Simulation in pediatric anesthesiology: current state and visions for the future.

PURPOSE OF REVIEW: Simulation is a well established practice in medicine. This review reflects upon the role of simulation in pediatric anesthesiology in three parts: training anesthesiologists to care for pediatric patients safely and effectively; evaluating and improving systems of care for children; and visions for the future. RECENT FINDINGS: Simulation continues to prove a useful modality to educate both novice and experienced clinicians in the perioperative care of infants and children. It is also a powerful tool to help analyze and improve upon how care is provided to infants and children. Advances in technology and computational power now allow for a greater than ever degree of innovation, accessibility, and focused reflection and debriefing, with an exciting outlook for promising advances in the near future. SUMMARY: Simulation plays a key role in developing and achieving peak performance in the perioperative care of infants and children. Although simulation already has a great impact, its full potential is yet to be harnessed.

The evolution of surgical virtual education and telementoring: One surgeon's journey.

The first era of the global proliferation of surgical advancements involved surgical infection rate and technique breakthroughs by Lister, Halsted, and others. This was propagated by letters, academic papers, and international visits. While success was achieved, it was at a suboptimal pace. In the current era of minimally invasive surgical approaches, these methods are inadequate. This paper chronicles the development and application of virtual learning and telementoring as force multipliers to speed procedural adoption and proliferation.

Using Simulation to Teach Home Health Care.

To describe development, use and outcomes of a Home Healthcare (HHC) simulation experience. Quasi-experimental pre/posttest. Setting: A simulation center for nursing students (N = 108) completing an 8-hour simulation experience, followed by data collection on perceived benefits to their learning; and influence on their desire to work in HHC. 93% (n = 101) reported the simulation was helpful; 57.4% (n = 62) reported participation increased their desire to work in HHC. Use of a HHC-focused simulation had positive learning outcomes in this setting. In this sample, results suggest value in maintaining the simulation experience for future cohorts.

Elaboración de un simulador de trauma torácico a partir de un torso cadavérico utilizando tecnología de imágenes digitales e impresión 3D / Elaboration of a thoracic trauma surgery simulation model from a cadaveric human torso incorporating digital image technology and 3D printing

Resumen Objetivo: Presentar la elaboración de un simulador de trauma torácico de alta fidelidad elaborado mediante modelamiento e impresión 3D a partir de un torso humano cadavérico. Materiales y Método: Estudio descriptivo del desarrollo de un simulador de trauma torácico utilizando metodología centrada en el prototipado y la iteración basada en testeos. Resultados: Se elaboró un simulador reutilizable mediante la digitalización de un torso cadavérico utilizando tomografía computada. Se realizó una reconstrucción digital del torso diseñando los planos subcutáneos, muscular y óseo en base a las imágenes del paciente pre y postoracotomía anterolateral. Utilizando impresión 3D y materiales sintéticos, se elaboró la caja torácica para luego instalar un corazón y pulmón porcino ventilado y perfundido. Los parches de la toracotomía son reemplazables y de bajo costo. En conjunto, este simulador permite el entrenamiento en manejo de lesiones traumáticas cardiacas y pulmonares de alta fidelidad. Conclusión: La metodología presentada permite la creación de un modelo para el entrenamiento y evaluación de habilidades quirúrgicas en trauma torácico. Los elementos principales del simulador son reutilizables y permiten mantener bajos los costos del entrenamiento.

