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市場調查報告書

醫療用機器人及電腦支援手術

Medical Robotics and Computer-Assisted Surgery

出版商 BCC Research
出版日期 2009年06月 商品編碼 91080
內容資訊 英文 147 pages
價格
US $ 4850 Hard Copy
US $ 4850 PDF by E-mail (Single User License)
US $ 5950 PDF by E-mail (Single Site License)
US $ 8500 PDF by E-mail (Corporate Use License)


醫療用機器人及電腦支援手術 是由出版商BCC Research在2009年06月所出版的。 這份英文市場調查報告書包含147 pages 價格從美金4850起跳。

簡介

2008年美國醫療用機器人・電腦支援手術市場達到6億4800萬美元的規模。預計該市場今後將以年平均成長率17.7%成長,到2014年達到15億美元的規模。

本報告書內容包括:美國及全球醫療用機器人/電腦支援手術(MRCAS)設備的市場規模、應用、課題等調查。內容綱要摘記如下:

第1章 介紹

第2章 實施概要

第3章 醫療用機器人及電腦支援手術概要

  • 一般性說明及MRCAS的定義
  • 醫療用機器人及電腦支援手術的歷史
  • 技術及產品
    • 單機型手術規劃及模擬設備
    • 手術導引系統
    • 手術機器人
    • 數位手術室及設備
  • MRCAS的主要手術應用
    • 整型外科應用
    • 神經外科應用
    • ENT(耳鼻喉科)應用
    • 心臓應用
    • 其他内視鏡應用
  • 行政課題
    • MIS設備的法規限制許可
    • 補貼

第4章 MRCAS設備的美國市場

  • 總體市場概要及分類
  • 市場分析及預測
  • 產業結構及競爭
  • 通路
  • 美國市場預測

第5章 MRCAS的全球市場

  • 市場規模及分類
    • 摘要
    • 美國以外的市場中美國企業的市佔率
    • 海外的法規限制課題

第6章 銷售企業介紹

圖表

目錄

Abstract

HIGHLIGHTS:

This Report:
  • The U.S. market for medical robotics and computer-assisted surgical equipment was worth an estimated $648 million in 2008. The market is projected to reach $676 million in 2009 and $1.5 billion by 2014, a CAGR of 17.7%.
  • Surgical robot systems were the largest product segment of the market in 2008 with a 54% market share. With a projected average annual growth rate of more than 23% between 2009 and 2014, surgical robots are expected to increase their share of the US MRCAS market to 65% by 2014.
  • In terms of surgical applications, orthopedic surgical applications are projected to grow at a CAGR of 42.6% between 2009 and 2014, and are expected to account for 22% of the market by 2014.

STUDY GOAL AND OBJECTIVES

This BCC study analyzes U.S. and global markets for MRCAS equipment in the light of the most recent available information. In addition to looking at current and future markets for these devices, the study will analyze technological, economic, and regulatory developments that may have a long-term impact on the size and structure of the MRCAS market.

More specific objectives are to:

  • Identify and segment the main types of MRCAS devices that have been commercialized to date.
  • Analyze the historical and current volume and value of shipments of each of these product segments in specified applications and geographical markets.
  • Identify and evaluate the impact of demographic, economic, and other factors that will drive future demand for MRCAS devices.
  • Forecast the volume and value of product shipments by equipment type and application and probabilities that future demand will be higher or lower than the baseline forecast.
  • Identify promising new surgical procedures and products still in the development and testing stage and assess the probability that they will be commercialized successfully in the next 5 years,
  • Forecast the potential market for these developmental procedures and products, taking into account the estimated probability that they will be commercialized.
  • Identify leading manufacturers of the devices and analyze the structure of the MRCAS industry (e.g., market shares, concentration, and recent M&A activity).
  • Assess the long-term outlook for MRCAS equipment, taking into account market opportunities as well as technological, financial, and economic factors.

SCOPE OF REPORT

This report is an analytical business tool whose primary purpose is to describe the MRCAS equipment industry and the global market for these devices. MRCAS equipment is defined as computer- or microprocessor-enabled devices and accessories that are physically situated in the operating room and directly assist the surgeon in planning and carrying out surgical procedures.

