Clinical anatomy : official journal of the American Association of Clinical Anatomists & the British Association of Clinical Anatomists
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The petrous apex is a complex area surrounded by the cavernous sinus, Dorello's canal and Meckel's cave. The petrosphenoidal ligament (PSL) and the petrolingual ligament (PLL) are important structures located in the region. These two ligaments were examined under a surgical microscope in 10 specimens of five adult cadaveric heads fixed in formalin. ⋯ The PLL invariably surrounded part of the dorsal and lateral walls of the lacerum segment of the internal carotid artery (ICA), just under the anteroinferior portion of the anteromedial wall of Meckel's cave in all specimens. The PSL and PLL are valuable anatomical landmarks for identifying the ICA and the nerves in this region. A thorough understanding of the relationship of the two ligaments with neurovascular structures is a prerequisite for surgery in and around the petrous apex.
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Many studies around the world have looked at the stresses placed on medical students by cadaveric dissection. Although these studies have linked the use of cadavers in medical teaching to stress, some investigations have suggested an association with severe psychological stress and even post-traumatic stress disorder. This study assessed the attitudes of medical and biomedical sciences students in an Irish medical school towards cadaveric dissection by recording, through a questionnaire, their perceptions and experience before initial exposure to dissection and subsequently examining their attitudes after the first dissection and after 9 weeks. ⋯ The majority of students in this study did not find the dissecting room experience stressful, and considered time spent in the dissecting room valuable. However, the proportion of students with negative experiences in the dissecting room was higher than has been reported in previous studies. Many respondents felt they could be better prepared for the dissecting room experience, indicating an increasing requirement for effective preparatory programmes.
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The aim of the study was to describe three small muscles in the upper costovertebral region that have close proximity to the ventral rami of the lower cervical and upper two thoracic spinal nerves. The study was performed using both anterior and posterior approaches to the costovertebral region. Twenty-five human cadavers, 15 males and 10 females with a mean age of 50 years and with normal spines, constituted the material of the study. ⋯ It then curved round the posterior aspect of the muscle and passed through the gap between the muscle and the levator costarum, after supplying them both. We suggest that these three muscles were suggested to share a common embryogenesis with the intertransverse muscles. In addition, this study suggests that the three muscles described herein could be one of the potential causes of thoracic outlet syndrome.
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Comparative Study
Anatomical considerations of the deep peroneal nerve for biopsy of the proximal fibula in Thais.
The present research aims to study the anatomical relationship between the deep peroneal nerve and the neighboring structures in the proximal fibula of Thais, with special regard to define the boundaries of a "safe" area when performing a biopsy of the proximal fibula. The proximal parts of 118 legs of 59 formalin-embalmed adult cadavers (31 males, 28 females) were investigated. The distance from the apex of the fibular head to the point of origin of the deep peroneal nerve, the distance from the most lateral prominence of the fibular head to the anterior intermuscular septum, and the angle between the deep peroneal nerve and the fibula axis were measured. ⋯ The mean angle between the deep peroneal nerve and the fibular axis was 28.1 degrees +/- 7.2 degrees. In conclusion, these findings suggest that a "safe" area for bone biopsy in the proximal fibula of Thais is palpable anterior to the fibular head and downward laterally, not lower than 28 mm or 8% of the fibular length and from the most lateral prominence transverse medially not further than 14 mm. The inferior boundary of this area is an oblique line of the deep peroneal nerve about 28 degrees from the fibular axis.
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Both Biceps Load tests I and II rely on an increase in tension in the long head of biceps to identify a superior labral anterior and posterior (SLAP) lesion. This study aimed to evaluate the anatomical basis of Biceps Load tests I and II by measuring activity in the long head of biceps in the two clinical tests. ⋯ Activity was only minimally increased in both Biceps Load I and II compared with the resting position. In the absence of convincing support for the anatomical basis of the test, investigations of diagnostic accuracy need to be replicated in order for the reported high accuracy of Biceps Load I and II tests to be supported with confidence.