Hun-Mu Yang scite author profile

Background: Anesthetized pigs may be useful for training with regional anesthesia techniques. This model animal was used to assess the impact of simulation-based training for ultrasound-guided transversus abdominis plane (TAP) block. Methods: In this prospective study, 23 participating residents (10 in their second year, 13 in their third year) underwent simulation-based training for ultrasound-guided TAP block. The residents completed standard questionnaires comprising ten multiple-choice questions regarding essential general knowledge of abdominal ultrasound and TAP block before and after the training session. On a five-point Likert scale, they reported their levels of comfort with the use of ultrasound and block equipment, subject/operator positioning, proper block technique, image documentation, needle handling, and anxiety, as well as their overall confidence with the procedure. Results: Compared with those before training, the comfort levels of the residents significantly improved for all measures, except needle handling (all P < 0.05). The participants also indicated significantly reduced anxiety for performing the TAP block technique (P < 0.05). Conclusion: The use of anesthetized pigs in simulation-based training for the ultrasound-guided TAP block procedure improves the procedural knowledge and confidence while reducing the associated anxiety in anesthesiology trainees. Keywords: Porcine; simulation-based training; transversus abdominis plane block

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Neuromuscular compartmentation of the subscapularis muscle and its clinical implication for botulinum neurotoxin injection

Cho

Hong

Yang

2023

Sci Rep

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In this study, using immunohistochemistry with fresh cadavers, deliberate histological profiling was performed to determine which fibers are predominant within each compartment. To verify the fascial compartmentation of the SSC and elucidate its histological components of type I and II fibers using macroscopic, histological observation and cadaveric simulation for providing an anatomical reference of efficient injection of the BoNT into the SSC. Seven fixed and three fresh cadavers (six males and four females; mean age, 82.5 years) were used in this study. The dissected specimens revealed a distinct fascia demarcating the SSC into the superior and inferior compartments. The Sihler’s staining revealed that the upper and lower subscapular nerves (USN and LSN) innervated the SSC, with two territories distributed by each nerve, mostly corresponding to the superior and inferior compartments of the muscle, although there were some tiny communicating twigs between the USN and LSN. The immunohistochemical stain revealed the density of each type of fiber. Compared with the whole muscle area, the densities of the slow-twitch type I fibers were 22.26 ± 3.11% (mean ± SD) in the superior and 81.15 ± 0.76% in the inferior compartments, and the densities of the fast-twitch type II fiber were 77.74% ± 3.11% in the superior and 18.85 ± 0.76% in the inferior compartments. The compartments had different proportions of slow-fast muscle fibers, corresponding to the functional differences between the superior compartment as an early-onset internal rotator and the inferior compartment as a durable stabilizer of the glenohumeral joint.

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Neuromuscular compartmentation of the subscapularis muscle: An anatomical study for botulinum neurotoxin injection

Cho

Hong

Yang

2023

Preprint

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In this study, using immunohistochemistry with fresh cadavers, deliberate histological profiling was performed to determine which fibers are predominant within each compartment. To verify the facial compartmentation of the SSC and elucidate its histological components of type I and II fibers using macroscopic, histological observation and cadaveric simulation for providing an anatomical reference of efficient injection of the BoNT into the SSC. Seven fixed and three fresh cadavers (six males and four females; mean age, 82.5 years) were used in this study. The dissected specimens revealed a distinct fascia demarcating the SSC into the superior and inferior compartments. The Sihler’s staining revealed that the upper and lower subscapular nerves (USN and LSN) innervated the SSC, with two territories distributed by each nerve, mostly corresponding to the superior and inferior compartments of the muscle, although there were some tiny communicating twigs between the USN and LSN. The immunohistochemical stain revealed the density of each type of fiber. Compared with the whole muscle area, the densities of the slow-twitch type I fibers were 22.26 ± 3.11% (mean ± SD) in the superior and 81.15 ± 0.76% in the inferior compartments, and the densities of the fast-twitch type II fiber were 77.74% ± 3.11% in the superior and 18.85 ± 0.76% in the inferior compartments. The compartments had different proportions of slow-fast muscle fibers, corresponding to the functional differences between the upper compartment as an early-onset internal rotator and the lower compartment as a durable stabilizer of the glenohumeral joint.

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Hun-Mu Yang

Topographical Anatomy of the Distal Ulna Attachment of the Radioulnar Ligament

Hypoglossal nerve injury following the use of the CobraPLATM

Impact of simulation-based anesthesiology training using an anesthetized porcine model for ultrasound-guided transversus abdominis plane block

Neuromuscular compartmentation of the subscapularis muscle and its clinical implication for botulinum neurotoxin injection

Neuromuscular compartmentation of the subscapularis muscle: An anatomical study for botulinum neurotoxin injection

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