WoS İndeksli Yayınlar Koleksiyonu

Permanent URI for this collectionhttps://hdl.handle.net/20.500.14627/6

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  • Article
    The Role of High-Fidelity Simulators in Vascular Surgery Training: A Systematic Review
    (Springer Nature, 2026) Abdelkader, Rem Ehab; Amgad, Ahmed; Alshurman, Saba Hussein; Almanaseer, Ghadeer M.; Manoj, Rachel Mary; Iqbal, Uzair; Ibrahim, Ismail A.
    BackgroundIn vascular surgery, endovascular procedures demonstrated lower morbidity and shorter hospital stays. However, learning these skills is highly challenging. A new method that offers secure, controlled settings for skill development is simulation-based training.AimThis systematic review aims to examine the different high-fidelity simulation programs and their effectiveness in enhancing endovascular skills among vascular surgery trainees.MethodsA comprehensive literature search was conducted across PubMed, SCOPUS, Cochrane CENTRAL, and Web of Science using PRISMA guidelines. We included all studies of all designs involving high-fidelity simulation in vascular surgery training. The eligibility criteria focused on studies assessing simulation interventions comparing pre- and post-course outcomes. Data extraction was done manually using Excel spreadsheets by two independent reviewers, and quality assessment was performed using a 19-point scale. The studies were also evaluated using Kirkpatrick's adapted hierarchy based on their educational impact.ResultsA total of 35 studies met the inclusion criteria, covering a range of simulation modalities, including virtual reality, augmented reality, and physical simulators. The findings demonstrated significant improvements in procedural skills, operation time, operative errors, and participant's confidence across all training levels. However, there were great variations in study methods and design, as well as a lack of a specific framework for skill assessment.ConclusionFor endovascular training, high-fidelity simulation is a useful tool for skill development. However, Standardized training techniques and additional research are needed to assess long-term skill retention.
  • Article
    Psychological Effects of Robotic Rehabilitation in Individuals With Spinal Cord Injury: A Narrative Review
    (BMC, 2025) Ibrahim, Ismail A.; Mounir, Mennatallah M.; Hussein, Omar; Parnian, Nadieh; Sefertas, Ece; Ravanbod, Amin; Arican, Tuna Eren
    IntroductionSpinal cord injury (SCI) is associated with severe physical, psychological, and social burdens. Robotic rehabilitation, especially robotic-assisted gait training, is increasingly used to improve functional recovery. Nonetheless, its psychological effects which are key to motivation, compliance, and long-term prognosis have received little scrutiny.MethodsWe conducted a narrative review across five databases (PubMed, Web of Science, Scopus, Cochrane, Embase) from inception to January 2025. Studies were included if they evaluated robotic rehabilitation in SCI and reported psychological outcomes. Findings were synthesized thematically into domains of anxiety/technophobia, motivation/engagement, self-efficacy/dependence, and frustration/quality of life.ResultsRobotic systems frequently improved autonomy, motivation, and self-confidence, which corresponded to less depression and a better quality of life. Nevertheless, negative effects including technophobia, frustration from technological malfunction, and loss of self-efficacy from excessive dependence were found. Patient experiences ranged: empowerment and new optimism were reported by some patients, whereas others experienced the devices as complicated, emotionally alienating, or inadequately adjustable.DiscussionRobotic rehabilitation has a dual psychological effect. On one hand, it encourages engagement and emotional resilience; on the other, it carries risks of interdependence and diminished autonomy. There are ethical issues to be resolved access disparities, data protection, and preserving human connection that require careful management. The inclusion of psychological screening, education of patients, and specific goal-setting within protocols can maximize results.ConclusionRobotic rehabilitation is highly capable of promoting progress after SCI if psychological considerations are completely incorporated into rehabilitation interventions. A multimodal approach that is interdisciplinary and ethically solid is required to achieve optimized functional improvement as well as psychosocial health.