Aim: To describe the design and creation of a high-fidelity thoracic trauma surgery simulation model incorporating 3D printing technology using a cadaveric human torso as a model. Materials and Method: This is a descriptive study that aims to illustrate the creation process of a thoracic trauma surgery simulation model throughout the incorporation of prototypes and dynamic iteration technologies. Results: A high-fidelity reusable thoracic trauma surgery simulation model was created from the digitalization of a cadaveric torso using a computed tomography scan. Throughout digital reconstruction tools, the subcutaneous, muscular, and skeletal structures were modeled from images obtained before and after an anterolateral thoracotomy. Using 3D printing and synthetic materials, a high-fidelity thoracic cavity was built so that perfused and ventilated porcine heart and lungs could be placed. A thoracotomy patch for the anterolateral thoracotomy was designed in a reusable and low-cost fashion. This simulation model is suitable for high fidelity training in the surgical management of cardiopulmonary traumatic injuries. Conclusion: The described methodology allowed the creation of a simulation model for training and assessment of surgical skills in thoracic trauma. The main components of the simulation model are made from reusable materials, broadening access to low-cost, high fidelity training.

Simulation for Foregut and Bariatric Surgery: Current Status and Future Directions.

Simulation offers the opportunity to practice in a safe, controlled, and standardized environment. Surgical simulation, in particular, is very attractive because it avoids learning and practicing surgical skills in the operating room. Many simulators are currently available such as box-lap trainers, virtual-reality platforms, cadavers, live animals, animal-based tissue blocks, and synthetic/artificial models. Endoscopic interventions can be practiced with high-fidelity virtual simulators. Box-lap trainers help practicing basic laparoscopic skills. Cadavers and live animals offer realism to train entire foregut and bariatric procedures. However, limited availability and high expenses often restrict their use. Ex vivo simulators with animal tissue blocks have been recently developed and appear to be a realistic and cost-effective alternative. Three-dimensional printing and real-time navigation systems have also emerged as promising training tools. Overall, further efforts are needed to develop a formal simulation curriculum with validated simulators for foregut and bariatric surgery.

Simulation and student learning: will NMC policy lead to lasting change?

Emeritus Professor Alan Glasper, from the University of Southampton, discusses a new initiative from the Nursing and Midwifery Council to increase clinical learning through simulation during the COVID-19 pandemic.

Simulation-Based Training in Robotic Surgery: Contemporary and Future Methods.

While robotic surgery has grown in popularity and scope over the past decade, there is a persistent need for simulation-based training as surgeons adapt from the working at the bedside to the immersive and multisensory tasks at the console. From dry laboratory to virtual reality (VR) environments, simulation can be used to train surgeons in basic tasks, complex operative steps, and coordination of whole operations with members of the entire operating room (OR) staff. By integrating simulation into mentored training programs, surgeons can reduce the number of cases required to master a complex operation. Future VR based simulation will become essential to the adaptation of the surgical workforce to new technologies and adoption of emerging robotic platforms. Ultimately, robotic simulation will set standards for credentialing of new surgeons.

Simulation in Hernia Surgery: Where Do We Stand?

Simulation seems to be the best method of improving medical attitude, technical skills, and operating times. A literature review of the available data in simulation for hernia surgery was performed. Surgical simulation has been included as a main requirement in residency programs and endorsed by several surgical societies. However, evaluating how simulation affects patient's outcomes is challenging. In addition, simulation training represents an institutional economic burden that could undermine its implementation and development. Published data support that simulation-based training is a highly efficient tool, thus, its implementation should be strongly encouraged.

Enhancing the future of simulation-based education in pediatrics.

Technology-enhanced simulation has emerged as a great educational tool for pediatric education. Indeed, it represents an effective method to instruct on technical and non-technical skills, employed by a large number of pediatric training programs. However, this unique pandemic era posed new challenges also on simulation-based education. Beyond the mere facing of the clinical and societal impacts, it is fundamental to take advantage from the current changes and investigate innovative approaches to improve the education of pediatric healthcare professionals. To this aim, we herein lay down the main pillars that should support the infrastructure of the future technology-enhanced simulation.

Robotic Surgery: The Impact of Simulation and Other Innovative Platforms on Performance and Training.

