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수술용 로봇 시스템 시장 규모, 점유율, 동향 분석 보고서 : 구성요소별, 용도별, 최종사용자별, 지역별, 부문별 예측(2025-2030년)

Surgical Robot Systems Market Size, Share & Trends Analysis Report By Component (Surgical Robot, Surgical Robotic Accessories, Surgical Robotic Services), By Application, By End Use, By Region, And Segment Forecasts, 2025 - 2030

발행일: 2024년 12월 | 리서치사:

Grand View Research | 페이지 정보: 영문 120 Pages | 배송안내 : 2-10일 (영업일 기준)

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수술용 로봇 시스템 시장 동향

수술용 로봇 시스템 세계 시장 규모는 2024년 114억 8,000만 달러로 2025-2030년까지 연평균 12.4%로 성장할 것으로 예상됩니다. 수술용 로봇 시스템은 기술 발전, 최소침습 수술에 대한 선호도 증가, 치료 결과 개선, 정확도 향상, 수술의 인적 오류 감소 등 중요한 요인으로 인해 수술에 혁명을 가져올 것입니다. 2023년 7월, Journal of Hematology & Oncology 저널에 게재된 연구에 따르면, 기본적인 의료용 나노 로봇이 더 복잡한 것으로 진화하여 혈류 속에서 직접 다양한 의료 작업을 수행할 수 있는 가능성이 있다는 사실이 밝혀졌습니다.

기술의 발전은 수술용 로봇 시스템의 보급에 큰 역할을 하고 있습니다. 인공지능, 기계학습, 촉각 피드백, 증강현실 등의 기술을 통합함으로써 로봇 수술 시스템의 능력이 향상되고 있습니다. 예를 들어, 2024년 4월 Virtual Incision과 네브래스카 대학이 개발한 수술용 로봇 spaceMIRA가 원격 테스트를 위해 ISS로 보내졌습니다. 버추얼인시젼의 소형 로봇 보조 수술 시스템 'MIRA'의 우주 특화 버전으로, 컴팩트함과 편의성을 중시해 설계됐습니다. 이 장치의 개선으로 장거리 원격 수술이 가능해져 의료기술의 획기적인 진보를 보여주었습니다.

최소침습 수술에 대한 수요 증가는 수술용 로봇 시스템 도입의 주요 원동력이 되고 있습니다. 최소침습 수술은 환자에게 입원 기간 단축, 회복 시간 단축, 기존 개복 수술에 비해 합병증 위험 감소, 통증 감소 등의 이점을 제공합니다. 2024년 7월, AcuSurgical은 유리체 수술용 로봇 루카(Luca)를 이용한 첫 번째 임상시험을 완료했습니다. 이 조사는 전 세계적으로 3억 명 이상이 앓고 있으며, 고도로 훈련된 외과의사만이 달성할 수 있는 정밀도를 필요로 하는 망막 질환의 치료를 대상으로 했습니다.

환자의 수술 결과를 개선하는 능력은 수술용 로봇 시스템의 중요한 원동력 중 하나입니다. 로봇 보조 수술은 수술의 정확성과 정밀도를 높이고 출혈량을 줄일 수 있습니다. 로봇 수술은 기존 방식에 비해 더 나은 임상 결과와 높은 환자 만족도를 가져올 수 있습니다. 예를 들어, 2023년 12월 Cureus 저널에 게재된 연구에 따르면 수술용 로봇 시스템의 장점으로 환자 결과 개선, 합병증 감소, 회복 시간 단축, 비용 효율성, 외과 의사의 경험 향상 등을 들 수 있습니다. 한 원격 로봇 보조 수술의 성공을 발표하며 외과 의사의 신뢰성을 강조하고 원격 수술을 위한 확장 가능한 솔루션을 발표했습니다.

