Rare case of the inferior mesenteric artery and the common hepatic artery arising from the superior mesenteric artery.

We found a case in which inferior mesenteric artery and the common hepatic artery arose from the superior mesenteric artery, forming the common hepatomesenteric trunk, during a routine dissection carried out at Iwate Medical University in 2002. This variation is rare, but can be embryonically explained. A change in the positions of the disappearance of the ventral splanchnic arteries and the longitudinal anastomotic channel results in variations in the system of arteries distributed to the digestive organs.

Comparison of the thickness of basement membranes in various tissues of the rat.

The thicknesses of the lamina lucida and the lamina densa of basement membranes in various kinds of tissues, including the epidermis and mucosal epithelium, and basement membranes adjacent to a Schwann cell, perineurial sheath cell, endothelial cell, pericyte, muscle cell and fat cell, were compared on high-powered transmission electron micrographs. Each tissue and cell possessed a basement membrane with thicknesses of the lamina lucida and lamina densa that were specific to the particular tissue or cell. This indicates that the lamina lucida and lamina densa of the basement membrane of a tissue/cell have a particular constitution.

Abnormal anterior belly of the digastric muscle: a proposal for the classification of abnormalities.

We recognized an abnormal anterior belly of the digastric muscle in an 83-year-old male cadaver. Three muscle bundles were observed on the left anterior belly: (i) attached to the left digastric fossa; (ii) attached to the right digastric fossa; and (ii) attached to the raphe of the mylohyoid muscle. Four muscle bundles were recognized on the right anterior belly: (i) attached to raphe of the mylohyoid muscle; (ii, iii) attached to the exterior surface on the base of the mandible from the raphe of the mylohyoid muscle; and (iv) attached to the interior surface on the base of the mandible from the raphe of the mylohyoid muscle.

Scanning electron microscopic observations of the basement membranes with dithiothreitol separation.

Scanning electron microscopic (SEM) studies of the interstitial surface of the lamina densa can be performed with dithiothreitol separation, which is the only method of exposing this surface. SEM observation revealed the three-dimensional structures of the meshwork in the lamina densa and anchoring fibrils in dithiothreitol-separated specimens. Detection of the components of the basement membrane can be performed by immunoscanning electron microscopy on this exposed surface by comparing the backscattered and the secondary electron images.

Transmission and scanning electron microscopic observations of epithelial-mesenchymal interface of rat tooth germs using dithiothreitol separation.

Aperiodic fibrils (AF) project from the interstitial side of the lamina densa of the basement membrane (BM) of the inner enamel epithelium (IE), and show remarkable changes in their morphology during development. The three-dimensional morphology of aperiodic fibrils during development has not been observed, because of the difficulty of exposing the interstitial surface of the BM of the inner enamel epithelium. In the present study, the dithiothreitol separation method was applied to expose the interstitial side of the inner enamel epithelial BM of rat tooth germs for the purpose of observing the exposed aperiodic fibrils by transmission and scanning electron microscopy (TEM and SEM, respectively).

Development of the basement membrane and formation of collagen fibrils below the placodes in the head of anuran larvae.

The development of the basement membrane and collagen fibrils below placodes, including the corneal region of the ectoderm, lens epithelium, nasal plate, and auditory vesicle in anuran larvae was observed by transmission electron microscopy and compared with that in nonplacodal regions such as the epidermis, neural tube, and optic vesicle. In the corneal region the lamina densa becomes thick concomitantly with the development of the connecting apparatuses such as hemidesmosomes and anchoring fibrils. The collagen fibrils increase in number and form a multilayered structure, showing similar morphology to the connective tissues below the epidermis.

Real electron microscopic images of collagen fibrils in the endoneurium.

Collagen fibrils run in parallel in the endoneurial space, forming fibre bundles. Spaces are evident between these bundles when examined by transmission electron microscopy (TEM). However, the procedures for TEM include chemical fixation, dehydration and embedding, which may cause morphological changes in the specimens.

Measurement of the repeat period of myelin sheath using ultrathin frozen sections.

The myelin sheath of peripheral nerves was observed by transmission electron microscopy (TEM) using plastic-embedded sections and ultrathin frozen sections. Repeat distances of myelin sheaths were measured in high-powered electron micrographs. The ultrathin frozen sections showed a longer repeat distance than the plastic-embedded sections.