OBJECTIVE: To review the current status of robotic training and the impact of various training platforms on the performance of robotic surgical trainees. DATA SOURCES: Literature review of Google Scholar and PubMed. The search terms included a combination of the following: "robotic training," "simulation," "robotic curriculum," "obgyn residency robotic training," "virtual reality robotic training," "DaVinci training," "surgical simulation," "gyn surgical training." The sources considered for inclusion included peer-reviewed articles, literature reviews, textbook chapters, and statements from various institutions involved in resident training. METHODS OF STUDY SELECTION: A literature search of Google Scholar and PubMed using terms related to robotic surgery and robotics training, as mentioned in the "Data Sources" section. RESULTS: Multiple novel platforms that use machine learning and real-time video feedback to teach and evaluate robotic surgical skills have been developed over recent years. Various training curricula, virtual reality simulators, and other robotic training tools have been shown to enhance robotic surgical education and improve surgical skills. The integration of didactic learning, simulation, and intraoperative teaching into more comprehensive training curricula shows positive effects on robotic skills proficiency. Few robotic surgery training curricula have been validated through peer-reviewed study, and there is more work to be completed in this area. In addition, there is a lack of information about how the skills obtained through robotics curricula and simulation translate into operating room performance and patient outcomes. CONCLUSION: Data collected to date show promising advances in the training of robotic surgeons. A diverse array of curricula for training robotic surgeons continue to emerge, and existing teaching modalities are evolving to keep up with the rapidly growing demand for proficient robotic surgeons. Futures areas of growth include establishing competency benchmarks for existing training tools, validating existing curricula, and determining how to translate the acquired skills in simulation into performance in the operating room and patient outcomes. Many surgical training platforms are beginning to expand beyond discrete robotic skills training to procedure-specific and team training. There is still a wealth of research to be done to understand how to create an effective training experience for gynecologic surgical trainees and robotics teams.

What Is Your Reality? Virtual, Augmented, and Mixed Reality in Plastic Surgery Training, Education, and Practice.

SUMMARY: Virtual reality and other technological advancements both inside and outside the operating room have shown an exponential increase in the past two decades. Surgical technique and finesse in delicate procedures have become ever more important, and the onus is on plastic surgeons and plastic surgery residents to meet these needs to provide the best outcomes possible to patients. The ability to learn, simulate, and practice operating in a fashion that poses no harm to any patient is truly a gift from technology to surgery that any surgeon could benefit from, whether trainee or attending. This application of technology and simulation has been demonstrated in other fields such as in the airline industry with flight simulation. The ability to learn, synthesize, and incorporate learned materials and ideas through virtual, augmented, and mixed reality tools offers a great opportunity to put our field at the forefront of a paradigm shift in surgical education. The critical utility of digital education could not be further emphasized any more than in the unfortunate and infrequent situation of a worldwide pandemic. This article reviews some of the important recent technologies that have developed and their applications in plastic surgery education and offers a look into what we can expect in the future.

Simulación con paciente estandarizado y simuladores de baja fidelidad (PESiBaF) como primer acercamiento a un paciente en estudiantes de primer año de la carrera de médico cirujano / Standardised patient simulation and low fidelity simulators (PESiBaF) as a first approach to a patient in first year students of the medicine degree

En la actualidad, la medicina incorpora diferentes recursos y estrategias para mejorar la educación que brinda a los estudiantes, entre ellas las actividades de aprendizaje por simulación. La simulación trae consigo varios beneficios, pero para ello es necesario saber implementarla y contar con los recursos necesarios, y además, tener claros los objetivos de aprendizaje que se plantearán en esta y valorar qué tan útil resulta para el participante. Retomando lo anterior, se realizó un estudio descriptivo en el que participaron estudiantes de primer año de la licenciatura de médico cirujano de la Facultad de Medicina de la UNAM, quienes, a través de la simulación, tuvieron un acercamiento introductorio a la importancia de la relación médico-paciente y aprendieron la técnica de exploración ginecológica en una actividad dividida en 3 fases, utilizando pacientes estandarizados y simuladores de baja fidelidad. Al término de la actividad, esta fue evaluada por los participantes mediante una lista de cotejo clasificada en 4rubros para conocer su perspectiva, que ayudará a mejorar la calidad de la simulación planteada y a saber si el estudiante considera que ha adquirido habilidades propias del médico

