Robotic and Plastic Surgery: actuality and prospects for the near future, a scoping review.

OBJECTIVE: This work aims to review the existing use of robotics in plastic surgery. METHODS: A meticulous selection process identified 22 articles relevant to this scoping review. RESULTS: The literature on the use of robotics in plastic surgery is sparse. Nonetheless, this review highlights emerging benefits in microsurgery, breast reconstruction, and transoral surgery. CONCLUSION: This scoping review identifies critical articles reporting the emerging use of robotics in plastic surgery. While the scientific medical community has yet to extensively document its use, the available evidence suggests a promising future for robotics in this field.

Establishing a successful robotic surgery program and improving operating room efficiency: literature review and our experience report.

The benefits and outcomes of robotic surgery are well established in the literature across multiple specialties. The increasing need for and dissemination of this technology associated with high costs, demand adequate planning during its implementation. Therefore, after years of training several robotic surgeons and establishing multiple robotic programs worldwide, the purpose of this article is to focus on the necessary elements in the initial phase of establishing a robotics program. We summarized in our article crucial factors when implementing a robotic program. Therefore, we explained in detail the critical aspects of the program design, implementation, marketing, research and outcomes, and ultimately improving efficiency. The creation of a robotics planning committee composed of several hospital individuals contributes in different lines of work such as cost evaluation, staff training, and OR modifications. A multidisciplinary approach and a robotic lead surgeon are also recommended to guarantee surgical volume and satisfactory outcomes. Furthermore, market analysis should evaluate the competition with other centres and potential surgical candidates in that area. Data collection should also be considered a vital element of the program organization, which assures quality control and helps to diagnose any program deficiency. We believe that the robotic program should be individualized according to the economy and reality of each centre. The success and duration of a robotic surgery program depend on long-term results. Therefore, careful planning with a robotic committee defining the types of procedures to be performed and appropriate multidisciplinary training to avoid surgery cancelations are crucial factors in establishing a successful program.

Robotic Head and Neck Surgery: Beyond TORS.

PURPOSE OF REVIEW: To explore the advances in robotic head and neck surgery (HNS) beyond TORS. RECENT FINDINGS: Although limited, the current literature corroborates the safety of robotic neck surgery, revealing similar surgical/oncologic outcomes, except longer operative time and superior cosmesis. In most of the remote thyroid approaches, use of robotic-assisted surgery is essential. However, for the recently popularized transoral approach, endoscopic technique has been preferred by most surgeons, due to longer operative time in robotic-assisted technique. On the other hand, retroauricular approach has been considered the standard for comprehensive/selective robotic neck dissections. Robotic technology has an increasing role in HNS. Robotic neck dissection has shown encouraging results, being routinely used in some centers around the globe. Robotic thyroid surgery, although safe when well applied, has lost ground to endoscopic transoral thyroidectomy. In the future, more evolved robotic systems could improve multiple areas of HNS.

Laparoscopic and robotic urology surgery during global pandemic COVID-19

ABSTRACT Known laparoscopic and robotic assisted approaches and techniques for the surgical management of urological malignant and benign diseases are commonly used around the World. During the global pandemic COVID-19, urology surgeons had to reorganize their daily surgical practice. A concern with the use of minimally invasive techniques arose due to a proposed risk of viral transmission of the coronavirus disease with the creation of pneumoperitoneum. Due to this, we reviewed the literature to evaluate the use of laparoscopy and robotics during the pandemic COVID-19. A literature review of viral transmission in surgery and of the available literature regarding the transmission of the COVID-19 virus was performed up to April 30, 2020. We additionally reviewed surgical society guidelines and recommendations regarding surgery during this pandemic. Few studies have been performed on viral transmission during surgery. No study has been made regarding this area during minimally invasive urology cases. To date there is no study that demonstrates or can suggest the ability for a virus to be transmitted during surgical treatment whether open, laparoscopic or robotic. There is no society consensus on restricting laparoscopic or robotic surgery. However, there is expert consensus on modification of standard practices to minimize any risk of transmission. During the pandemic COVID-19 we recommend the use of specific personal protective equipment for the surgeon, anesthesiologist and nursing staff in the operating room. Modifications of standard practices during minimally invasive surgery such as using lowest intra-abdominal pressures possible, controlled smoke evacuation systems, and minimizing energy device usage are recommended.

Laparoscopic and Robotic Urology Surgery during Global Pandemic COVID19.

