Seiichiro Inokuchi

Microfibrils in the myotendon junctions.

Myotendon junctions in the rectus abdominis muscles of bull frogs were examined by the fixation combination of tannic acid and glutaraldehyde using electron microscopy. The features observed on myotendon junctions were the following: (1) There were many deep invaginations of muscle cell membrane at the end of the muscle fibers. Terminal thin filaments of myofibrils were attached to the electron-dense layer lining under the muscle cell membrane on the lateral walls of invaginations. (2) The basement membrane covering the muscle cell membrane was thicker in the invaginations than on the other sites of muscle fibers. (3) Collagen fibers in the invaginations gradually tapered off toward the bottom of the invaginations. But it was not seen that the collagen fibers were attached to both the basement membrane and cell membrane of muscle cells. (4) On the observations using the tannic acid-glutaraldehyde fixation, it was clearly seen that the microfibrils extend from the outer leaflets of the cell membrane to the collagen fibers in invaginations via the basement membrane. It was concluded that the myofibrils might be fastened to the collagen fibers of the tendon by the intermediates of the microfibrils.

Composition of muscle fibers in the slow loris, using the m. biceps brachii as an example

Histological examination of the skeletal muscle of the slow loris, which displays slow movement and locomotion among the prosimians, revealed a muscle fiber composition which differed from the general condition in mammals. Three types of muscle fiber cells were therefore analyzed quantitatively in order to elucidate their specificity. The skeletal muscle of the limbs of the slow loris was predominantly composed of red muscle fibers (type I) showing persistent tonic contraction.

Muscle Fibre Composition and Innervation Ratios of the Extensor Digitorum and Extensor Hallucis Brevis Muscles in the Crab-Eating Macaque (Macaca fascicularis)

The morphological and functional characteristics of the extensor digitorum and hallucis brevis muscles, the sole intrinsic muscles of the dorsum of the foot in the macaque, were investigated through dissection, the examination of muscle fibre composition, and counts of axon numbers. The total number of muscle fibers contained within the extensor digitorum (EHB) and extensor hallucis brevis (EDB) was almost 21,100. The population ratios of the three muscle fibre types of white, intermediate and red were 39.23 and 38%, respectively, for EDB and 40, 23 and 37%, respectively, for EHB. The mean cross-sectional area of each fibre type (white, intermediate, red) tended to be larger in the EHB (2,098, 1,480 and 911 microns2) than in the EDB (1,695, 1,310 and 822 microns2) and the value were significantly different for white fibres of males. The percentage area of the three muscle fibre types and the ratio of the white, intermediate and red areas, were similar between the EHB (55, 23 and 22%, respectively) and the EDB (52, 23 and 25%, respectively). The white area was dominant with the value showing a somewhat larger figure in the EHB compared to that of the EDB. The number of motor units was estimated to be 197-234 on average and the innervation ratio was calculated as between 91 and 109. These results suggest that the muscle fibre composition and innervation ratio of the EHB and EDB, especially the EHB, might relate to the arboreal locomotion of the crab-eating macaque.

A study of the myofibrous organization of the biceps brachii muscles from the crab-eating macaque

TheM. biceps brachii ofMacaca fascicularis was examined, noting the total number of muscle fibers, the number of muscle fibers per square millimeter, the cross sectional area of Venter musculi and the thickness of individual fibers in the cross sectional area of the right brachial biceps specimens of 10 adult crab-eating macaques, five males and five females.The results of this investigation are compared with a previous study of a similar type made on the brachial biceps of the adult human. Comparative analysis shows that the mean ventral cross sectional area of the macaque biceps muscle is 1/7 to 1/3 that of the cross sectional area in the human muscle. Macaque brachial biceps muscle shows approximately one half the total number of muscle fibers of the human specimens, though the number of fibers per square millimeter is one to two times greater than in human specimens. The macaque muscle fibers were 1/2 to 5/6 as thick as those in the human specimens.The relations between the ventral cross sectional area and thickness of individual muscle fibers is discussed. Comparisons are made between the macaque and human specimens. It is suggested that such factors as age, sex, and the nutritional history of the specimen donors may have influenced the myofibrous organization in both human and macaque specimens. It is suggested also, that differences in myofibrous organization may be related to more continuous or sustained muscular activity in the macaque and more forceful muscular contraction in humans.

Sarcocystis found in the skeletal muscle of common squirrel monkeys

Abnormally enlarged muscle fiber cells of ring form were incidentally detected in transverse sections of muscles of the common squirrel monkey during microscopic investigation of the composition of muscle fibers. Longitudinal sections showed slender capsule-like cysts in the sarcoplasm. Detailed examination revealed these cysts to be those ofSarcocystis. Among the three types of muscle fiber cells that compose the skeletal muscle, staining with Sudan black B revealed that this parasite selectively infested type II white fibers with a large diameter and a high glycogen content.