수술실에서의 인적 오류를 줄이는 수술용 로봇 시스템의 가능성도 시장의 중요한 촉진요인입니다. 로봇 시스템은 안정적인 손동작과 정확한 움직임을 제공하여 섬세한 수술 중 인적 오류의 위험을 최소화할 수 있습니다. 로봇 플랫폼은 외과 의사에게 향상된 시각화와 손재주를 제공함으로써 수술의 정확성에 영향을 미칠 수 있는 손 떨림이나 피로와 같은 요인을 줄이는 데 도움이 됩니다. 2024년 4월, Advanced Intelligent Systems Influence Series에 게재된 논문에 따르면, 244명의 연수생 중 73.8%에 달하는 대다수가 로봇 수술의 교육 기회를 늘리는 것에 강한 관심을 보인 것으로 보고되었습니다. 이는 미래의 외과 의료에 있어 로봇 수술이 매우 중요하다는 인식이 높아지고 있기 때문입니다.

부문 대시보드
세계의 수술용 로봇 시스템 시장 구성요소 변동 분석
세계의 수술용 로봇 시스템 시장 규모와 동향 분석, 구성요소별, 2018-2030년
수술용 로봇
- 복강경 로봇 시스템
- 정형 수술용 로봇 시스템
- 신경외과 로봇 시스템
- 기타 로봇 시스템
수술용 로봇 부속품
수술용 로봇 서비스

제5장 수술용 로봇 시스템 시장 : 용도별, 추정·동향 분석

부문 대시보드
세계의 수술용 로봇 시스템 시장 용도 변동 분석
세계의 수술용 로봇 시스템 시장 규모와 동향 분석, 용도별, 2018-2030년
정형외과
신경학
부인과
비뇨기과
기타

제6장 수술용 로봇 시스템 시장 : 최종 용도별, 추정·동향 분석

부문 대시보드
세계의 수술용 로봇 시스템 시장 최종 용도 변동 분석
세계의 수술용 로봇 시스템 시장 규모와 동향 분석, 최종 용도별, 2018-2030년
병원·클리닉
외래 수술 센터

제7장 수술용 로봇 시스템 시장 : 지역별, 추정·동향 분석

지역별 시장 점유율 분석, 2024년과 2030년
지역별 시장 대시보드
시장 규모, 예측 동향 분석, 2018-2030년
북미
- 미국
- 캐나다
- 멕시코
유럽
- 영국
- 독일
- 프랑스
- 이탈리아
- 스페인
- 노르웨이
- 스웨덴
- 덴마크
아시아태평양
- 일본
- 중국
- 인도
- 호주
- 한국
- 태국
라틴아메리카
- 브라질
- 아르헨티나
중동 및 아프리카
- 남아프리카공화국
- 사우디아라비아
- 아랍에미리트
- 쿠웨이트

제8장 경쟁 구도

기업/경쟁 분류
전략 매핑
기업 시장 상황 분석, 2024년
기업 개요/상장 기업
- Intuitive Surgical
- THINK Surgical, Inc.
- Smith &Nephew
- Medtronic
- Stryker Corporation
- Zimmer Biomet
- Medrobotics Corporation
- Asensus Surgical US, Inc.(구TransEnterix Surgical, Inc.)
- Renishaw PLC

ksm 25.03.07

Surgical Robot Systems Market Trends:

The global surgical robot systems market size was valued at USD 11.48 billion in 2024 and is projected to grow at a CAGR of 12.4% from 2025 to 2030. Surgical robot systems revolutionize surgery, driven by significant factors such as technological progress, the rising preference for minimally invasive procedures, improved outcomes, greater precision, and reduced human errors in operations. This development is a major advancement in medical technology, combining innovation with a commitment to enhancing the safety and efficacy of surgical operations. In July 2023, a study featured in the Journal of Hematology & Oncology revealed that basic medical nanorobots could advance to become more complex, performing various medical tasks directly in the bloodstream

Advancements in technology have played a significant role in driving the adoption of surgical robot systems. Integrating technologies such as artificial intelligence, machine learning, haptic feedback, and augmented reality has enhanced the capabilities of robotic surgical systems. For instance, in April 2024, spaceMIRA, a surgical robot developed by Virtual Incision and the University of Nebraska, was sent to the ISS for remote testing. This space-focused version of Virtual Incision's miniaturized robotic-assisted surgery system, MIRA, is designed for compactness and convenience. The device's modifications allowed long-distance remote surgery, demonstrating significant advancements in medical technology.