Thus, the scope of the study does not include:
  • Devices that provide images and other information but are not an integral part of the MRCAS system such as preoperative imaging (e.g., computed tomography (CT), magnetic resonance imaging (MRI)) equipment, laboratory and other analytical devices
  • Computerized medical records systems
  • Electronic operating room equipment such as heart monitors that enable the surgical team to monitor the patient' s condition but do not assist the surgeon directly in carrying out the operation
  • Other nonelectronic operating room equipment

The format of the study is organized around the following topics:
  • Major types and applications of MRCAS
  • Industry structure
  • Market size and segmentation, including historical data on sales by application, product type, and geographical market
  • Market drivers
  • Detailed market projections through 2014
  • Competition and market shares
  • Observations and conclusions regarding the future of the MRCAS market

METHODOLOGY AND INFORMATION SOURCES

The findings and conclusions of this report are based on information gathered from manufacturers and users of MRCAS and other informed sources. Interview data was combined with information gathered through an extensive review of secondary sources such as trade publications, trade associations, company literature, and online databases to produce the baseline market estimates contained in this report.

The base year for analysis and projection is 2008. With 2008 as a baseline, market projections were developed for 2009 to 2014. The market projections are “consensus” projections, obtained by averaging market scenarios obtained from industry and other sources or developed independently by BCC. The analytical methodologies BCC used to generate the market estimates are described in detail in the section on detailed market projections.

All dollar projections presented in this report are in 2008 constant dollars.

Table of Contents

Medical Robotics and Computer-Assisted Surgery

Chapter-1: EXECUTIVE SUMMARY

  • SUMMARY TABLE U.S. SALES OF MRCAS EQUIPMENT, THROUGH 2014 ($ MILLIONS)
  • SUMMARY FIGURE TRENDS IN U.S. SALES OF MRCAS EQUIPMENT, 2008-2014 ($ MILLIONS)
  • EXECUTIVE SUMMARY (CONTINUED)

