue composition of finished feedlot lambs was determined. A total of 40 Santa Inês lambs, with mean body weight (BW) of 17±1.7kg and 100 days old were used. The lambs were slaughtered; the left half carcass was sectioned into five primary commercial cuts: neck, shoulder, rib, loin and leg. The leg was dissected into muscle, bone and fat, and then the muscularity of the leg was determined. Muscle hypertrophy was measured by the mean diameter of muscle fibers. The left half carcass, neck, shoulder, rib, loin and leg weight decreased linearly between 0 and 60% of previous food restriction levels, ranging, respectively, from 11497.4 to 8888.5g; from 1453.8 to 1211.4g; from 1955.4 to 1560.9g; from 3420.0 to 2604.6g; from 1669.4 to 1161.6g and from 2998.8 to 2350.0g, as well as loin yield (from 14.5 to 13.1%), leg musculosity index (from 0.42 to 0,39) and muscle fiber diameter (from 46.0 to 43.4µm). Food restriction followed by refeeding promoted decreasing in the weight of cuts and did not affect the yield, and it also decreased the proportion of fat in the carcass, resulting in lighter cuts and leaner meat.

Resistance training and protein supplement：Improvement of elderly muscle protein metabolism / 中国组织工程研究

10.3969/j.issn.2095-4344.2013.24.025

The Neuromuscular Junction and Botulinum Toxin Type A / The Japanese Journal of Rehabilitation Medicine

Injecting botulinum toxin type A (BTX-A) into spastic muscles is a recent alternative for treating conditions such as stroke, spinal cord injury, and cerebral palsy. BTX-A injection blocks acetylcholine release at the neuromuscular junction (NMJ) in the muscles. Therefore, BTX-A must be injected near the NMJ. In this paper, the anatomical, histochemical, and electrophysiological studies to determine the location of NMJs in the extremities are reviewed. Further, methylene blue vital staining as a method to identify the intramuscular nerve fibers and NMJs in the muscle and propose a so-called “mid portion of muscle fibers” along with the NMJ map of the upper and lower limbs are discussed.

The Effect of Transcutaneous Carbon Dioxide (CO₂) Application after Endurance Exercise in Rats / The Japanese Journal of Rehabilitation Medicine

Objective : In Europe, carbon dioxide therapy has been used for treating cardiac disease and skin problems for a long time. Previously, we demonstrated that transcutaneous carbon dioxide (CO₂) application facilitated dioxygen (O₂) dissociation from hemoglobin (Hb) in the human body. Additionally, we proved that transcutaneous CO₂ application to the lower limbs of rats increased the expression of peroxisome proliferator-activated receptor (PPAR) gamma coactivator-1α (PGC-1α), vascular endothelial growth factor (VEGF) and silent mating type information regulation 2 homologs 1 (SIRT1). It also increased the number of mitochondria, and changed IIB fiber to IIA fiber in similar manner to the change that occurs after exercise. The transcutaneous CO₂ application caused a similar effect to that of exercise training in skeletal muscle and indicated the possibility of improved endurance strength. However, the effect of transcutaneous CO₂ application on endurance exercise and the recovery of muscle fatigue has not been studied. Methods : In this study, we investigated the performance of endurance exercise in rats with/without transcutaneous CO₂ application and analyzed the muscle fiber changes, capillary density and mitochondrial DNA number of the skeletal muscles after training, using activity wheels. Results： Training with CO₂ application resulted in a higher percentage of TA muscle transformed to IIA and/or IID than training alone, suggesting that transcutaneous CO₂ application may increase the production of ATP, mitochondria number, and capillary density. Therefore, transcutaneous CO₂ application might lead to muscle damage recovery. Conclusion : We suggest that transcutaneous CO₂ application has a therapeutic potential for recovery of damaged muscle after excessive exercise and rehabilitation.

Morphologic alterations resulting from denervation of the diaphragm in rats / Alteraciones morfológicas resultantes de la denervación del diafragma en ratas

The morphological alterations that occur in the muscle fibers of denervated rat diaphragms were studied. Fifteen adult male albino rats (Rattus norvegicus) with a mean weight of 200 g and about 60 days of age were used. Chronically denervated diaphragms were obtained and the animals were sacrificed after 4, 8 and 12 weeks of denervation. The left antimere of the diaphragm was denervated by sectioning of the phrenic nerve and the right antimere served as control. Each antimere was divided into two fragments, which were used for histological (H.E.) and histoenzymological (NADH-TR and myofibrillar ATPase). After 4 weeks, denervated muscle fibers showed important light microscopic alterations: atrophy with angular profiles in cross-sections, cytoplasm containing vacuoles, enlarged interstitial space with increased connective tissue, cellular infiltration, and muscle fibers without defined contours. The most marked alterations being observed for type IIb and IIa fibers. Eight and 12 weeks after denervation, the NADH-TR reaction showed that it was impossible to characterize the muscle fibers based on their metabolic profile...

Fueron estudiadas las alteraciones morfológicas de las fibras musculares del diafragma denervado de ratas. Se utilizaron 15 ratas albinas (Rattus norvegicus) machos, adultos, con peso promedio de 200g y cerca de 60 días de edad. Se denervó el diafragma y después de 4, 8 y 12 semanas los animales fueron sacrificados. El antímero izquierdo del diafragma fue denervado por sección del nervio frénico y el antímero derecho fue utilizado como control. Cada antímero fue dividido en fragmentos, utilizados para el estudio histológico (H-E), histoenzimológico (NADH-TR y ATPasa miofibrilar). Después de 4 semanas las fibras musculares denervadas presentaron alteraciones importantes en lamicroscopía de luz: atrofia con perfiles angulados en secciones transversales; citoplasma con vacuolas; aumento del espacio intersticial con aumento de tejido conjuntivo; infiltración celular y fibras musculares sin contornos definidos, siendo las alteraciones más marcadas en las fibras tipo IIb e IIa. Después de 8 y 12 semanas de denervación la reacción para NADH-TR demuestra que es imposible caracterizar a las fibras musculares a través de su perfil metabólico...