Medicine currently incorporates different resources and strategies to improve the education it provides to students, including simulation-based activities. Simulation brings several benefits, but for this it is necessary to know how to implement it and have the necessary resources, as well as having clear learning objectives that will be raised in it and assess how useful it is for the participant. With this objective, a descriptive study was conducted in which first year medical students of the UNAM's Faculty of Medicine participated. Using the simulation, they had an introductory approach to the importance of the doctor-patient relationship, and learned the technique of gynaecological examination in an activity that was divided into 3 phases, using standardised patients and low fidelity simulation models. At the end, this was evaluated by the participants through a checklist classified into 4areas in order to determine their perspective. This would help improve the quality of the simulation and to determine if the students consider that they have acquired their doctor skills

Interprofessional Simulation to Improve the Understanding of Obstetric Sepsis.

Sepsis parameters are not well defined for the obstetric population, which can result in delayed recognition. The escape room-based simulation sought to improve obstetric providers' and nurses' understanding, identification, and timely treatment of maternal sepsis. Participants expressed interest and enthusiasm in using this learning style to improve care of the sepsis patient. This intervention proved beneficial to staff development educators as an innovative and effective way to improve interprofessional engagement and promote knowledge of maternal sepsis.

The Realities of Collaboration: An Academic and Practice Partnership in Simulation Education With Nurse Residents.

This article details the collaborative effort between a team of academic nurse educators with educators in a practice setting in the planning and implementation of a simulation-focused study to develop clinical judgment and clinical competency among new-to-practice nurses enrolled in a nurse residency program. Competing priorities between achieving the aims of the study and initiatives within the healthcare system are detailed, and suggestions for future joint research-focused efforts between academic and practice-based educators are offered.

Innovative Educational Pathways in Spine Surgery: Advanced Virtual Reality-Based Training.

BACKGROUND: Over the past few years, a reorganization of the educational pathways has been promoted with the purpose of optimizing the acquisition of competences and their assessment, so as to reduce the risks to both health care professionals and end users. Virtual reality (VR) has been repeatedly tested, initially as a positive reinforcement for more traditional educational pathways and, more recently, as their potential substitute. The aim of this study was to demonstrate the potentiality of VR simulation training in spine surgery. METHODS: The VR simulator reproduced the lateral lumbar access to the spine. The simulation included a tutorial, the preoperative settings, and the surgical session with different levels of procedural complexity. A total of 10 users were recruited for this study: 3 senior surgeons (group A) and 7 orthopedic residents or junior orthopedic surgeons (group B). Each user completed the simulation twice. RESULTS: The user's age or previous experience with VR technology did not show any relevance. On average, the entire simulation was completed in 24'36'. Group B showed an improvement between the 2 attempts in both sessions, the preoperative settings and the surgical simulation. The number of major errors dropped from an average of 5.2 to 1.8 and from an average of 4 (maximum 6-minimum 1) to 1.4, respectively. The simulation was never interrupted because of technical bugs or adverse effects related to the technology. CONCLUSIONS: VR-based training pathways might promote a high standard of care. Our preliminary experience suggests an effective implementation of the traditional coaching process.

The Future of Cardiac Ultrasound in the Neonatal Intensive Care Unit.

Cardiac ultrasound is increasingly used to guide hemodynamic decision making in the neonatal intensive care unit (NICU). This article focuses on likely future progress in training, accreditation, digital connectivity, miniaturization, and modality development. Many documents have been published internationally to guide cardiac ultrasound training, accreditation, and implementation in the NICU, but challenges remain in providing assessments of hemodynamic status without risking missed structural diagnoses. Advances in simulation training and digital connectivity provide an opportunity to standardize approaches across institutions and continents. Development of machine learning and ultrasound modalities in turn provide huge scope for improving robustness and completeness of assessment.