The rising demand for minimally invasive procedures has been a key driver for adopting surgical robot systems. Minimally invasive surgeries offer patients benefits such as shorter hospital stays, faster recovery times, lower risk of complications than traditional open surgeries, and reduced pain. Robotic systems enable surgeons to perform complex procedures through small incisions with greater precision and control. In July 2024, AcuSurgical completed its first clinical study with the Luca surgical robot for vitrectomy procedures. The study targeted the treatment of retinal diseases, affecting over 300 million worldwide, requiring precision only achievable by highly trained surgeons.

The ability to improve surgical outcomes for patients is one of the key drivers for surgical robot systems. Robotic-assisted surgery allows for greater accuracy and precision during procedures, leading to reduced blood loss. Robotic surgery can result in better clinical outcomes and higher patient satisfaction compared to traditional methods. For instance, in December 2023, a study published in Cureus stated that the benefits of surgical robot systems include improved patient outcomes, reduced complications, faster recovery time, cost-effectiveness, and enhanced surgeon experiences. In June 2024, Sovato announced the successful completion of distant robotic-assisted surgeries using the company's platform, highlighting surgeon confidence and showcasing a scalable solution for remote surgical procedures.

Surgical robot systems' potential to reduce human errors in the operating room is another significant driver for the market. Robotic systems offer steady hands and precise movements that can minimize the risk of human error during delicate surgical procedures. By providing surgeons with enhanced visualization and dexterity, robotic platforms help mitigate factors such as hand tremors or fatigue that could affect procedural accuracy. In April 2024, an article in the Advanced Intelligent Systems Influence Series reported that a significant majority of 73.8% of 244 trainees, expressed a strong interest in having more opportunities for robotic surgery training. This is due to the growing belief in its critical importance for the future of surgical care.

Global Surgical Robot Systems Market Report Segmentation

This report forecasts revenue growth at global, regional, and country levels and provides an analysis of the latest industry trends in each of the sub-segments from 2018 to 2030. For this study, Grand View Research has segmented the global surgical robot systems market report based on component, application, end use, and region.

Component Outlook (Revenue, USD Million, 2018 - 2030)
Surgical Robot
- Laparoscopic robotic systems
- Orthopedic robotic systems
- Neurosurgical robotic systems
- Other robotic systems
Surgical Robotic Accessories
Surgical Robotic Services
Application Outlook (Revenue, USD Million, 2018 - 2030)
Orthopedics
Neurology
Gynecology
Urology
Others
End Use Outlook (Revenue, USD Million, 2018 - 2030)
Hospitals & clinics
Ambulatory surgery centers
Regional Outlook (Revenue, USD Million, 2018 - 2030)
North America
- U.S.
- Canada
- Mexico
Europe
- Germany
- UK
- France
- Italy
- Spain
- Denmark
- Sweden
- Norway
Asia Pacific
- China
- Japan
- India
- South Korea
- Australia
- Thailand
Latin America
- Brazil
- Argentina
MEA
- South Africa
- Saudi Arabia
- UAE
- Kuwait

Chapter 1. Methodology and Scope

1.1. Market Segmentation and Scope
1.2. Market Definitions
- 1.2.1. Component
- 1.2.2. Application
- 1.2.3. End Use
1.3. Information analysis
1.4. Market formulation & data visualization
1.5. Data validation & publishing
1.6. Information Procurement
- 1.6.1. Primary Research
1.7. Information or Data Analysis
1.8. Market Formulation & Validation
1.9. Market Model
1.10. Objectives

Chapter 2. Executive Summary

2.1. Market Outlook
2.2. Segment Snapshot
2.3. Competitive Insights Landscape

Chapter 3. Surgical Robot Systems Market Variables, Trends & Scope

3.1. Market Lineage Outlook
- 3.1.1. Parent market outlook
- 3.1.2. Related/ancillary market outlook.
3.2. Market Dynamics
- 3.2.1. Market driver analysis
- 3.2.2. Market restraint analysis
3.3. Surgical Robot Systems Market Analysis Tools
- 3.3.1. Industry Analysis - Porter's
- 3.3.2. PESTEL Analysis
- 3.3.3. COVID-19 Impact Analysis