Known laparoscopic and robotic assisted approaches and techniques for the surgical management of urological malignant and benign diseases are commonly used around the World. During the global pandemic COVID19, urology surgeons had to reorganize their daily surgical practice. A concern with the use of minimally invasive techniques arose due to a proposed risk of viral transmission of the coronavirus disease with the creation of pneumoperitoneum. Due to this, we reviewed the literature to evaluate the use of laparoscopy and robotics during the pandemic COVID19. A literature review of viral transmission in surgery and of the available literature regarding the transmission of the COVID19 virus was performed up to April 30, 2020. We additionally reviewed surgical society guidelines and recommendations regarding surgery during this pandemic. Few studies have been performed on viral transmission during surgery. No study has been made regarding this area during minimally invasive urology cases. To date there is no study that demonstrates or can suggest the ability for a virus to be transmitted during surgical treatment whether open, laparoscopic or robotic. There is no society consensus on restricting laparoscopic or robotic surgery. However, there is expert consensus on modification of standard practices to minimize any risk of transmission. During the pandemic COVID19 we recommend the use of specific personal protective equipment for the surgeon, anesthesiologist and nursing staff in the operating room. Modifications of standard practices during minimally invasive surgery such as using lowest intra-abdominal pressures possible, controlled smoke evacuation systems, and minimizing energy device usage are recommended.

Actualidad y tendencias de la cirugía gastrointestinal robótica / Current news and trends in gastrointestinal robotic surgery

Resumen La cirugía ha pasado de ser una ciencia rudimentaria caracterizada por el padecimiento de insufribles dolores por falta de anestésicos, de realizarse en lugares poco acondicionados y de utilizarse instrumental poco ortodoxo con consecuencias nefastas para el desenlace de los procedimientos debido principalmente a las infecciones, a ser un campo desarrollado donde la tecnología juega un rol trascendental para el objetivo final que es el bienestar del paciente. En las últimas décadas, la cirugía ha pasado del acceso abierto al laparoscópico, cirugía por orificios naturales (NOTES), cirugía laparoscópica de puerto único, hasta la cirugía robótica. Es un hecho que estamos en un momento de la historia de la humanidad en el cual el desarrollo de las tecnologías a cambiado nuestra vida cotidiana, así como también el de nuestra practica quirúrgica diaria y no podemos ser ajenos a esta. El propósito de esta revisión es mostrar la situación actual de la cirugía robótica gastrointestinal y sus perspectivas a futuro. Para esto se realizó una búsqueda en la base de datos medline con las palabras claves "review robotic surgery, robotic digestive surgery, robotic bariatric surgery, robotic esophagectomy, robotic gastrectomy, robotic hepatectomy, robotic pancreatectomy, robotic hernia repair". Además una búsqueda de datos en la web sobre "intutive investorpresentation, future of robotic surgery, digital surgery, new robotic system in surgery, trends in robotic surgery".

It is a fact that we are at a moment in the history of humanity in which the development of technologies has changed our daily lives, as well as that of our daily surgical practice. The fast evolution in technology has allowed surgery to evolve from a rudimentary science characterized by painful, highly invasive procedures, to a rapidly developing and precise field with ever improving patient outcomes. In recent decades, gastrointestinal surgery has gone from open access to laparoscopy, natural orifice transluminal endoscopic surgery (NOTES), single-port laparoscopic surgery, and more recently, robotic assisted surgery. The purpose of this review is to show the current situation of robotic gastrointestinal surgery and its future prospects. A literature review was conducted in the Medline database with the keywords "revision of robotic surgery, robotic digestive surgery, bariatric robotic surgery, robotic esophagectomy, robotic gastrectomy, robotic hepatectomy, robotic pancreatectomy, robotic hernia repair". In addition, online search engine data was conducted using the following key words "intutive investor presentation, future of robotic surgery, digital surgery, new robotic system in surgery, trends in robotic surgery"

New trends in translational microsurgery.

Technological advances such as optical instruments and surgical tools have enabled the considerable contributions of microsurgery to surgical therapies. Accordingly, surgical therapeutics has provided the latest information across a wide range of medical specialties, including immunology and pharmacology, despite specialization according to organs and organ systems. The International Society for Experimental Microsurgery, an academic organization, has utilized experimental microsurgery technology in the identification of curative concepts for diseases that remain difficult to treat. For this publication to mark the 32nd anniversary of the Brazilian Surgical Society, I introduced the following types of technology related to the further development of microsurgical technological innovations in the future: high-resolution three-dimensional (3D) video and touch-sensitive microsurgery robots.

New trends in translational microsurgery

Abstract Technological advances such as optical instruments and surgical tools have enabled the considerable contributions of microsurgery to surgical therapies. Accordingly, surgical therapeutics has provided the latest information across a wide range of medical specialties, including immunology and pharmacology, despite specialization according to organs and organ systems. The International Society for Experimental Microsurgery, an academic organization, has utilized experimental microsurgery technology in the identification of curative concepts for diseases that remain difficult to treat. For this publication to mark the 32nd anniversary of the Brazilian Surgical Society, I introduced the following types of technology related to the further development of microsurgical technological innovations in the future: high-resolution three-dimensional (3D) video and touch-sensitive microsurgery robots.

