Comparison of sarcomere alterations after muscle contraction and tension loading in the rat soleus muscle

Muscle contraction induced by 30 min of continuous nerve stimulation at 50 Hz resulted in sarcomere changes of the soleus muscle in the rat in our previous study. To further investigate the cause of sarcomere alterations, the sciatic nerve was electrically stimulated intermittently for 30 min. Nerve...

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Veröffentlicht in:	Anatomical Science International 2002-09, Vol.77 (3), p.169-174
Hauptverfasser:	Matsuura, Natsue, Kawamata, Seiichi, Ozawa, Junya, Kai, Satoru, Sakakima, Harutoshi, Abiko, Sachiko
Format:	Artikel
Sprache:	eng
Schlagworte:	Actin Cytoskeleton - physiology Actin Cytoskeleton - ultrastructure Animals Blood flow Cell Size - physiology Electric Stimulation Electron microscopy Female Ions lesion Microscopy, Electron Mitochondria, Muscle - physiology Mitochondria, Muscle - ultrastructure Muscle contraction Muscle Contraction - physiology Muscle Fibers, Skeletal - physiology Muscle Fibers, Skeletal - ultrastructure Muscle, Skeletal - physiology Muscle, Skeletal - ultrastructure nerve stimulation Rats Rats, Wistar Sarcomeres Sarcomeres - physiology Sarcomeres - ultrastructure Sciatic nerve skeletal muscle Soleus muscle Tendons Tensile Strength - physiology tension Weight-Bearing - physiology
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description	Muscle contraction induced by 30 min of continuous nerve stimulation at 50 Hz resulted in sarcomere changes of the soleus muscle in the rat in our previous study. To further investigate the cause of sarcomere alterations, the sciatic nerve was electrically stimulated intermittently for 30 min. Nerve stimulation was also conducted after cutting the tendons of the soleus, gastrocnemius and plantaris muscles in order to prevent imposing tension on these muscles as a result to their own contractions. In addition, the muscles were pulled by weights via their tendons to load high tension for 30 min without nerve stimulation. Sarcomere alterations immediately after treatments were quantified by electron microscopy. The percentages of aberrant sarcomere areas of the soleus muscle were 25.7 ± 16.4% (mean ± SD) in the group of intermittent nerve stimulation with intact tendons and 21.1 ± 35.4% in the group of tenotomy and continuous nerve stimulation, which were roughly equal to or more severe than the group of continuous nerve stimulation with intact tendons (18.8 ± 15.8%) in our previous study. Sarcomere alterations consisted mainly of hypercontraction in these groups. Almost all sarcomere changes in the tension‐loaded (pulled) soleus muscles were scarce myofilaments (1.7 ± 1.0% by 600 g; 4.5 ± 2.9% by 1200 g), and hypercontraction was not observed. These findings indicate that neither high tension nor a decrease of muscle blood flow during continuous contraction seems to be the primary cause of sarcomere alterations in the present study. There are probably other causes that produce aberrant sarcomeres.
doi_str_mv	10.1046/j.0022-7722.2002.00022.x
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To further investigate the cause of sarcomere alterations, the sciatic nerve was electrically stimulated intermittently for 30 min. Nerve stimulation was also conducted after cutting the tendons of the soleus, gastrocnemius and plantaris muscles in order to prevent imposing tension on these muscles as a result to their own contractions. In addition, the muscles were pulled by weights via their tendons to load high tension for 30 min without nerve stimulation. Sarcomere alterations immediately after treatments were quantified by electron microscopy. The percentages of aberrant sarcomere areas of the soleus muscle were 25.7 ± 16.4% (mean ± SD) in the group of intermittent nerve stimulation with intact tendons and 21.1 ± 35.4% in the group of tenotomy and continuous nerve stimulation, which were roughly equal to or more severe than the group of continuous nerve stimulation with intact tendons (18.8 ± 15.8%) in our previous study. Sarcomere alterations consisted mainly of hypercontraction in these groups. Almost all sarcomere changes in the tension‐loaded (pulled) soleus muscles were scarce myofilaments (1.7 ± 1.0% by 600 g; 4.5 ± 2.9% by 1200 g), and hypercontraction was not observed. These findings indicate that neither high tension nor a decrease of muscle blood flow during continuous contraction seems to be the primary cause of sarcomere alterations in the present study. 