Chapter-2: OVERVIEW OF MEDICAL ROBOTICS AND COMPUTER-ASSISTED SURGERY

  • GENERAL DESCRIPTION AND DEFINITION OF MRCAS
    • FIGURE 1 MEDICAL ROBOTIC AND COMPUTER-ASSISTED SURGICAL SYSTEMS
  • HISTORY OF MEDICAL ROBOTICS AND COMPUTER-ASSISTED SURGERY
  • SURGICAL IMAGING TECHNOLOGIES
  • IMAGE REGISTRATION TECHNIQUES
  • IMAGE REGISTRATION TECHNIQUES (CONTINUED)
  • COMPUTER IMAGE PROCESSING
  • SURGICAL ROBOTS
  • “THE INTELLIGENT OPERATING ROOM”
  • SURGICAL SIMULATION
  • TECHNOLOGIES AND PRODUCTS
  • STAND-ALONE SURGICAL PLANNERS AND SIMULATORS
  • Technology
  • Modeling of Organs and Deformations
  • Simulation of Actions and Force Feedback Reactions
  • Emerging Technologies
  • Web-Based Surgical Simulators
  • Virtual Surgery Tables
  • Recent Patents
  • Advantages of Surgical Planners and Simulators
  • Products
    • TABLE 1 STAND-ALONE SURGICAL PLANNERS AND SIMULATORS
  • Fifth Dimension Technologies
  • Bronchoscope and Gastroscope Training Simulators
  • Haptica
  • ProMIS
  • Immersion Medical
  • AccuTouch
  • Mentice Medical Simulation
  • Procedicus
  • Merge Healthcare
  • Cedara OrthoWorks
  • Simbionix
  • Mentor Simulator Series
    • GI Mentor, URO Mentor, PERC Mentor, LAP Mentor (Simbionix)
  • SimSurgery
  • SimSurgery Education Platform
  • Surgical Science
  • LapSim
  • SURGICAL NAVIGATION SYSTEMS
  • Technologies
  • Imaging Technologies
  • Multi-Modal Imaging
  • Fluoroscopic Imaging
  • Video-Enhanced Imagery
  • Microscopic Imagery
  • Endoscopic Imagery
  • Dynamic (Interventional) Imaging
  • Compact MRI Scanners
  • Intraoperative CT
  • Intraoperative Ultrasound
  • Tracking Technologies
  • Optical Tracking
  • Electromagnetic Tracking
  • Display Technologies
  • Multiplanar Displays
  • Three-Dimensional Displays
  • Stereoscopic Displays
  • Virtual and Augmented Reality
  • Heads-Up Displays
  • Recent Patents
  • Recent ... (Continued)
  • Advantages of Surgical Navigation Systems
  • Products
  • Image-Guided Surgical Navigation Systems
    • TABLE 2 IMAGE-GUIDED SURGICAL NAVIGATION SYSTEMS
  • Boulder Innovation Group
    • FlashPoint 5500
  • BrainLAB AG
    • VectorVision
    • Kolibri
  • CASurgica
    • HipNav
  • CBYON
    • CBYON Suite (CBYON)
  • GE Medical Systems
    • InstaTrak
    • Other Surgical Navigation Products
  • Integra Radionics
    • OmniSight EXcel
  • Medtronic
    • StealthStation
  • Orthosoft
    • Navitrack
  • PraximMedivision
    • Surgetics Station
  • Siemens Healthcare
    • NaviVision
    • NaviLink
  • Stryker Corp.
    • Stryker Navigation System II
    • ENLite
    • NavSuite
  • Interventional Navigation Systems
    • TABLE 3 INTERVENTIONAL SURGICAL NAVIGATION SYSTEMS
    • TABLE 4 COMPARISON OF NON-FLUOROSCOPIC INTERVENTIONAL IMAGING TECHNOLOGIES
  • B. Braun Aesculap
    • OrthoPilot
  • Kinamed
