Aim
Senior surgeons in Japan who participated in “cadaver‐based educational seminar for trauma surgery (CESTS)” subsequently stated their interest in seminars for more difficult procedures. Therefore, we held a 1‐day advanced‐CESTS with saturated salt solution (SSS)‐embalmed cadavers and assessed its effectiveness for surgical skills training (SST).
Methods
Data were collected from three seminars carried out from September 2015 to January 2018, including a 10‐point self‐assessment of confidence levels (SACL) questionnaire on nine advanced surgical skills, and evaluation of seminar content before, just after, and half a year after the seminar. Participants assessed the suitability of the two embalming methods (formalin solution [FAS] and SSS) for SST, just after the seminar. Statistical analysis resulted in P < 0.0167 comparing SACL results from seminar evaluations at the three time points and P < 0.05 comparing FAS to SSS.
Results
Forty‐three participants carried out surgical procedures of the lung, liver, abdominal aorta, and pelvis and extremity. The SACL scores increased in all skills between before and just after the seminar, but were decreased by half a year after. However, SACL scores of each skill did not change significantly, except for external fixation for pelvic fracture at just after and half a year after. The SSS‐embalmed cadavers were evaluated as being more suitable than FAS‐embalmed cadavers for each procedure.
Conclusions
Advanced‐CESTS using SSS‐embalmed cadavers increased the participants’ self‐confidence just after the seminar, which was maintained after half a year in each skill, except external fixation for pelvic fracture. Therefore, SSS‐embalmed cadavers are useful for SST, particularly for surgical repairs.
The formation and distribution of the sural nerve are presented on the basis of an investigation of 31 legs of Japanese cadavers using nerve fascicle and fiber analyses. Nerve fibers constituting the medial sural cutaneous nerve were designated as 'T', whereas those constituting the peroneal communicating branch were designated as 'F'. In 74.2% of cases (23/31), the T and F fibers joined each other in the leg, whereas in 9.7% of cases (3/31) they descended separately. In 16.1% of cases (5/31), the sural nerve was formed of only the T fibers. The sural nerve gave off lateral calcaneal branches and medial and lateral branches at the ankle. The lateral calcaneal branches always contained T fibers. The medial branches consisted of only T fibers, whereas most of the lateral branches consisted of only F fibers (71.0%; 22/31). In addition to the T and F fibers, P fibers, which derived from the superficial and deep peroneal nerves, formed the dorsal digital nerves. The P fibers were entirely supplied to the medial four and one-half toes. However, they were gradually replaced by the T and F fibers in the lateral direction. The 10th proper dorsal digital nerve consisted of T fibers only (38.7%; 12/31), of F fibers only (19.4%; 6/31) or of both T and F fibers (38.7%; 12/31). These findings suggest that the T fibers are essential nerve components for the skin and deep structures of the ankle and heel rather than the skin of the lateral side of the fifth toe. The designation of the medial sural cutaneous nerve should be avoided and only the T fibers are appropriate components for naming as the sural nerve.
The authors encountered a very rare human autopsy case in which the supernumerary branch of the glossopharyngeal nerve and a nerve branch arising from the external carotid plexus communicated with the superficial cervical ansa. This anomaly was observed on the left side of a 71-year-old male cadaver during the gross anatomical seminar at Niigata University in 2004. The nerve fascicle and fiber analyses indicated that the supernumerary branch of the glossopharyngeal nerve separated cranial to the branches to the pharyngeal constrictor muscles, carotid sinus and stylopharyngeal muscle and sent the nerve fibers to the muscular branches to the platysma and the cutaneous branches to the cervical region. Additionally, it was shown that the branch arising from the external carotid plexus sent the nerve fibers to the cutaneous branch to the cervical region. Although the external carotid plexus is primarily postganglionic sympathetic fibers originating from the superior cervical ganglion, the vagus and glossopharyngeal nerves gave off branches connecting to the plexus, and therefore it was not possible to determine the origins of this branch of the external carotid plexus. The present nerve fascicle analysis demonstrates that the supernumerary branch of the glossopharyngeal nerve, which innervated the platysma, did not share any nerve components with the branches to the pharyngeal constrictor muscles, carotid sinus and stylopharyngeal muscle, suggesting that this supernumerary branch may be categorized into the different group from these well-known branches.
A middle thymothyroid artery, arising from the anterior aspect of the right common carotid as an anomalous branch was observed in a 71-year-old Japanese male cadaver. It soon divided into a thyroidea ima artery, a branch supplying the sternoclavicular joints, and a thymic branch. In addition, twigs from these three main branches supplied the sternohyoid and sternothyroid muscles, right inferior parathyroid gland and also some deep cervical lymph nodes. Anatomical features, clinical implications and a brief account of the developmental aspects of this rare variation are included in this report.
Human anatomy texts state that the anterior cutaneous branch of the first intercostal nerve (Rca-Th1) does not exist or that, even if it does, it is poorly developed. However, an anterior cutaneous branch in the first intercostal space (Rca-1) was observed in 74.8% of cases examined (104/139 sides) and was not poorly developed at all. Some of the observed Rca-I were even larger than the anterior cutaneous branches in the second intercostal space (Rca-ll). The segment of origin of the Rca-I was analyzed in 37 sides and 66.2% (49/74 branches) were confirmed to be from Th1. As a result, in contrast with traditional beliefs, it was shown that Rca-Th1 exists. The Rca-I was classified into two types according to the course and distribution: (i) an anterior cutaneous branch that appeared at the anterior end of the first intercostal space (ICS), ran through the pectoralis major muscle and extended in the first ICS (Rca-1); and (ii) another branch that appeared at the same place but ran downward along the anterior surface of the second costal cartilage, deep to the pectoralis major muscle, to reach the inferior edge of the second costal cartilage or the second ICS, passed through the pectoralis major muscle and extended to the second rib or the second ICS (pseudo Rca-2). It was found that 77.8% (35/45 branches) of Rca-1 and 48.3% (14/29 branches) of pseudo Rca-2 were derived from Th1. Accordingly, the author suggests that the description in human anatomy texts should be revised to read, '... the Rca-Th1 exists quite constantly and some of appear at a position resembling Rca-Th2'.
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