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Unique Anatomy (unique + anatomy)
Selected AbstractsImaging of the shoulderEQUINE VETERINARY EDUCATION, Issue 4 2010W. R. Redding Summary Diagnosis of lameness associated with the shoulder region requires a careful clinical examination, the use of specifically placed intra-articular analgesia and a combination of some common imaging techniques to accurately define the source of pain. Most equine practices performing lameness examinations in the horse have the radiographic and ultrasonographic equipment necessary to accurately image the shoulder. This article presents a description of the unique anatomy of the shoulder and the specific application of radiographic and ultrasonographic techniques to provide a complete set of diagnostic images of the shoulder region. A brief discussion of nuclear scintigraphy of this region is also included. [source] Characterisation of human soft palate muscles with respect to fibre types, myosins and capillary supplyJOURNAL OF ANATOMY, Issue 2 2000PER S. STÅL Four human soft palate muscles, and palatopharyngeus, the uvula, the levator and tensor veli palatini were examined using enzyme-histochemical, immunohistochemical and biochemical methods and compared with human limb and facial muscles. Our results showed that each palate muscle had a distinct morphological identity and that they generally shared more similarities with facial than limb muscles. The palatopharyngeus and uvula muscles contained 2 of the highest proportions of type II fibres ever reported for human muscles. In contrast, the levator and tensor veli palatini muscles contained predominantly type I fibres. A fetal myosin heavy chain isoform (MyHC), not usually found in normal adult limb muscles, was present in a small number of fibres in all palate muscles. The mean muscle fibre diameter was smaller than in limb muscles and the individual and intramuscular variability in diameter and shape was considerable. All palate muscles had a high capillary density and an unusually high mitochondrial enzyme activity in the type II fibres, in comparison with limb muscles. No ordinary muscle spindles were observed. The fibre type and MyHC composition indicate that the palatopharyngeus and uvula muscles are functionally involved in quick movements whereas the levator and tensor veli palatini muscles perform slower and more continuous contractions. The high aerobic capacity and the rich capillarisation suggest that the palate muscles are relatively fatigue resistant. Absence of ordinary muscle spindles indicates a special proprioceptive control system. The special morphology of the palate muscles may be partly related to the unique anatomy with only one skeletal insertion, a feature consistent with muscle work at low load and tension and which may influence the cytoarchitecture of these muscles. Other important factors determining the special morphological characteristics might be specific functional requirements, distinct embryological origin and phylogenetic factors. [source] Is Diurodrilus an annelid?JOURNAL OF MORPHOLOGY, Issue 12 2008Katrine Worsaae Abstract Interstitial marine meiofaunal worms of the genus Diurodrilus have always been considered part of Annelida, either as basal or derived, though generally with reference to Dinophilidae. New evidence shows that Diurodrilus has a unique anatomy, and lacks key annelid features, possibly even segmentation. We assessed the systematic position of Diurodrilus among other protostome animals via light microscopy, confocal laser scanning microscopy, and transmission electron microscopy studies of anatomy, focusing on musculature, the nervous system, as well as molecular sequence data. We show that there is little morphological or molecular evidence to support a relationship with Dinophilidae or any other annelids. Diurodrilus has some similarities to Micrognathozoa, though the latter shows complex jaws. On the basis of the configuration of the nervous system and the cuticle we regard Diurodrilus to belong to Spiralia, possibly close to Annelida; however, until further evidence is acquired it should be regarded as incertae sedis in this large animal clade. J. Morphol., 2008. © 2008 Wiley-Liss, Inc. [source] A new experimental inbred Wistar rat varicocele model: anatomy of the left spermatic vein and the effect on histologyANDROLOGIA, Issue 1 2008Y. Zhang Summary Because of venous anatomical differences between rats and humans and the personal interpretation of these differences, there is neither consistent animal prototype nor consistent results in the study of varicocele. We established a new substrain of Wistar inbred rats, of which the left testis vein has no significant branches to the common iliac vein up pampiniform plexus, but instead enters the left renal vein directly (similar to humans) and used them to create experimental varicocele model by partial ligation of the left renal vein. One month later, the predominant lesion of the left testis in induced group was spermatogenic arrest at the spermatid and preliminary spermatocyte phases, and considerable interstitial and Sertoli cell vacuolation. The right testis also showed spermatogenic arrest. Most important, the characteristics of the lesions differed in both testes, with the left testis having more severe lesions. Allowing for the unique anatomy of the left spermatic vein, the standard of the surgical procedure, the high rate of varicocele induction, and identical histological alteration as occurs in humans, we believe that this inbred Wistar rat substrain is suitable for the creation of an experimental varicocele model, which has promise for practical application in humans. [source] | |||||||||||||