    • NaviPro
  • MISON
    • SonoWand
  • Odin Medical Technologies
    • Polestar
  • Smith & Nephew
    • PiGalileo
  • Surgical Navigation Accessories and Add-Ons
    • TABLE 5 SURGICAL NAVIGATION ACCESSORIES AND ADD-ONS
  • Microvision
    • Nomad
  • Viking Stems
    • Endosite 3Di System
    • 3D-HD Personal Head Display and Infomatix
  • 4Navitec
    • Pointers, Trackers, Adapters, and Other Accessories
  • SURGICAL ROBOTS
  • Technology
  • Robotically Assisted Micro-Manipulation
  • Steady-Hand Systems
  • Robotic “Wrists” and Other Dexterity Enhancements
  • Preprogrammed Robots
  • Constraint Robots
  • Voice Control
  • Other Emerging Technologies
  • New Robotic Arm Designs
  • Remote Surgery
  • Natural-Orifice Surgery
  • Microbots
  • Recent Patents
  • Recent ... (Continued)
  • Recent ... (Continued)
  • Advantages of Robotics
  • Products
    • TABLE 6 SURGICAL ROBOTICS
  • Acrobot
  • Sculptor
  • Curexo Technology
  • ROBODOC
  • Given Imaging
  • Given Imaging Diagnostic System
  • Hansen Medical
  • Sensei
  • Hitachi Medical Systems
  • Magnetic Resonance Image-Guided Surgical Robotic System
  • Intuitive Surgical Systems
  • Da Vinci
  • Mazor Surgical Technologies
  • SpineAssist
  • MicroDexterity
  • MicroDex
  • Prosurgics
  • EndoAssist
  • Pathfinder
  • Robotic Systems and Technologies
  • Penelope
  • Schaerer Mayfield
  • NeuroMate
  • DIGITAL OPERATING ROOMS AND EQUIPMENT
  • Technologies
  • Data Routing
  • User Interface
  • Open System Architectures
  • Recent Patents
  • Advantages
  • Products
    • TABLE 7 INTELLIGENT OPERATING ROOM SOLUTIONS AND COMPONENTS
  • Stryker
  • iSuite Operating Room of the Future
  • SIDNE
  • Karl Storz
  • OR 1
  • Smith & Nephew
  • Digital Operating Room
  • Intuitive Surgical
  • HERMES
  • Steris Corp.
  • Amsco 3085 SP Operating Table/Harmony Surgical Lighting System
  • Skytron Surgical
  • STELLAR Surgical Lighting Systems (Skytron Surgical)
  • Berchtold GmbH
  • CHROMOPHARE Surgical Lighting Systems
  • ValleyLab
  • Force FX Electrosurgical Generator
  • PRINCIPAL SURGICAL APPLICATIONS OF MRCAS
    • TABLE 8 PRINCIPAL SURGICAL APPLICATIONS OF MRCAS
    • TABLE 8 (CONTINUED)
  • ORTHOPEDIC APPLICATIONS
  • Hip Replacement
  • Knee Replacement
  • Trauma
  • Pedicle Screw Fixation and Other Spinal Procedures
  • NEUROSURGICAL APPLICATIONS
  • Stereotactic Biopsy
  • Craniotomy
  • Shunt
  • Implants
  • Deep Brain Stimulation
  • EAR, NOSE, AND THROAT (ENT) APPLICATIONS
  • Functional Endoscopic Sinus Surgery
  • CARDIAC APPLICATIONS
  • Coronary Bypass Surgery
  • Heart Valve Repair and Replacement
  • OTHER ENDOSCOPIC APPLICATIONS
  • GOVERNMENTAL ISSUES
  • REGULATORY APPROVAL OF MIS EQUIPMENT
  • Regulatory Approval ... (Continued)
  • Regulatory Approval ... (Continued)
  • REIMBURSEMENT

