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Melbourne, Australia
11-50 Employees
2021
Anthony (Tony) Costello AM MD FRACS FRCSI Hon MB BS is an Australian trained surgeon formerly head of the Department of Urology Royal Melbourne Hospital (1999 – 2020) and remains Professorial Fellow at the University of Melbourne Department of Surgery. After his Australian surgical fellowship Tony trained as a fellow in urologic oncology at MD Anderson University of Texas Houston and subsequently trained in urologic oncology, reconstructive urology, kidney transplant and trauma surgery at the University of London Royal London Hospital. He began his career serving in the US Military, serving as an Airbourne Ranger in the US Army’s elite 75th Ranger Regiment. Adam Spent 8.5 years as the Vice President of Clinical Sales for Intuitive Surgical, leading the Western US market. The experience at Intuitive provided a very broad knowledge of the robotic surgery business. Has a strong passion for improving safety, quality and outcomes in surgery and in surgical education. Andrew is an experienced consultant in public and private sectors in roles as project director, manager and researcher in environmental science and heritage.
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Robotic Surgery Evolution Limited
... Robotic Surgery Evolution ...
Carpi, Italy
1-10 Employees
Brausi, the most important randomized trial in robotic surgery for radical cystectomy is a Phase III study carried out at the Memorial Sloan Kettering Cancer Center in New York, NY (NCT01076387).
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Robotic surgery in Uro-oncology
... Robotic surgery in Uro- ...
United States
11-50 Employees
2012
Series C financing to support regulatory process and initial market entry of the Levita® MARS™ platform designed to make robotic surgery accessible for all. Our ultimate goal is to globally increase the ability of surgeons and hospitals to provide more patients access to better surgical procedures within their communities. Twenty-five years of product development and operations experience. Leadership roles at Verily Life Sciences (founding member), Google[x], Google, Acclarent/JnJ, and Guidant/Boston Scientific. Held leadership roles in engineering and manufacturing at Heartport, Johnson & Johnson, Concentric Medical and Stryker Neurovascular.
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Introducing the Levita Robotic Surgery Platform
... World's First Magnetic Robotic-Assisted Surgeries Performed with Levita Magnetics' Newest ...
Los Altos, United States
11-50 Employees
Duluth Medical Technologies Inc. a USA Delaware registered corporation was founded to develop a wide range of intelligent, agile, affordable robots, targeting medical surgical applications, to improve patient care.Leveraging years of expertise in life sciences and device/robotic technologies, Duluth is actively promoting initiatives to improve patient's care and lower costs. Duluth is collaborating on clinical data exchange in terms of CT Scans, MRI Scans and Arthroscopy, Arthroplasty videos with several US and International hospitals.
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Duluth Medical Technologies: A USA Silicon Valley Based Robotic Surgery Device Company
... Duluth Medical Technologies: A USA Silicon Valley Based Robotic Surgery Device Company ...
Old Toronto, Canada
1-10 Employees
2019
We are currently at SAGES 2023 - Montreal.
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Value-based Care for Robotic Surgery
... Value-based Care for Robotic Surgery ...
Bengaluru, India
11-50 Employees
2018
Nassir Navab is the Director of the Computer Aided Medical Procedures (CAMP) and augmented reality research team at both Technical University of Munich and Johns Hopkins University.
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Surgical Intervention | PCNL | Robotics | Protect +PPE Kit | SF1 Safety Kit - Comofi Medtech
... Robotic Surgery ...
Houston, United States
11-50 Employees
2017
Endoluminal and single-incision surgery are the next frontiers of minimally invasive surgery performed through a transumbilical incision or via the body's natural orifices, including transoral and transanal. This revolutionary approach minimizes external incisions and associated complications, in contrast to conventional open, laparoscopic or robotic surgery, which require incisions through healthy tissue to access the site of surgical intervention. Learn more about the Next Generation of Robotic Surgery. Contact Us | Privacy Policy | Terms of Use | Patent Notice. The Endoluminal Robotic Surgical System is under development, has not been cleared by the FDA and is not for commercial sale in the United States.
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Introducing the World's First Flexible Robotic Surgery System
... Introducing the World's First Flexible Robotic Surgery ...
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Private Hip / Knee Replacement Surgeon - Yorkshire Hip Clinic
... Robotic Surgery ...