Chapter 4. Surgical Robot Systems Market: Component Estimates & Trend Analysis

4.1. Segment Dashboard
4.2. Global Surgical Robot Systems Market Component Movement Analysis
4.3. Global Surgical Robot Systems Market Size & Trend Analysis, by Component, 2018 to 2030 (USD Million)
4.4. Surgical Robot
- 4.4.1. Surgical robot market estimates and forecasts 2018 to 2030 (USD Million)
- 4.4.2. Laparoscopic robotic systems
  - 4.4.2.1. Laparoscopic robotic systems market estimates and forecasts 2018 to 2030 (USD Million)
- 4.4.3. Orthopedic robotic systems
  - 4.4.3.1. Orthopedic robotic systems market estimates and forecasts 2018 to 2030 (USD Million)
- 4.4.4. Neurosurgical robotic systems
  - 4.4.4.1. Neurosurgical robotic systems market estimates and forecasts 2018 to 2030 (USD Million)
- 4.4.5. Other robotic systems
  - 4.4.5.1. Other robotic systems market estimates and forecasts 2018 to 2030 (USD Million)
4.5. Surgical Robotic Accessories
- 4.5.1. Surgical robotic accessories market estimates and forecasts 2018 to 2030 (USD Million)
4.6. Surgical Robotic Services
- 4.6.1. Surgical robotic services market estimates and forecasts 2018 to 2030 (USD Million)

Chapter 5. Surgical Robot Systems Market: Application Estimates & Trend Analysis

5.1. Segment Dashboard
5.2. Global Surgical Robot Systems Market Application Movement Analysis
5.3. Global Surgical Robot Systems Market Size & Trend Analysis, by Application, 2018 to 2030 (USD Million)
5.4. Orthopedics
- 5.4.1. Orthopedics market estimates and forecasts 2018 to 2030 (USD Million)
5.5. Neurology
- 5.5.1. Neurology market estimates and forecasts 2018 to 2030 (USD Million)
5.6. Gynecology
- 5.6.1. Gynecology market estimates and forecasts 2018 to 2030 (USD Million)
5.7. Urology
- 5.7.1. Urology market estimates and forecasts 2018 to 2030 (USD Million)
5.8. Others
- 5.8.1. Others market estimates and forecasts 2018 to 2030 (USD Million)

Chapter 6. Surgical Robot Systems Market: End Use Estimates & Trend Analysis

6.1. Segment Dashboard
6.2. Global Surgical Robot Systems Market End Use Movement Analysis
6.3. Global Surgical Robot Systems Market Size & Trend Analysis, by End Use, 2018 to 2030 (USD Million)
6.4. Hospitals & clinics
- 6.4.1. Hospitals & clinics market estimates and forecasts 2018 to 2030 (USD Million)
6.5. Ambulatory surgery centers
- 6.5.1. Ambulatory surgery centers market estimates and forecasts 2018 to 2030 (USD Million)