Chapter-3: THE U.S. MARKET FOR MRCAS EQUIPMENT

  • OVERALL MARKET SIZE AND SEGMENTATION
  • OVERALL MARKET
    • FIGURE 2 U.S. SALES OF MRCAS EQUIPMENT, 2008-2014 ($ MILLIONS)
  • MARKET BY EQUIPMENT SEGMENT
    • TABLE 9 U.S. MRCAS MARKET BY TYPE OF EQUIPMENT, THROUGH 2014 ($ MILLIONS)
    • FIGURE 3 U.S. MRCAS MARKET SHARES BY TYPE OF EQUIPMENT, 2008 VS. 2014 (PERCENT OF TOTAL SALES)
  • MARKET BY APPLICATION SEGMENT
    • TABLE 10 U.S. MRCAS MARKET BY TYPE OF APPLICATION, THROUGH 2014 ($ MILLIONS)
    • FIGURE 4 MAJOR MRCAS APPLICATION SEGMENTS, 2008 VS. 2014 (PERCENT OF TOTAL SALES)
    • FIGURE 4 (CONTINUED)
  • DETAILED MARKET ANALYSIS AND PROJECTIONS
  • Surgical Planners and Simulators
  • Historical Sales
    • TABLE 11 U.S. SALES OF SURGICAL PLANNERS AND SIMULATORS, THROUGH 2008 ($ MILLIONS)
    • FIGURE 5 U.S. SALES OF SURGICAL PLANNERS AND SIMULATORS, 2000 AND 2008 ($ MILLIONS)
  • Projected Sales
    • TABLE 12 PROJECTED U.S. SALES OF PLANNERS AND SIMULATORS, THROUGH 2014 ($ MILLIONS)
  • Risk Factors
  • Surgical Navigation Systems
  • Historical Sales
    • TABLE 13 U.S. SALES OF SURGICAL NAVIGATION SYSTEMS, THROUGH 2008 ($ MILLIONS)
    • FIGURE 6 HISTORICAL GROWTH OF SURGICAL NAVIGATION SYSTEM SALES, 2000 AND 2008 ($ MILLIONS)
  • Sales Projections
    • TABLE 14 PROJECTED U.S. SALES OF SURGICAL NAVIGATION SYSTEMS, THROUGH 2014 ($ MILLIONS)
  • Risk Factors
  • Surgical Robots
  • Sales
    • FIGURE 7 HISTORICAL GROWTH OF SURGICAL ROBOT SALES, 2000 AND 2008 ($ MILLIONS)
  • Market Penetration
    • TABLE 15 U.S. SURGICAL ROBOT MARKET PENETRATION, 2008
  • Projected Sales
    • TABLE 16 PROJECTED U.S. SALES OF SURGICAL ROBOTS, THROUGH 2014 ($ MILLIONS)
  • Risk Factors
  • Intelligent Operating Room Solutions
  • Sales
    • TABLE 17 U.S. SALES OF INTELLIGENT OPERATING ROOM SOLUTIONS, THROUGH 2008
    • FIGURE 8 HISTORICAL GROWTH OF INTELLIGENT OPERATING ROOM SALES, 2000 AND 2008 ($ MILLIONS)
  • Market Penetration
    • TABLE 18 U.S. INTELLIGENT OPERATING ROOM MARKET PENETRATION, 2008
  • Projected Sales
    • TABLE 19 PROJECTED U.S. SALES OF INTELLIGENT OPERATING ROOM SOLUTIONS THROUGH 2014 ($ MILLIONS)
  • Risk Factors
  • INDUSTRY STRUCTURE AND COMPETITION
  • OVERALL MARKET
    • TABLE 20 MAJOR MRCAS VENDORS' U.S. SALES, 2008
    • FIGURE 9 U.S. OVERALL MRCAS MARKET LEADERS, 2008 (PERCENT OF TOTAL SALES)
  • SURGICAL PLANNERS AND SIMULATORS
    • FIGURE 10 U.S. SURGICAL PLANNER AND SIMULATOR MARKET LEADERS, 2008 (PERCENT OF TOTAL SALES)
  • SURGICAL NAVIGATION SYSTEMS
    • FIGURE 11 U.S. SURGICAL NAVIGATION SYSTEM MARKET LEADERS, 2008 (PERCENT OF TOTAL SALES
  • SURGICAL ROBOTS
    • FIGURE 12 U.S. SURGICAL ROBOT MARKET SHARES, 2008 (PERCENT OF TOTAL SALES)
  • INTELLIGENT OPERATING ROOM SOLUTIONS
    • FIGURE 13 U.S. INTEGRATED OPERATING ROOM SOLUTIONS MARKET LEADERS, 2008 (PERCENT OF TOTAL SALES)
  • DISTRIBUTION CHANNELS
    • FIGURE 14 U.S. DISTRIBUTION CHANNELS FOR MRCAS EQUIPMENT (PERCENT OF TOTAL SALES MADE THROUGH EACH CHANNEL)
  • OUTLOOK FOR THE U.S. MARKET
  • DEMOGRAPHIC TRENDS
    • TABLE 21 TRENDS IN NUMBER OF AMERICANS AGED 55 AND OLDER, 2008 - 2014 (THOUSANDS)
  • TRENDS IN THE INCIDENCE OF CERTAIN DISEASES OR CONDITIONS
  • Trends in Cardiac Disease
  • Trends in Hip and Knee Replacement
    • TABLE 22 PROJECTED TRENDS IN MINIMALLY INVASIVE HIP AND KNEE REPLACEMENT PROCEDURES, THROUGH 2014 (NUMBER OF PROCEDURES)
  • TECHNOLOGICAL DEVELOPMENTS
  • Adaptation of Minimally Invasive Techniques to New Types of Surgical Procedures
  • New Products and Technologies
  • Development of Lower-Cost Systems
  • Increasing Patient Access to Minimally Invasive Surgery
  • Facilitating Surgeon Awareness and Training in Minimally Invasive Procedures
  • Offsetting Manpower Constraints and Reducing Hospital Labor Costs
  • CHANGING STRUCTURE OF THE U.S. HEALTH CARE INDUSTRY
  • Hospital Consolidation
  • Developments in Health Insurance
  • CONCLUSIONS

