Irreparable posterior cuff tears can cause pain and lack of shoulder function. Surgical treatment includes musculotendinous transfers of either latissimus dorsi (LD) or teres major (TM). This study aimed to give a detailed description of the morphology of these two muscles with particular regard to their suitability for use in transfers. Sixty-two shoulders in 31 cadaveric specimens (mean age 50 years) were dissected. The mean length of the TM was 13.7 cm at its superior edge while the distance from the muscle origin to the greater tuberosity (GT) was 19.2 cm. The tendon of the TM had a length of 1.5 cm, a width of 3.4 cm, and a thickness of 1.3 mm. The mean length of the LD was 26.0 cm and the distance from its origin to the GT was 32.9 cm. The mean length of the LD tendon was 5.2 cm, its width 2.9 cm, and its thickness 1.0 mm. The increased length required to achieve transfer was 47% (of the original length) for TM and 33% for LD. Both TM and LD could reach the GT with ease, according to the potential muscle excursions. Tension of the neurovascular bundle is more probable with LD because it enters the muscle relatively closer to the tendon. Problems with regard to reattachment may be more likely to occur in a transfer of the TM because of its short tendon.
Comparative anatomical studies of the avian middle ear provide structural data from which functional models can be derived. Subsequent phylogenetic analyses may reveal the phylogenetic history of taxon and the evolution of the functional model of the middle ear. We studied serial sections of a nestling of Grus japonensis. The microscopic anatomy of the middle ear (including skeletal parts, nerves, blood vessels, tendons, and tympanic recesses) was described with the help of a polystyrene plate reconstruction. These results were compared to those from skulls of adult cranes. Structural peculiarities of the crane middle ear are: 1) the ventral and anterior closure of the middle ear cavity by a dense plate of connective tissue, which ossifies during posthatching development; 2) the S-shaped infracolumellar process of the columella, of which the distal end forms a horizontal bar, and abuts against the ventral wall of the middle ear cavity; and 3) the absence of an intracolumellar hinge between the stapes and extracolumella. The crane middle ear shows the plesiomorphic pattern of middle ear structures of neognathous birds. We propose a one-lever-arm functional model for the middle ear of the crane, similar to that of paleognathous birds.
Comparative anatomy was used to collect more evidence for a thermoregulatory function of the internal vertebral venous plexus (IVVP). The venous connections of the IVVP were studied and compared in various mammals in order to find evidence for the existence of climate related anatomical adaptations. Humans and vervet monkeys were chosen as representatives of mammals living in moderate climates, the IVVP of the dolphin was studied because this animal is always surrounded by cold water. The springbok was chosen as a representative of mammalian species living under very hot conditions. The present study was exclusively performed on post mortem material. After filling the venous system with latex the IVVP and its venous connections were dissected. It appeared that in the dolphin, veins from the trunk muscles were directly and exclusively connected to the IVVP in the absence of an azygos vein. In the vervet monkey and human specimens, veins originating in the muscles drained both into the caval veins and into the IVVP. In these mammals veins draining from brown fat areas were also connected to the IVVP. In the springbok, drainage of blood from the muscles was prevented to enter the IVVP by the presence of valves. In humans and vervet monkeys we found that the lumbar parts of the IVVP were connected to subcutaneous veins of the back. It was concluded that the anatomy of the IVVP and its connecting veins may serve to thermoregulate the spinal cord and that climate related anatomical adaptations were present in the species studied.
The mammalian vomeronasal organ (VNO) is a well-adjusted chemosensory structure that facilitates social and reproductive behavior in mammals. The existence, locality, and function of this organ in human adults remain a matter of discussion. Most authors now agree that a neuroreceptive function of the adult human VNO can be excluded due to the absence of both neural receptive cells associated with the VNO in other mammals despite the enigmatic reports on the effects of pheromones on human behavior. Adult cadavers form European (Caucasoid) descent were used in this article and parasagittal dissection of the heads allowed access to the nasal septa, which were grossly examined for the VNO openings. Tissue samples were collected, embedded in gelatin and serially sectioned through cryomicrotomy. Nissl staining was performed as well as immunohistochemically stained with an antibody against calcium-binding protein. The findings presented here confirm the bilateral presence of the VNO in adult cadavers and demonstrate morphological connections of VNO receptor cells with the underlying capillaries. In addition, possible endocrine activity associated with the epithelium of this chemosensory structure has been demonstrated by the expression of calcium-binding protein in a part of these receptor cells. Clin.
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