A Historical Review of Medical Robotic Platforms

This paper provides a brief history of medical robotic systems. Since the first use of robots in medical procedures, there have been countless companies competing to developed robotic systems in hopes to dominate a field. Many companies have succeeded, and many have failed. This review paper shows the timeline history of some of the old and most successful medical robots and new robotic systems. As the patents of the most successful system, i.e., Da Vinci® Surgical System, have expired or are expiring soon, this paper can provide some insights for new designers and manufacturers to explore new opportunities in this field.

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A Scoping Review of Emerging and Established Surgical Robotic Platforms With Applications in Urologic Surgery

Société Internationale d’Urologie Journal ◽

10.48083/ewwq2677 ◽

2021 ◽

pp. 300-310

Author(s):

Braden Millan ◽

Shavy Nagpal ◽

Maylynn Ding ◽

Jason Y. Lee ◽

Anil Kapoor

Keyword(s):

Da Vinci ◽

Da Vinci Surgical System ◽

Pubmed Central ◽

Urologic Surgery ◽

Additional Information ◽

Surgery Research ◽

Robotic Platforms ◽

Distinct Features ◽

Vinci Surgical System ◽

Surgical System

Objectives Since the introduction of the first master–slave robotic platform for surgical procedures, there have been ongoing modifications and development of new platforms, but there is still a paucity of commercially available systems. Our study aims to identify all master–slave robotic surgical platforms currently commercially available or in development around the world with applications in urologic surgery. Methods A scoping literature search was performed using PRISMA methodology to identify all relevant publications in English in PubMed, PubMed Central, and Embase, with additional information being obtained from official company websites. Results Ten robotic platforms with either proven or potential application in urologic surgery were identified: the da Vinci surgical system (Intuitive), Senhance surgical system (Transentrix), Versius Surgical (CMR Ltd), Enos surgical system (Titan Medical), Revo –I (Meere Company), MiroSurge (DLR), Avatera System (Avatera Medical), Hugo Surgical Robot (Medtronic), Ottava (J&J, Ethicon, Areus), and Hinotori (Medicaroid Corporation). Conclusions This review highlights the distinct features of emerging master–slave robotic platforms with applications in urologic surgery. Research and development are now focused on finding wider applications, improving outcomes, increasing availability, and reducing cost. Additional research is required comparing newly developed master–slave robotic platforms with those already well established.

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From Illusion to Reality: A Brief History of Robotic Surgery

Surgical Innovation ◽

10.1177/1553350618771417 ◽

2018 ◽

Vol 25 (3) ◽

pp. 291-296 ◽

Cited By ~ 16

Author(s):

Marco Vito Marino ◽

Galyna Shabat ◽

Gaspare Gulotta ◽

Andrzej Lech Komorowski

Keyword(s):

Robotic Surgery ◽

Da Vinci ◽

Historical Review ◽

Leonardo Da Vinci ◽

Greek Mythology ◽

Surgical Robots ◽

History Of ◽

Critical Phases ◽

And Training ◽

Current Popularity

Purpose. Robotic surgery is currently employed for many surgical procedures, yielding interesting results. Methods. We performed an historical review of robots and robotic surgery evaluating some critical phases of its evolution, analyzing its impact on our life and the steps completed that gave the robotics its current popularity. Results. The origins of robotics can be traced back to Greek mythology. Different aspects of robotics have been explored by some of the greatest inventors like Leonardo da Vinci, Pierre Jaquet-Droz, and Wolfgang Von-Kempelen. Advances in many fields of science made possible the development of advanced surgical robots. Over 3000 da Vinci robotic platforms are installed worldwide, and more than 200 000 robotic procedures are performed every year. Conclusion. Despite some potential adverse events, robotic technology seems safe and feasible. It is strictly linked to our life, leading surgeons to a new concept of surgery and training.

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Comparison of Perioperative Outcomes Using the da Vinci S, Si, X, and Xi Robotic Platforms for BABA Robotic Thyroidectomy

Medicina ◽

10.3390/medicina57101130 ◽

2021 ◽

Vol 57 (10) ◽

pp. 1130

Author(s):

Hye Rim Shin ◽

Keunchul Lee ◽

Hyeong Won Yu ◽

Su-jin Kim ◽

Young Jun Chai ◽

...