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Remote Robotic Surgery Solution | Sovato Health
... By 2030, an estimated 45M+ procedures will be eligible for robotic surgery—and capable of being performed remotely. ...
Épalinges, Switzerland
51-100 Employees
2012
At Distalmotion, we aim to deliver the benefits of robotic surgery to more surgeons, more hospitals, and more patients globally. Our vision is to establish a new standard of care, removing the complexity of robotics to ensure everyone has access to best-in-class minimally invasive surgery. We are a team of over 130 members with more than 15 nationalities, all committed to bringing patients the best in minimally invasive surgical care. Distalmotion was founded in 2012 as a spin-off from the Robotics Lab of the Swiss Federal Institute of Technology in Lausanne (EPFL). We at Distalmotion aim to deliver the benefits of robotic surgery to more surgeons, more hospitals, and more patients globally, establishing a new standard of care. Together with over 50 trusted surgical teams and backed by several investors with a deep understanding of medical devices, we developed Dexter, the world’s first on-demand robotic surgery system, giving surgeons ultimate choice and control in minimally invasive surgery. Dexter continues to be designed and manufactured in Switzerland, guaranteeing the highest level of quality and performance. On-demand robotics provides surgeons with ultimate choice and control to treat patients with best-in-class minimally invasive care.
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Featured
About UsEnabling Access to Robotic Surgery
... About UsEnabling Access to Robotic Surgery ...
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Some interesting numbers and facts about the results you have just received for Robotic Surgery
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 127 |
| Amount of suitable service providers | 241 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 2012 |
| Youngest suiting company | 2021 |
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Robotic surgery represents a sophisticated form of minimally invasive surgical procedure, wherein surgeons utilize robotic systems to perform complex tasks with enhanced precision, flexibility, and control beyond the capabilities of conventional techniques. Central to this technological marvel is a console operated by the surgeon, who manipulates specialized instruments attached to robotic arms, allowing for intricate operations through tiny incisions. This method is augmented by a high-definition, three-dimensional view of the surgical site, offering unprecedented clarity and detail. The role of robotic surgery within the medical field is transformative, significantly reducing the patient's recovery time, minimizing scarring, and lowering the risk of infection compared to open surgery. Its impact is most notable in urology, gynecology, and cardiothoracic surgery, among other specialties, where precision and minimal physical intrusion are paramount. Moreover, the integration of robotic surgery into healthcare has paved the way for advancements in surgical techniques and outcomes, setting a new standard for patient care. As this technology continues to evolve, its adoption and application are expected to expand, further revolutionizing the landscape of surgical procedures and enhancing the overall quality of medical treatment.
1. Enhanced Precision
Robotic surgery systems offer surgeons unparalleled control, allowing for movements that are more precise than the human hand. This high level of accuracy is crucial for complex procedures, reducing the risk of complications and enhancing patient outcomes.
2. Minimized Invasiveness
With robotic surgery, operations are performed through much smaller incisions compared to traditional methods. This minimally invasive approach significantly reduces the patient's recovery time, lessens post-operative pain, and decreases the likelihood of infection.
3. Improved Visualization
Robotic systems are equipped with high-definition, 3D cameras that provide surgeons with a clear and magnified view of the surgical site. This superior visualization aids in more accurate and efficient surgeries, further improving patient safety and results.
4. Greater Range of Motion
The robotic arms can rotate and bend far beyond the capabilities of the human wrist. This extended range of motion allows surgeons to operate in tight spaces within the body that would otherwise be difficult or impossible to access with conventional tools.
While evaluating the different suppliers make sure to check the following criteria:
1. Technical Expertise and Experience
Ensure the supplier has a proven track record in robotic surgery technology, with experienced engineers and medical professionals in their team.
2. Quality and Safety Certifications
Check for relevant certifications such as ISO 13485 for medical devices, which ensures compliance with regulatory standards.
3. Robotic System Features
Evaluate the technical capabilities of the robotic system, including precision, flexibility, and ease of use. Advanced features like 3D visualization and instrument dexterity are crucial.
4. Training and Support
Confirm the supplier offers comprehensive training programs for your surgical team and ongoing technical support.
5. Cost-Effectiveness
Consider not only the initial purchase price but also long-term costs including maintenance, software updates, and customer service.
