Robotics Report

The robotic surgery market will reach over $12 billion by 2030

Innovations in Robotic Surgery 2020-2030: Technologies, Players & Markets

Robotic general surgery, robotic catheter and endoscope navigation, robotic positioning of surgical tools, robotic systems for intra-operative camera manipulation, artificial intelligence in robotic surgery, haptic feedback mechanisms in robotic surgery

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For centuries, large incisions were the only way to provide surgeons with a full view of the organ they needed to treat. Recovery time for such a taxing procedure is extensive and post-operative complications are a common occurrence. The introduction of minimally invasive surgery (MIS) in operating theatres has drastically improved patient outcomes. Smaller incisions reduce the risk of infection and accelerate recovery. Many studies have shown that MIS procedures result in decreased post-operative hospital stays, a quicker return to the workforce, decreased pain and better immune function.
As attractive as MIS is, there are several drawbacks due to the technical and mechanical nature of the equipment. These limitations make minimally invasive procedures more challenging, reduce their efficiency and increase operating time.
Robotic surgery was developed to overcome the limitations of MIS and to expand its benefits. It is classified as a type of MIS and involves the use of robotic systems to execute surgical procedures. Although it has been around for over thirty years, robotic surgery is still in its infancy. The market is currently in a rapid state of expansion, however, as it has welcomed dozens of new companies in the last decade. The range of technologies, uses and applications of robotic surgery widens with each new entrant. This field is evolving at a considerable pace and is showing no signs of slowing down. Within the last five years, interest in robotic surgery has soared. Investments in companies operating in this space have skyrocketed since 2016, recording an increase of over 300% in three years, and total investment to date has reached $1.36 billion.
History of robotic surgery: an overview
Source: IDTechEx Report "Innovations in Robotic Surgery 2020-2030"
This report breaks down the robotic surgery market into four main sectors:
• Robotic general surgery
• Robotic catheter and endoscope navigation
• Robotic positioning of surgical tools
• Robotic systems for intra-operative camera manipulation
Sectors covered in this report
Source: IDTechEx Report "Innovations in Robotic Surgery 2020-2030"
General surgery is perhaps the best known aspect of robotic surgery due to the presence of Intuitive Surgical, the most famous surgical robot company, in this space. Intuitive Surgical's control on the market has forced the diversification of surgical robots as companies are keen to set themselves apart. There are multiple sectors within general surgery in which the company is not active and other manufacturers have targeted in order to distinguish themselves and their technology.
Medical instruments like catheters are widely used to conduct an intervention within the heart or blood vessels. Catheter ablation procedures require the wire to be pushed manually and expose surgeons to harmful X-ray radiation. Robotic systems discussed in this report may eliminate the need to manually manipulate the wire. This could greatly improve patient outcomes by increasing the speed and efficiency of the intervention. Surgeons could be in another room or a different city, controlling the device with a joystick, thereby reducing the level of radiation inflicted on them.
Robotic systems are increasingly being used to facilitate and optimise the positioning of instruments and tools during surgery. They have proven value in orthopaedic and neurosurgery procedures and are being explored as means to improve laser therapy and biopsy outcomes as well. These systems facilitate operating room workflows by ensuring that surgical tools are inserted at the appropriate angle and depth. The level of precision required often can't be achieved by humans, who are prone to involuntary tremors.
Robotic systems for intra-operative camera manipulation are crucial in surgical procedures as they enable surgeons to see the surgical site and their actions within the patient. They provide a stable view of the operating area, avoiding tremors and other disadvantages that occur when the laparoscope is held by a human. These systems negate the need for an assistant, which reduces the cost of surgery.