Chapter-4: INTERNATIONAL MARKETS FOR MRCAS

  • MARKET SIZE AND SEGMENTATION
  • SUMMARY
    • TABLE 23 U.S. VS. NON-U.S. MARKETS FOR MRCAS DEVICES AND EQUIPMENT BY MAJOR MARKET SEGMENT, THROUGH 2014
    • FIGURE 15 TRENDS IN THE GLOBAL MRCAS MARKET, 2008-2014 ($ MILLIONS)
  • U.S. COMPANIES' SHARE OF NON-U.S. MARKETS
  • FOREIGN REGULATORY ISSUES
  • European Union
  • European Union (Continued)
  • Japan

Chapter-5: VENDOR PROFILES

  • ACROBOT COMPANY, LTD. (SURGICAL PLANNERS, NAVIGATORS, ROBOTS)
  • ANAMEDIC (SURGICAL SIMULATION SOFTWARE)
  • BERCHTOLD GMBH (INTELLIGENT OPERATING ROOM EQUIPMENT)
  • BOULDER INNOVATON GROUP
  • BRAINLAB AG (NAVIGATION SYSTEMS)
  • B. BRAUN AESCULAP (NAVIGATION SYSTEMS)
  • CASURGICA, INC. (NAVIGATION SYSTEMS)
  • CBYON, INC. (NAVIGATION SYSTEMS)
  • CONMED CORP. (INTELLIGENT OPERATING ROOM EQUIPMENT)
  • CUREXO TECHNOLOGY CORP. (SURGICAL ROBOTS)
  • FIFTH DIMENSION TECHNOLOGIES
  • 4NAVITEC GMBH (SURGICAL NAVIGATION ACCESSORIES)
  • GE HEALTHCARE (NAVIGATION SYSTEMS)
  • GIVEN IMAGING, LTD. (ROBOTICS)
  • HANSEN MEDICAL (ROBOTICS)
  • HAPTICA (SURGICAL SIMULATORS)
  • HITACHI MEDICAL CORP.
  • IMMERSION MEDICAL (SURGICAL SIMULATORS)
  • INTUITIVE SURGICAL, INC. (ROBOTICS)
    • TABLE 24 INTUITIVE SURGICAL, INC., FINANCIAL PERFORMANCE, THROUGH 2008 ($ MILLIONS)
  • KINAMED, INC. (SURGICAL NAVIGATION)
  • MAZOR SURGICAL TECHNOLOGIES, LTD.
  • MEDTRONIC, INC. (NAVIGATION SYSTEMS)
  • MENTICE MEDICAL SIMULATION AB (SURGICAL SIMULATORS)
  • MERGE HEALTHCARE (SURGICAL SIMULATORS)
  • MICRODEXTERITY SYSTEMS, INC. (ROBOTICS)
  • MICROVISION, INC. (SURGICAL NAVIGATION ACCESSORIES)
  • MISON (NAVIGATION SYSTEMS)
  • MUSCULOGRAPHICS, INC. (SURGICAL SIMULATION SOFTWARE)
  • ODIN MEDICAL TECHNOLOGIES
  • ORTHOSOFT INC. (NAVIGATION SYSTEMS)
  • PRAXIM MEDIVISION
  • PROSURGICS, LTD. (ROBOTICS)
  • RADIONICS, INC. (NAVIGATION SYSTEMS)
  • ROBOTIC SURGICAL TECH, INC.
  • SCHAERER MAYFIELD NEUROMATE AG (SURGICAL ROBOTS)
  • SIEMENS HEALTHCARE (NAVIGATION SYSTEMS)
  • SIMBIONIX USA CORP. (SURGICAL SIMULATORS)
  • SIMSURGERY (SURGICAL SIMULATORS)
  • SMITH & NEPHEW PLC (INTELLIGENT OPERATING ROOM)
  • STERIS CORP. (INTELLIGENT OPERATING ROOM EQUIPMENT)
  • KARL STORZ GMBH (INTELLIGENT OPERATING ROOMS)
  • STRYKER CORP. (NAVIGATION SYSTEMS, INTELLLIGENT OPERATING ROOMS)
  • SURGICAL SCIENCE AB (SURGICAL SIMULATORS)
  • VEREFI TECHNOLOGIES, INC. (SURGICAL SIMULATION)
  • VIKING SYSTEMS, INC. (SURGICAL NAVIGATION)
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