Chapter 7. Surgical Robot Systems Market: Regional Estimates & Trend Analysis

7.1. Regional Market Share Analysis, 2024 & 2030
7.2. Regional Market Dashboard
7.3. Market Size, & Forecasts Trend Analysis, 2018 to 2030:
7.4. North America
- 7.4.1. U.S.
  - 7.4.1.1. Key country dynamics
  - 7.4.1.2. Regulatory framework
  - 7.4.1.3. Competitive scenario
  - 7.4.1.4. U.S. market estimates and forecasts 2018 to 2030 (USD Million)
- 7.4.2. Canada
  - 7.4.2.1. Key country dynamics
  - 7.4.2.2. Regulatory framework
  - 7.4.2.3. Competitive scenario
  - 7.4.2.4. Canada market estimates and forecasts 2018 to 2030 (USD Million)
- 7.4.3. Mexico
  - 7.4.3.1. Key country dynamics
  - 7.4.3.2. Regulatory framework
  - 7.4.3.3. Competitive scenario
  - 7.4.3.4. Mexico market estimates and forecasts 2018 to 2030 (USD Million)
7.5. Europe
- 7.5.1. UK
  - 7.5.1.1. Key country dynamics
  - 7.5.1.2. Regulatory framework
  - 7.5.1.3. Competitive scenario
  - 7.5.1.4. UK market estimates and forecasts 2018 to 2030 (USD Million)
- 7.5.2. Germany
  - 7.5.2.1. Key country dynamics
  - 7.5.2.2. Regulatory framework
  - 7.5.2.3. Competitive scenario
  - 7.5.2.4. Germany market estimates and forecasts 2018 to 2030 (USD Million)
- 7.5.3. France
  - 7.5.3.1. Key country dynamics
  - 7.5.3.2. Regulatory framework
  - 7.5.3.3. Competitive scenario
  - 7.5.3.4. France market estimates and forecasts 2018 to 2030 (USD Million)
- 7.5.4. Italy
  - 7.5.4.1. Key country dynamics
  - 7.5.4.2. Regulatory framework
  - 7.5.4.3. Competitive scenario
  - 7.5.4.4. Italy market estimates and forecasts 2018 to 2030 (USD Million)
- 7.5.5. Spain
  - 7.5.5.1. Key country dynamics
  - 7.5.5.2. Regulatory framework
  - 7.5.5.3. Competitive scenario
  - 7.5.5.4. Spain market estimates and forecasts 2018 to 2030 (USD Million)
- 7.5.6. Norway
  - 7.5.6.1. Key country dynamics
  - 7.5.6.2. Regulatory framework
  - 7.5.6.3. Competitive scenario
  - 7.5.6.4. Norway market estimates and forecasts 2018 to 2030 (USD Million)
- 7.5.7. Sweden
  - 7.5.7.1. Key country dynamics
  - 7.5.7.2. Regulatory framework
  - 7.5.7.3. Competitive scenario
  - 7.5.7.4. Sweden market estimates and forecasts 2018 to 2030 (USD Million)
- 7.5.8. Denmark
  - 7.5.8.1. Key country dynamics
  - 7.5.8.2. Regulatory framework
  - 7.5.8.3. Competitive scenario
  - 7.5.8.4. Denmark market estimates and forecasts 2018 to 2030 (USD Million)
7.6. Asia Pacific
- 7.6.1. Japan
  - 7.6.1.1. Key country dynamics
  - 7.6.1.2. Regulatory framework
  - 7.6.1.3. Competitive scenario
  - 7.6.1.4. Japan market estimates and forecasts 2018 to 2030 (USD Million)
- 7.6.2. China
  - 7.6.2.1. Key country dynamics
  - 7.6.2.2. Regulatory framework
  - 7.6.2.3. Competitive scenario
  - 7.6.2.4. China market estimates and forecasts 2018 to 2030 (USD Million)
- 7.6.3. India
  - 7.6.3.1. Key country dynamics
  - 7.6.3.2. Regulatory framework
  - 7.6.3.3. Competitive scenario
  - 7.6.3.4. India market estimates and forecasts 2018 to 2030 (USD Million)
- 7.6.4. Australia
  - 7.6.4.1. Key country dynamics
  - 7.6.4.2. Regulatory framework
  - 7.6.4.3. Competitive scenario
  - 7.6.4.4. Australia market estimates and forecasts 2018 to 2030 (USD Million)
- 7.6.5. South Korea
  - 7.6.5.1. Key country dynamics
  - 7.6.5.2. Regulatory framework
  - 7.6.5.3. Competitive scenario
  - 7.6.5.4. South Korea market estimates and forecasts 2018 to 2030 (USD Million)
- 7.6.6. Thailand
  - 7.6.6.1. Key country dynamics
  - 7.6.6.2. Regulatory framework
  - 7.6.6.3. Competitive scenario
  - 7.6.6.4. Thailand market estimates and forecasts 2018 to 2030 (USD Million)
7.7. Latin America
- 7.7.1. Brazil
  - 7.7.1.1. Key country dynamics
  - 7.7.1.2. Regulatory framework
  - 7.7.1.3. Competitive scenario
  - 7.7.1.4. Brazil market estimates and forecasts 2018 to 2030 (USD Million)
- 7.7.2. Argentina
  - 7.7.2.1. Key country dynamics
  - 7.7.2.2. Regulatory framework
  - 7.7.2.3. Competitive scenario
  - 7.7.2.4. Argentina market estimates and forecasts 2018 to 2030 (USD Million)
7.8. MEA
- 7.8.1. South Africa
  - 7.8.1.1. Key country dynamics
  - 7.8.1.2. Regulatory framework
  - 7.8.1.3. Competitive scenario
  - 7.8.1.4. South Africa market estimates and forecasts 2018 to 2030 (USD Million)
- 7.8.2. Saudi Arabia
  - 7.8.2.1. Key country dynamics
  - 7.8.2.2. Regulatory framework
  - 7.8.2.3. Competitive scenario
  - 7.8.2.4. Saudi Arabia market estimates and forecasts 2018 to 2030 (USD Million)
- 7.8.3. UAE
  - 7.8.3.1. Key country dynamics
  - 7.8.3.2. Regulatory framework
  - 7.8.3.3. Competitive scenario
  - 7.8.3.4. UAE market estimates and forecasts 2018 to 2030 (USD Million)
- 7.8.4. Kuwait
  - 7.8.4.1. Key country dynamics
  - 7.8.4.2. Regulatory framework
  - 7.8.4.3. Competitive scenario
  - 7.8.4.4. Kuwait market estimates and forecasts 2018 to 2030 (USD Million)