30 Years of Robotic Surgery.

The idea of reproducing himself with the use of a mechanical robot structure has been in man's imagination in the last 3000 years. However, the use of robots in medicine has only 30 years of history. The application of robots in surgery originates from the need of modern man to achieve two goals: the telepresence and the performance of repetitive and accurate tasks. The first "robot surgeon" used on a human patient was the PUMA 200 in 1985. In the 1990s, scientists developed the concept of "master-slave" robot, which consisted of a robot with remote manipulators controlled by a surgeon at a surgical workstation. Despite the lack of force and tactile feedback, technical advantages of robotic surgery, such as 3D vision, stable and magnified image, EndoWrist instruments, physiologic tremor filtering, and motion scaling, have been considered fundamental to overcome many of the limitations of the laparoscopic surgery. Since the approval of the da Vinci(®) robot by international agencies, American, European, and Asian surgeons have proved its factibility and safety for the performance of many different robot-assisted surgeries. Comparative studies of robotic and laparoscopic surgical procedures in general surgery have shown similar results with regard to perioperative, oncological, and functional outcomes. However, higher costs and lack of haptic feedback represent the major limitations of current robotic technology to become the standard technique of minimally invasive surgery worldwide. Therefore, the future of robotic surgery involves cost reduction, development of new platforms and technologies, creation and validation of curriculum and virtual simulators, and conduction of randomized clinical trials to determine the best applications of robotics.

Single port radical prostatectomy: current status.

The aim of this study is to analyze the current literature on single port radical prostatectomy (LESS-RP). Single port radical prostatectomy laparoendoscopic (LESS-RP) has established itself as a challenge for urological community, starting with the proposal of different approaches: extraperitoneal, transperitoneal and transvesical, initially described for laparoscopy and then laparoscopy robot-assisted. In order to improve the LESS-RP, new instruments, optical devices, trocars and retraction mechanisms have been developed. Advantages and disadvantages of LESS-RP are controversial, while some claim that it is a non-trustable approach, regarding the low cases number and technical difficulties, others acclaim that despite this facts some advantages have been shown and that previous described difficulties are being overcome, proving this is novel proposal of robotics platform, the Da Vinci SP, integrating the system into "Y". The LESS-RP approach gives us a new horizon and opens the door for rapid standardization of this technique. The few studies and short series available can be result of a low interest in the application of LESS-RP in prostate, probably because of the technical complexity that it requires. The new robotic platform, the da Vinci SP, shows that it is clear that the long awaited evolution of robotic technologies for laparoscopy has begun, and we must not lose this momentum.

Cirugía transoral robótica en otorrinolaringología / Transoral robotic surgery in otolaryngology

La cirugía robótica constituye uno de los avances más novedosos de la medicina de las últimas décadas y el que ha sido más beneficioso para los pacientes. Su aporte fue fundamental para diferentes procedimientos quirúrgicos, al agilizar la cirugía y aumentar su precisión. Actualmente, su utilización en las diferentes especialidades médicas, como la cirugía de cabeza y cuello, permite realizar abordajes mínimamente invasivos, evitando las grandes incisiones externas y reduciendo de esta manera la morbilidad y el tiempo de internación. (AU)

Robotic surgery is one of the advances of medicine in recent decade that has been more novel and beneficial to patients. Its contribution was very important to different surgical procedures, decreasing surgical time and increasing its accuracy. Currently, its use in different medical specialties, such as head and neck surgery, allows minimally invasive approaches, avoiding large external incisions, thereby reducing morbidity and length of stay. (AU)

Evolving endoscopic surgery.

Since the days of Albukasim in medieval Spain, natural orifices have been regarded not only as a rather repugnant source of bodily odors, fluids and excreta, but also as a convenient invitation to explore and treat the inner passages of the organism. However, surgical ingenuity needed to be matched by appropriate tools and devices. Lack of technologically advanced instrumentation was a strong deterrent during almost a millennium until recent decades when a quantum jump materialized. Endoscopic surgery is currently a vibrant and growing subspecialty, which successfully handles millions of patients every year. Additional opportunities lie ahead which might benefit millions more, however, requiring even more sophisticated apparatuses, particularly in the field of robotics, artificial intelligence, and tissue repair (surgical suturing). This is a particularly exciting and worthwhile challenge, namely of larger and safer endoscopic interventions, followed by seamless and scarless recovery. In synthesis, the future is widely open for those who use together intelligence and creativity to develop new prototypes, new accessories and new techniques. Yet there are many challenges in the path of endoscopic surgery. In this new era of robotic endoscopy, one will likely need a virtual simulator to train and assess the performance of younger doctors. More evidence will be essential in multiple evolving fields, particularly to elucidate whether more ambitious and complex pathways, such as intrathoracic and intraperitoneal surgery via natural orifice transluminal endoscopic surgery (NOTES), are superior or not to conventional techniques.