The report explores emerging technologies, highlights key players and provides market analysis for each sector. It only covers robots that are directly involved in performing surgical procedures. For instance, robotic systems designed for pre-operative planning purposes only (i.e.: not used intra-operatively) are not included. In the context of this report, the term surgery refers to minimally invasive surgery. Open surgery is not discussed as robotic systems are rarely used in these procedures. The focus is on disease diagnosis, management and treatment. Therefore, robots performing biopsies are included. However, fields such as robotic cosmetic, hair or dental surgery are not discussed. The report also excludes rehabilitation and physiotherapy robots as they do not perform surgery. The report also includes a description of the use of artificial intelligence (AI) and haptic feedback in robotic surgery today.
Historical revenue data (2015-2019) for each sector and the key players within them is provided in this report. Forecasts predicting the size of each market in the next decade (2020-2030) are also included. The ten year forecasts are built on information derived from company interviews, financial reports and press releases, among other sources. Parameters used to calculate values include size of the company, product range, number of units sold and pricing. Other factors such as competitive landscape, access to new entrants and regulatory frameworks were used to extrapolate data for the next decade. The report also provides information such as historical revenue data, market drivers & constraints and investments/funding in each sector.
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Table of Contents
1.1.Report scope
1.2.Sectors of robotic surgery covered in this report
1.3.Drivers of the surgical robots market
1.4.Why use robotic surgery?
1.5.Limitations & barriers to adoption
1.6.Mergers & acquisitions in the robotic surgery space
1.7.Investments into robotic surgery companies
1.8.Intuitive Surgical - Key numbers
1.9.Robotic general surgery - Emerging competitors of da Vinci
1.10.Conclusions and outlook - Robotic general surgery
1.11.Robotic catheter and endoscope navigation
1.12.Conclusions and outlook - Robotic catheter navigation
1.13.Robotic positioning of surgical tools
1.14.Conclusions and outlook - Robotic positioning of surgical tools
1.15.Robotic intra-operative camera manipulation
1.16.Conclusions and outlook - Robotic intra-operative camera manipulation
1.17.Market Analysis 2015-2030
1.18.Report summary
1.19.Robotic surgery's multiple benefits have fuelled its rise
1.20.Inherent limitations and conceptual flaws have blocked it
1.21.Competing directly with Intuitive Surgical is highly risky
1.22.Where do the market opportunities lie?
1.23.Does the concept of remote surgery live up to the hype?
1.24.Opportunities for improvement
2.1.Report scope
2.2.Open surgery
2.3.Minimally invasive surgery considerably improves recovery time
2.4.Keyhole surgery has non-negligible limitations
2.5.What is robotic surgery?
2.6.History of robotic surgery: an overview
2.7.Early history of robotic surgery
2.8.What operations are surgical robots used for?
2.9.Drivers of the surgical robots market
2.10.Why use robotic surgery?
2.11.Robotic surgery provides enhanced vision
2.12.Limitations & barriers to adoption
2.13.Why are surgical robots so expensive to purchase?
2.14.Regulations & path to market: EU
2.15.Regulations & path to market: USA
2.16.Mergers & acquisitions in the robotic surgery space
2.17.Investments into robotic surgery companies
2.18.Sectors of robotic surgery covered in this report
3.1.How does robotic general surgery work?
3.2.Flexible robotic end effectors
3.3.Types of procedures performed by general surgery robots
3.4.Investments into robotic general surgery companies
3.5.Intuitive Surgical - The pioneer of robotic surgery
3.6.Intuitive Surgical - Key numbers
3.7.da Vinci Surgical System
3.8.Approved procedures for da Vinci
3.9.Virtual simulations for robotic surgery training
3.10.Emerging competitors of da Vinci
3.11.Following the da Vinci approach
3.12.Example: TransEnterix
3.13.Example: Avatera
3.14.Example: CMR Surgical
3.15.Example: Titan Medical
3.16.Example: Medtronic
3.17.Flexible arms
3.18.Example: Medrobotics
3.19.Example: Korea Advanced Institute of Science and Technology (KAIST)
3.20.Wearable robotic tool for surgery