Chapter 8. Competitive Landscape

8.1. Company/Competition Categorization
8.2. Strategy Mapping
8.3. Company Market Position Analysis, 2024
8.4. Company Profiles/Listing
- 8.4.1. Intuitive Surgical
  - 8.4.1.1. Company overview
  - 8.4.1.2. Financial performance
  - 8.4.1.3. Component benchmarking
  - 8.4.1.4. Strategic initiatives
- 8.4.2. THINK Surgical, Inc.
  - 8.4.2.1. Company overview
  - 8.4.2.2. Financial performance
  - 8.4.2.3. Component benchmarking
  - 8.4.2.4. Strategic initiatives
- 8.4.3. Smith & Nephew
  - 8.4.3.1. Company overview
  - 8.4.3.2. Financial performance
  - 8.4.3.3. Component benchmarking
  - 8.4.3.4. Strategic initiatives
- 8.4.4. Medtronic
  - 8.4.4.1. Company overview
  - 8.4.4.2. Financial performance
  - 8.4.4.3. Component benchmarking
  - 8.4.4.4. Strategic initiatives
- 8.4.5. Stryker Corporation
  - 8.4.5.1. Company overview
  - 8.4.5.2. Financial performance
  - 8.4.5.3. Component benchmarking
  - 8.4.5.4. Strategic initiatives
- 8.4.6. Zimmer Biomet
  - 8.4.6.1. Company overview
  - 8.4.6.2. Financial performance
  - 8.4.6.3. Component benchmarking
  - 8.4.6.4. Strategic initiatives
- 8.4.7. Medrobotics Corporation
  - 8.4.7.1. Company overview
  - 8.4.7.2. Financial performance
  - 8.4.7.3. Component benchmarking
  - 8.4.7.4. Strategic initiatives
- 8.4.8. Asensus Surgical US, Inc. (Formerly known as TransEnterix Surgical, Inc.)
  - 8.4.8.1. Company overview
  - 8.4.8.2. Financial performance
  - 8.4.8.3. Component benchmarking
  - 8.4.8.4. Strategic initiatives
- 8.4.9. Renishaw PLC
  - 8.4.9.1. Company overview
  - 8.4.9.2. Financial performance
  - 8.4.9.3. Component benchmarking
  - 8.4.9.4. Strategic initiatives