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To further investigate the cause of sarcomere alterations, the sciatic nerve was electrically stimulated intermittently for 30 min. Nerve stimulation was also conducted after cutting the tendons of the soleus, gastrocnemius and plantaris muscles in order to prevent imposing tension on these muscles as a result to their own contractions. In addition, the muscles were pulled by weights via their tendons to load high tension for 30 min without nerve stimulation. Sarcomere alterations immediately after treatments were quantified by electron microscopy. The percentages of aberrant sarcomere areas of the soleus muscle were 25.7 ± 16.4% (mean ± SD) in the group of intermittent nerve stimulation with intact tendons and 21.1 ± 35.4% in the group of tenotomy and continuous nerve stimulation, which were roughly equal to or more severe than the group of continuous nerve stimulation with intact tendons (18.8 ± 15.8%) in our previous study. Sarcomere alterations consisted mainly of hypercontraction in these groups. Almost all sarcomere changes in the tension‐loaded (pulled) soleus muscles were scarce myofilaments (1.7 ± 1.0% by 600 g; 4.5 ± 2.9% by 1200 g), and hypercontraction was not observed. These findings indicate that neither high tension nor a decrease of muscle blood flow during continuous contraction seems to be the primary cause of sarcomere alterations in the present study. There are probably other causes that produce aberrant sarcomeres.</description><subject>Actin Cytoskeleton - physiology</subject><subject>Actin Cytoskeleton - ultrastructure</subject><subject>Animals</subject><subject>Blood flow</subject><subject>Cell Size - physiology</subject><subject>Electric Stimulation</subject><subject>Electron microscopy</subject><subject>Female</subject><subject>Ions</subject><subject>lesion</subject><subject>Microscopy, Electron</subject><subject>Mitochondria, Muscle - physiology</subject><subject>Mitochondria, Muscle - ultrastructure</subject><subject>Muscle contraction</subject><subject>Muscle Contraction - physiology</subject><subject>Muscle Fibers, Skeletal - physiology</subject><subject>Muscle Fibers, Skeletal - ultrastructure</subject><subject>Muscle, Skeletal - physiology</subject><subject>Muscle, Skeletal - ultrastructure</subject><subject>nerve stimulation</subject><subject>Rats</subject><subject>Rats, Wistar</subject><subject>Sarcomeres</subject><subject>Sarcomeres - physiology</subject><subject>Sarcomeres - ultrastructure</subject><subject>Sciatic nerve</subject><subject>skeletal muscle</subject><subject>Soleus muscle</subject><subject>Tendons</subject><subject>Tensile Strength - physiology</subject><subject>tension</subject><subject>Weight-Bearing - physiology</subject><issn>1447-6959</issn><issn>0022-7722</issn><issn>1447-073X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2002</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNkU9r3DAQxUVJadK0XyEIArl5qz-2ZB1yCEvaBkJ7aA69iVl51HixpY1k0-TbV-4aCjn1NG-Y3xuJeYRQzjac1erTfsOYEJXWQmxEkaUt_eb5DTnjda0rpuXPk1Ur05hT8j7nPWPcNFy-I6dc1ELUzJyRfhvHA6Q-x0CjpxmSiyMmpDBMmGDqY8gUfNF0nLMbkLoYpgRumVAIHZ0w5EUPEbo-_KJ9oNMj0uKlOQ4459X4gbz1MGT8uNZz8vD59mH7tbr__uVue3NfOWlaUQHX2mnegTTdDpQRTkgwDKXhZsdVI5hnXnlpPCiU0HoFrUHT1qDAYyPPydVx7SHFpxnzZMc-OxwGCBjnbLVQquGtKeDlK3Af5xTK16zQrRa1NlIWqj1SLsWcE3p7SP0I6cVyZpcs7N4ut7dLFnbJwv7Nwj4X68X6wLwbsftnXI9fgOsj8Lsf8OW_F9ubH3ffipJ_AIEwmQg</recordid><startdate>200209</startdate><enddate>200209</enddate><creator>Matsuura, Natsue</creator><creator>Kawamata, Seiichi</creator><creator>Ozawa, Junya</creator><creator>Kai, Satoru</creator><creator>Sakakima, Harutoshi</creator><creator>Abiko, Sachiko</creator><general>Blackwell Science Pty</general><general>Springer Nature B.V</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>K9.</scope><scope>7X8</scope></search><sort><creationdate>200209</creationdate><title>Comparison of sarcomere alterations after muscle contraction and tension loading in the rat soleus muscle</title><author>Matsuura, Natsue ; Kawamata, Seiichi ; Ozawa, Junya ; Kai, Satoru ; Sakakima, Harutoshi ; Abiko, Sachiko</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3982-a177c71da39dba692c23a90e3919b16520f0f6f39fa6e3a8f6a89e984a6afe53</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2002</creationdate><topic>Actin Cytoskeleton - physiology</topic><topic>Actin Cytoskeleton - ultrastructure</topic><topic>Animals</topic><topic>Blood flow</topic><topic>Cell Size - physiology</topic><topic>Electric Stimulation</topic><topic>Electron microscopy</topic><topic>Female</topic><topic>Ions</topic><topic>lesion</topic><topic>Microscopy, Electron</topic><topic>Mitochondria, Muscle - physiology</topic><topic>Mitochondria, Muscle - ultrastructure</topic><topic>Muscle contraction</topic><topic>Muscle Contraction - physiology</topic><topic>Muscle Fibers, Skeletal - physiology</topic><topic>Muscle Fibers, Skeletal - ultrastructure</topic><topic>Muscle, Skeletal - physiology</topic><topic>Muscle, Skeletal - ultrastructure</topic><topic>nerve stimulation</topic><topic>Rats</topic><topic>Rats, Wistar</topic><topic>Sarcomeres</topic><topic>Sarcomeres - physiology</topic><topic>Sarcomeres - ultrastructure</topic><topic>Sciatic nerve</topic><topic>skeletal muscle</topic><topic>Soleus muscle</topic><topic>Tendons</topic><topic>Tensile Strength - physiology</topic><topic>tension</topic><topic>Weight-Bearing - physiology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Matsuura, Natsue</creatorcontrib><creatorcontrib>Kawamata, Seiichi</creatorcontrib><creatorcontrib>Ozawa, Junya</creatorcontrib><creatorcontrib>Kai, Satoru</creatorcontrib><creatorcontrib>Sakakima, Harutoshi</creatorcontrib><creatorcontrib>Abiko, Sachiko</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>MEDLINE - Academic</collection><jtitle>Anatomical Science International</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Matsuura, Natsue</au><au>Kawamata, Seiichi</au><au>Ozawa, Junya</au><au>Kai, Satoru</au><au>Sakakima, Harutoshi</au><au>Abiko, Sachiko</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Comparison of sarcomere alterations after muscle contraction and tension loading in the rat soleus muscle</atitle><jtitle>Anatomical Science International</jtitle><addtitle>Anat Sci Int</addtitle><date>2002-09</date><risdate>2002</risdate><volume>77</volume><issue>3</issue><spage>169</spage><epage>174</epage><pages>169-174</pages><issn>1447-6959</issn><issn>0022-7722</issn><eissn>1447-073X</eissn><abstract>Muscle contraction induced by 30 min of continuous nerve stimulation at 50 Hz resulted in sarcomere changes of the soleus muscle in the rat in our previous study. To further investigate the cause of sarcomere alterations, the sciatic nerve was electrically stimulated intermittently for 30 min. Nerve stimulation was also conducted after cutting the tendons of the soleus, gastrocnemius and plantaris muscles in order to prevent imposing tension on these muscles as a result to their own contractions. In addition, the muscles were pulled by weights via their tendons to load high tension for 30 min without nerve stimulation. Sarcomere alterations immediately after treatments were quantified by electron microscopy. The percentages of aberrant sarcomere areas of the soleus muscle were 25.7 ± 16.4% (mean ± SD) in the group of intermittent nerve stimulation with intact tendons and 21.1 ± 35.4% in the group of tenotomy and continuous nerve stimulation, which were roughly equal to or more severe than the group of continuous nerve stimulation with intact tendons (18.8 ± 15.8%) in our previous study. Sarcomere alterations consisted mainly of hypercontraction in these groups. Almost all sarcomere changes in the tension‐loaded (pulled) soleus muscles were scarce myofilaments (1.7 ± 1.0% by 600 g; 4.5 ± 2.9% by 1200 g), and hypercontraction was not observed. These findings indicate that neither high tension nor a decrease of muscle blood flow during continuous contraction seems to be the primary cause of sarcomere alterations in the present study. There are probably other causes that produce aberrant sarcomeres.</abstract><cop>54 University Street, PO Box 378, Carlton South, Victoria 3053 Australia</cop><pub>Blackwell Science Pty</pub><pmid>12422409</pmid><doi>10.1046/j.0022-7722.2002.00022.x</doi><tpages>6</tpages></addata></record>
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subjects	Actin Cytoskeleton - physiology Actin Cytoskeleton - ultrastructure Animals Blood flow Cell Size - physiology Electric Stimulation Electron microscopy Female Ions lesion Microscopy, Electron Mitochondria, Muscle - physiology Mitochondria, Muscle - ultrastructure Muscle contraction Muscle Contraction - physiology Muscle Fibers, Skeletal - physiology Muscle Fibers, Skeletal - ultrastructure Muscle, Skeletal - physiology Muscle, Skeletal - ultrastructure nerve stimulation Rats Rats, Wistar Sarcomeres Sarcomeres - physiology Sarcomeres - ultrastructure Sciatic nerve skeletal muscle Soleus muscle Tendons Tensile Strength - physiology tension Weight-Bearing - physiology
title	Comparison of sarcomere alterations after muscle contraction and tension loading in the rat soleus muscle
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