Keyword(s):

Retrospective Study ◽

Standard Method ◽

Da Vinci ◽

Operation Time ◽

Robotic Thyroidectomy ◽

Robotic Systems ◽

Perioperative Outcomes ◽

Da Vinci Xi ◽

Cosmetic Results ◽

Robotic Platforms

Background and Objectives: Robotic thyroidectomy via the bilateral axillo-breast approach (BABA), first introduced in Korea in 2008, has become a standard method of thyroid removal worldwide. The introduction of robotic surgical systems has enabled more patients to benefit from BABA robotic thyroidectomy, with good postoperative and excellent cosmetic results. To date, no studies have compared the benefits of the four currently available da Vinci robotic systems (S, Si, X, and Xi) for BABA robotic thyroidectomy. To determine the da Vinci model most suitable for BABA robotic thyroidectomy, the present study compared the perioperative outcomes in patients who underwent BABA robotic thyroidectomy using the four da Vinci models. Materials and Methods: This retrospective study evaluated outcomes in patients (n = 750) who underwent BABA robotic thyroidectomy using the four da Vinci systems from 2013 to 2019. The clinicopathologic data, including operation time, were compared. Substudy A compared the da Vinci models S and Si from 2013 to 2017, and substudy B compared models Si, X, and Xi from 2018 to 2019. Results: Substudy A, comparing the da Vinci S and Si systems, found no statistically significant differences between the two groups, whereas substudy B found that operation time was shorter in patients who underwent BABA robotic thyroidectomy with the da Vinci Xi system than with the Si and X systems. Conclusions: The da Vinci model Xi system can benefit patients undergoing BABA robotic thyroidectomy by shortening the operation time.

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Robotic and robot-assisted skull base neurosurgery: systematic review of current applications and future directions

Neurosurgical FOCUS ◽

10.3171/2021.10.focus21505 ◽

2022 ◽

Vol 52 (1) ◽

pp. E15

Keyword(s):

Systematic Review ◽

Skull Base ◽

Da Vinci ◽

3D Visualization ◽

Robotic Systems ◽

Da Vinci Surgical System ◽

Neurosurgical Procedures ◽

Robotic Endoscope ◽

Vinci Surgical System ◽

Surgical System

OBJECTIVE The utility of robotic instrumentation is expanding in neurosurgery. Despite this, successful examples of robotic implementation for endoscopic endonasal or skull base neurosurgery remain limited. Therefore, the authors performed a systematic review of the literature to identify all articles that used robotic systems to access the sella or anterior, middle, or posterior cranial fossae. METHODS A systematic review of MEDLINE and PubMed in accordance with PRISMA guidelines performed for articles published between January 1, 1990, and August 1, 2021, was conducted to identify all robotic systems (autonomous, semiautonomous, or surgeon-controlled) used for skull base neurosurgical procedures. Cadaveric and human clinical studies were included. Studies with exclusively otorhinolaryngological applications or using robotic microscopes were excluded. RESULTS A total of 561 studies were identified from the initial search, of which 22 were included following full-text review. Transoral robotic surgery (TORS) using the da Vinci Surgical System was the most widely reported system (4 studies) utilized for skull base and pituitary fossa procedures; additionally, it has been reported for resection of sellar masses in 4 patients. Seven cadaveric studies used the da Vinci Surgical System to access the skull base using alternative, non–TORS approaches (e.g., transnasal, transmaxillary, and supraorbital). Five cadaveric studies investigated alternative systems to access the skull base. Six studies investigated the use of robotic endoscope holders. Advantages to robotic applications in skull base neurosurgery included improved lighting and 3D visualization, replication of more traditional gesture-based movements, and the ability for dexterous movements ordinarily constrained by small operative corridors. Limitations included the size and angulation capacity of the robot, lack of drilling components preventing fully robotic procedures, and cost. Robotic endoscope holders may have been particularly advantageous when the use of a surgical assistant or second surgeon was limited. CONCLUSIONS Robotic skull base neurosurgery has been growing in popularity and feasibility, but significant limitations remain. While robotic systems seem to have allowed for greater maneuverability and 3D visualization, their size and lack of neurosurgery-specific tools have continued to prevent widespread adoption into current practice. The next generation of robotic technologies should prioritize overcoming these limitations.

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Robotic Surgery in Gastrointestinal Surgery

Cyborg and Bionic Systems ◽

10.34133/2020/9724807 ◽

2020 ◽

Vol 2020 ◽

pp. 1-7

Author(s):

Kenoki Ohuchida

Keyword(s):

Robotic Surgery ◽

Gastrointestinal Cancer ◽

Da Vinci ◽

Gastrointestinal Surgery ◽

Robotic Systems ◽

Robot Assisted ◽

Invasive Treatment ◽

Current State ◽

Surgical System ◽

Robot Assisted Surgery

Robotic surgery is expanding in the minimally invasive treatment of gastrointestinal cancer. In the field of gastrointestinal cancer, robotic surgery is performed using a robot-assisted surgery system. In this system, the robot does not operate automatically but is controlled by the surgeon. The surgery assistant robot currently used in clinical practice worldwide is the leader-follower type, including the da Vinci® Surgical System (Intuitive Surgical). This review describes the current state of robotic surgery in the treatment of gastrointestinal cancer and discusses the future development of robotic systems in gastrointestinal surgery.

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