3.21.Downsizing surgical robots
3.22.Example: Virtual Incision
3.23.Example: Hong Kong Polytechnic University
3.24.Example: Microsure
3.25.Combining conventional and robotic general surgery
3.26.Example: Galen Robotics
3.27.Example: Distalmotion
3.28.Example: Preceyes
3.29.Handheld, mechanical instruments as an alternative to computer-aided surgery
3.30.Example: FlexDex Surgical
3.31.Example: Human Xtensions
3.32.State of development of robotic general surgery systems
3.33.Summary and outlook
4.1.What are catheters and endoscopes?
4.2.Robotic navigation of medical instruments
4.3.Advantages of robotic navigation systems
4.4.Types of intervention
4.5.How does the wire move?
4.6.Investments into robotic catheter navigation companies
4.7.Key players
4.8.Intuitive Surgical
4.9.Example: Auris Health
4.10.Corindus Vascular Robotics
4.12.Moray Medical
4.13.Autonomous active steering: Fraunhofer IPA
4.14.Autonomous active steering: Harvard Medical School
4.15.Magnetic steering
4.16.Magnetic steering: Stereotaxis
4.17.Magnetic steering: Massachusetts Institute of Technology
4.18.Magnetic steering: Polytechnique Montréal
4.19.State of development of robotic catheter navigation systems
4.20.Summary and outlook
5.1.Robotic guidance and positioning
5.2.Investments into robotic instrument positioning companies
5.3.Sectors and key players
5.4.Robotic orthopaedic surgery
5.5.Key components of robotic orthopaedic systems
5.6.Pre-operative software for procedure planning
5.7.Robotic arm holding the instrument
5.8.3D cameras for real time instrument tracking
5.9.Example: Stryker
5.10.Example: Medtronic
5.11.Example: Zimmer Biomet
5.12.Example: Smith & Nephew
5.13.Example: Brainlab
5.14.Example: Orthotaxy
5.15.Example: Globus Medical
5.16.Example: Curexo
5.17.Example: Eindhoven Medical Robotics
5.18.Comparison of robotic orthopaedic surgery systems
5.19.Why do large orthopaedic companies seek to acquire surgical robots?
5.20.Robotic neurosurgery
5.21.Example: Renishaw
5.22.Example: Kuka Robotics
5.23.Example: AiM Medical Robotics
5.24.Robotic positioning for laser therapy
5.25.Example: Kuka Robotics
5.26.Example: Zeiss VisuMax
5.27.Robotic biopsy
5.28.Example: XACT
5.29.Example: Machnet Medical Robotics
5.30.State of development of robotic surgical tool positioning systems
5.31.Summary and outlook
6.1.Robotic intra-operative camera manipulation
6.2.Investments into companies developing intra-operative camera manipulation robots
6.3.Robotic laparoscope holders
6.4.Example: AKTORmed
6.5.Example: OR Productivity
6.6.Example: Storz
6.7.Robotic intra-operative imaging and microscopy
6.8.Example: Brainlab
6.9.Example : Zeiss
6.10.Example: Synaptive Medical
6.11.State of development of robotic intra-operative camera manipulation systems
6.12.Summary and outlook
7.1.Terminologies explained
7.2.AI enables human-robot interaction
7.3.AI facilitates image-guided robotic surgery
7.4.Challenges of using AI for pre-operative planning
7.5.Challenges of AI-driven robotic instrument positioning
7.6.AI in robotic surgery: Legal and regulatory landscape
8.1.Surgeons must 'sense' what they are doing
8.2.Haptics in robotic surgery
8.3.Haptics enhance robotic surgery systems
8.4.Components of haptic feedback mechanisms
8.5.How is haptic feedback achieved?
8.6.What types of sensors are used?
8.7.Haptic mechanisms: Challenges for robotic surgery
9.1.Chapter overview
9.3.The number of robotic surgery companies will rise exponentially in the next decade
9.4.Historical revenue data - Robotic surgery
9.5.Forecast 2020-2030 - Robotic surgery
9.6.Historical revenue data - Robotic general surgery
9.7.Historical revenue - Intuitive Surgical
9.8.Intuitive Surgical da Vinci systems sold
9.9.Forecast 2020-2030 - Robotic general surgery
9.10.Historical revenue data - Robotic catheter navigation
9.11.Forecast 2020-2030 - Robotic catheter navigation
9.12.Historical revenue data - Robotic surgical tool positioning
9.13.Forecast 2020-2030 - Robotic surgical tool positioning
9.14.Robotic intra-operative camera manipulation: Market share in 2019
9.15.Forecast 2020-2030 - Robotic intra-operative camera manipulation
10.1.Report summary
10.2.Robotic surgery's multiple benefits have fuelled its rise
10.3.Inherent limitations and conceptual flaws have blocked it
10.4.Competing directly with Intuitive Surgical is highly risky
10.5.Where do the market opportunities lie?
10.6.Does the concept of remote surgery live up to the hype?
10.7.Opportunities for improvement

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