6. Innovation and Research
Assess the supplier's commitment to innovation and their involvement in ongoing research to ensure future upgrades and improvements in robotic surgery technology.
Robotic surgery, a pinnacle of medical technology, extends its utility beyond healthcare into several B2B sectors. In the pharmaceutical industry, companies leverage robotic surgery for precise and replicable procedures during drug testing phases. This approach ensures high accuracy in results, minimizing human error and streamlining the development of new medications. In the field of medical device manufacturing, businesses use robotic surgery as a testbed for their products. Through collaborations with healthcare providers, they gain invaluable feedback on device performance and usability in real-world surgical settings. This symbiotic relationship accelerates innovation and enhances product safety and effectiveness before market launch. Moreover, educational institutions and training centers incorporate robotic surgery into their curriculums. By providing hands-on experience with cutting-edge technology, they prepare the next generation of surgeons for the complexities of modern surgical procedures. This use case not only elevates the quality of medical education but also fosters a culture of continual learning and improvement in surgical practices. Lastly, in the realm of healthcare consultancy, experts analyze data generated from robotic surgeries to identify trends, efficiencies, and areas for improvement. This analysis helps hospitals and clinics optimize their surgical departments, improving patient outcomes while reducing costs. The consultancy role underscores the importance of data-driven decision-making in enhancing healthcare services.
Robotic surgery has achieved a Technology Readiness Level (TRL) of 9, indicating that it has been fully deployed and is in operational use. This high TRL is a result of extensive research, development, and testing phases, which have culminated in the integration of these systems into everyday surgical practices. The technical sophistication of robotic surgery systems, including advanced 3D visualization, enhanced dexterity, and precision through miniaturized instruments, has significantly improved outcomes for a wide range of procedures. These systems have demonstrated their reliability and efficacy across numerous operations, from minimally invasive surgeries to complex procedures, thereby validating their operational readiness. The refinement of haptic feedback mechanisms and the incorporation of artificial intelligence for improved decision-making support further solidify the position of robotic surgery at this apex TRL. Continuous improvements and the successful navigation through rigorous regulatory approvals have also been instrumental in achieving this level of readiness, ensuring that robotic surgery technologies meet the highest standards of safety and effectiveness. This comprehensive development pathway underscores the technical and operational maturity of robotic surgery, marking it as a cornerstone in modern surgical practices.
In the short term, advancements in robotic surgery are expected to focus on enhancing precision and reducing invasiveness. The integration of artificial intelligence (AI) for real-time data analysis will likely play a pivotal role, enabling surgical robots to adjust techniques dynamically for improved outcomes. Additionally, the development of more compact and flexible robotic arms will allow for their use in a wider range of procedures, broadening the technology's applicability. Over the mid-term, we anticipate the introduction of fully autonomous robotic systems capable of performing simple surgical tasks without direct human oversight. This period will also witness significant improvements in haptic feedback technology, providing surgeons with a more intuitive sense of touch during remote operations. These innovations will not only expand the scope of robotic surgery but also enhance the training and simulation environments, preparing the next generation of surgeons with unprecedented precision and skill. In the long term, the convergence of robotic surgery with other emerging technologies such as nanotechnology and augmented reality (AR) is expected to revolutionize the field. Robotic systems may be deployed for in vivo diagnostics and treatment at the cellular level, offering minimally invasive options for diseases currently requiring extensive surgery. Furthermore, AR integration will offer real-time, 3D visualizations of the surgical field, enhancing the surgeon's spatial awareness and decision-making capabilities. This era of robotic surgery will be characterized by its ability to offer personalized, efficient, and highly precise surgical interventions.
Some interesting questions that has been asked about the results you have just received for Robotic Surgery
What are related technologies to Robotic Surgery?
Based on our calculations related technologies to Robotic Surgery are Big Data, E-Health, Retail Tech, Artificial Intelligence & Machine Learning, E-Commerce
Who are Start-Ups in the field of Robotic Surgery?
Start-Ups who are working in Robotic Surgery are Robotic Surgery Evolution Ltd
Which industries are mostly working on Robotic Surgery?
The most represented industries which are working in Robotic Surgery are Health Care, Others, Science and Engineering, Hardware, Software
How does ensun find these Robotic Surgery Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
