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  1. Fulltext Design, Development, and Validation of a High-Fidelity "Ganglion Cyst" Model for Cadaveric Hand Surgery Training
    Rajaratnam V, Gan G, Ahmad AA, Kuruvilla TT, Shanmugam BM, Pueblos RCK, et al.
    J Hand Microsurg, 2022 Jan;14(1):58-63.
    PMID: 35256829 DOI: 10.1055/s-0040-1710169
    Introduction  This study presents a design and developmental model with prospective validation. This study was aimed to design, develop, and validate a cadaveric model simulator of a ganglion cyst to train surgeons in its surgical excision. Materials and Methods  A novel "ganglion cyst" was designed using a latex powder-free glove and water-based, water-soluble lubricant (K-Y jelly). This "ganglion cyst" was then inserted subcutaneously into a cadaveric hand, positioned over the dorsum of the wrist to simulate a ganglion lesion. This simulation model was prospectively validated using postsimulation surveys conducted on novices and experts in hand surgery. The simulation was conducted during a basic hand surgery cadaveric workshop that included a practical station on ganglion excision. Results  Both the novices and experts had a concurrent agreement that the simulator provided relevance, realism, and value as a simulator for the teaching, excision and procedural assessment of ganglions in the hand. Conclusion  The role of high-fidelity simulation has been documented in the literature for surgical procedures. This simple and affordable model that we have developed and validated allows for the creation of a high-fidelity ganglion simulator in the cadaveric hand for teaching, excision, and procedural assessment among trainees.
  2. Fulltext Educating Future Generations of Surgeons across Borders: Novel Global Linked Hybrid Live Cadaveric Peripheral Nerve Surgical Training Course
    Burahee AS, Duraku LS, Hundepool CA, Eberlin KR, Moore A, Dy CJ, et al.
    Plast Reconstr Surg Glob Open, 2024 Jan;12(1):e5559.
    PMID: 38264442 DOI: 10.1097/GOX.0000000000005559
    BACKGROUND: This study aimed to evaluate a novel, multi-site, technology-facilitated education and training course in peripheral nerve surgery. The program was developed to address the training gaps in this specialized field by integrating a structured curriculum, high-fidelity cadaveric dissection, and surgical simulation with real-time expert guidance.

    METHODS: A collaboration between the Global Nerve Foundation and Esser Masterclass facilitated the program, which was conducted across three international sites. The curriculum was developed by a panel of experienced peripheral nerve surgeons and included both text-based and multimedia resources. Participants' knowledge and skills were assessed using pre- and postcourse questionnaires.

    RESULTS: A total of 73 participants from 26 countries enrolled and consented for data usage for research purposes. The professional background was diverse, including hand surgeons, plastic surgeons, orthopedic surgeons, and neurosurgeons. Participants reported significant improvements in knowledge and skills across all covered topics (p < 0.001). The course received a 100% recommendation rate, and 88% confirmed that it met their educational objectives.

    CONCLUSIONS: This study underscores the potential of technology-enabled, collaborative expert-led training programs in overcoming geographical and logistical barriers, setting a new standard for globally accessible, high-quality surgical training. It highlights the practical and logistical challenges of multi-site training, such as time zone differences and participant fatigue. It also provides practical insights for future medical educational endeavors, particularly those that aim to be comprehensive, international, and technologically facilitated.

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