Quantification of fibre type regionalisation: an analysis of lower hindlimb muscles in the rat
| Autor: | D Kernell, LC Wang |
|---|---|
| Rok vydání: | 2001 |
| Předmět: |
Histology
Muscle Fibers Skeletal Population Hindlimb Image Processing Computer-Assisted medicine Animals Eccentric Rats Wistar Muscle Skeletal education Molecular Biology Ecology Evolution Behavior and Systematics Lower hindlimb Soleus muscle education.field_of_study Histocytochemistry Chemistry Regionalisation Skeletal muscle Cell Biology Anatomy Rats Muscle Fibers Slow-Twitch medicine.anatomical_structure Muscle Fibers Fast-Twitch Female Myofibril Research Article Developmental Biology |
| Zdroj: | Journal of Anatomy. 198:295-308 |
| ISSN: | 0021-8782 |
| DOI: | 10.1046/j.1469-7580.2001.19830295.x |
| Popis: | Newly developed concepts and methods for the quantification of fibre type regionalisation were used for comparison between all muscles traversing the ankle of the rat lower hindlimb (n = 12). For each muscle, cross-sections from the proximodistal midlevel were stained for myofibrillar ATPase and classified as type I (‘slow’) or II (‘fast’). For the 11 ‘fast’ muscles (i.e. all except soleus), the muscle outline and the position of each type I fibre were digitised for further computer processing. Two potentially independent aspects of type I fibre regionalisation were evaluated quantitatively: (1) the degree to which type I fibres were restricted to a limited portion of the total cross-sectional area (‘area-regionalisation’) ; (2) the extent and direction of the difference (if any) between the centre of the muscle cross-section and the calculated centre for the type I fibre cluster (‘vector regionalisation’). Statistical analysis showed that type I fibres were vector regionalised in practically all investigated muscles and area regionalised within most of them, the only consistent exceptions being peroneus brevis and peroneus digitorum 4, 5. In muscles with a high degree of area regionalisation the population of type I fibres also had a markedly eccentric intramuscular position (i.e. high vector regionalisation). A significant relationship was observed between the relative position of a muscle within the hindlimb (transverse plane) and the direction and degree of its type I fibre eccentricity. On average, the degree of type I fibre eccentricity was greater for muscles remote from the limb centre than for those situated more centrally. In addition, the intramuscular concentration of type I fibres was typically greatest towards the centre of the limb, the most striking exception being tibialis posterior. For the slow soleus muscle, which is centrally placed within the limb, our analysis concerned the type II fibres, which were found to be weakly vector regionalised but not significantly area regionalised. It is concluded that, within muscles of the rat's lower hindlimb, fibre type regionalisation is a general and graded phenomenon which may reflect differentiating (embryological?) mechanisms of a transmuscular significance. Furthermore, the analysis demonstrated the usefulness of our new methods and concepts for the quantification of fibre type regionalisation. |
| Databáze: | OpenAIRE |
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