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市場調査レポート

医療用ロボットとコンピューター支援手術:世界市場(欧州市場)

Medical Robotics and Computer-Assisted Surgery: The Global Market (Focus on Europe)

発行 BCC Research 商品コード 216641
出版日 ページ情報 英文 136 Pages
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医療用ロボットとコンピューター支援手術:世界市場(欧州市場) Medical Robotics and Computer-Assisted Surgery: The Global Market (Focus on Europe)
出版日: 2011年09月30日 ページ情報: 英文 136 Pages
概要

当レポートでは、医療用ロボットとコンピューター支援手術(MRCAS)の概要と種類、主な応用、欧州市場を中心とした2011年の市場動向と2016年までの市場規模と予測、競合企業のプロファイルなどをまとめ、概略下記の構成でお届けいたします。

第1章 イントロダクション

第2章 エグゼクティブサマリー

第3章 概要

  • MRCASの概要と定義
  • 医療用ロボットとコンピューター支援手術の歴史
    • 手術用画像技術
    • 画像登録技術
    • コンピュータ画像加工
    • 手術用ロボット
    • "インテリジェント手術室"
    • 手術シミュレーション
  • 技術と製品
    • スタンドアローン手術プランナーおよびシミュレータ
    • 手術ナビゲーションシステム
    • 手術用ロボット
    • デジタル手術室・設備
  • MRCASの手術における応用
    • 整形外科
    • 神経外科
    • 耳鼻咽喉科
    • 心臓外科
    • その他内視鏡

第4章 MRCAS装置の世界市場

  • 世界市場
  • 国・地域別
  • 装置別
  • 応用別
  • 業界構造と競争
    • 市場のリーダー
    • 手術プランナーとシミュレータ
    • 手術ナビゲーションシステム
    • 手術用ロボット
    • インテリジェント手術室ソリューション

第5章 欧州のMRCAS装置市場

  • 市場環境
    • 人口統計
    • 経済
    • 法規制環境
  • 市場規模とセグメンテーション
    • 市場全体
    • 国別
    • 装置別
    • 応用別

第6章 ベンダープロファイル

図表

目次
Product Code: HLC099A

Abstract

REPORT HIGHLIGHTS

THIS REPORT CONTAINS

  • An overview of the major types and applications of medical robotics and computer-assisted surgery, with a focus on the markets in Europe
  • Analyses of market trends, with data from 2010, estimates for 2011, and projections of compound annual growth rates (CAGRs) through 2016
  • Market size and segmentation, including historical data on sales by application, product type, and regional market
  • Discussion of the industry structure, including competition and market shares
  • Identification of promising new surgical procedures and products still in the development and testing stages, and assessments of the probability that they will be commercialized successfully within the next five years
  • Comprehensive company profiles of major players.

SUMMARY FIGURE
TRENDS IN GLOBAL SALES OF MRCAS EQUIPMENT, 2010-2016
($ MILLIONS)

Source: BCC Research

STUDY BACKGROUND

Information technology plays a key role in an ever-widening range of human activities, including surgery. Computers, working in tandem with a variety of microprocessor-enabled equipment and instruments, support and facilitate the work of the surgeon and have brought a level of safety and precision to surgery that would have been inconceivable just a few years ago.

These computers, electronic equipment, and instruments are referred to collectively as medical robotics and computer-assisted surgery (MRCAS) or, more dramatically, “the operating room of the future.” MRCAS is used in a growing number of operating rooms around the world, largely as a result of the growing popularity of minimally invasive surgical (MIS) techniques. Minimally invasive, or “keyhole” surgery is an alternative to traditional open-incision surgery in a growing number of procedures. MIS utilizes special instruments that can be inserted and manipulated through small incisions (sometimes no more than a few millimeters long) under remote optical or video guidance, greatly reducing patient trauma and recovery times.

The need to perform delicate surgical procedures safely in tight spaces where the surgeon cannot see directly has created a growing market for devices that act as extensions of the surgeon' s eyes and hands: remote imaging, data processing and feedback, and robotics. Meanwhile, MRCAS technology has been evolving, as have the medical and economic environments in which it is used. Populations are aging, increasing demand for a wide range of age-related surgical procedures such as heart and orthopedic surgery. Technological advances have expanded the range of surgical procedures that can be performed using minimally invasive techniques, making them accessible to even more people.

The structure of the hospital industry, the main user of MRCAS, is also changing as hospitals consolidate and other health care options such as walk-in surgical clinics become available to consumers. Private and government health insurers around the world are becoming more cost-conscious, forcing hospitals to re-evaluate their capital spending plans but strengthening the case for technologies that can reduce the cost of surgical procedures. Medical malpractice suits continue to be common in markets like the United States, so technologies that increase the precision and accuracy of surgery have obvious appeal.

In such a fast-moving field, there is a pressing need to develop and maintain an up-to-date base of market information in order to better understand the dynamics of the market for MRCAS devices and equipment.

GOALS AND OBJECTIVES

This report is an updated and expanded version of an earlier (2009) BCC Research analysis of U.S. and global markets for MRCAS equipment. The updated report is based on the most recent market information available, and analyzes technological, economic, and regulatory developments that may have a long-term impact on the size and structure of the MRCAS market. The new report also contains a more in-depth and detailed analysis of selected foreign markets than its predecessor.

More specific objectives of this report 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 by 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 within 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 AND FORMAT

This report is an analytical business tool with the primary purpose of describing 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., CT, 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 2016
  • Competition and market shares
  • Observations and conclusions regarding the future of the MRCAS market

METHODOLOGY AND INFORMATION SOURCES

Both primary and secondary research methodologies were used in preparing this report. 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 2010. With 2010 as a baseline, market projections were developed for 2011 to 2016. 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 2010 constant dollars.

ANALYST CREDENTIALS

The author of this report is Andrew McWilliams. Mr. McWilliams, a partner in the Boston-based international technology and marketing consulting firm of 43rd Parallel, LLC, is the author of several other BCC Research studies of the surgical and related medical devices markets.

Table of Contents

Medical Robotics and Computer-Assisted Surgery: The Global Market (focus on Europe)

Chapter - 1: INTRODUCTION - Complimentary

  • STUDY BACKGROUND
  • GOALS AND OBJECTIVES
  • INTENDED AUDIENCE
  • SCOPE AND FORMAT
  • METHODOLOGY AND INFORMATION SOURCES
  • ANALYST CREDENTIALS
  • RELATED BCC RESEARCH
  • BCC ONLINE SERVICES
  • DISCLAIMER

Chapter - 2: EXECUTIVE SUMMARY

  • Table Summary: GLOBAL SALES OF MRCAS EQUIPMENT, THROUGH 2016
  • Figure Summary: TRENDS IN GLOBAL SALES OF MRCAS EQUIPMENT, 2010-2016

Chapter - 3: OVERVIEW

  • GENERAL DESCRIPTION AND DEFINITION OF MRCAS
  • HISTORY OF MEDICAL ROBOTICS AND COMPUTER-ASSISTED SURGERY
  • TECHNOLOGIES AND PRODUCTS
  • PRINCIPAL SURGICAL APPLICATIONS OF MRCAS
    • Figure 1: MEDICAL ROBOTIC AND COMPUTER-ASSISTED SURGICAL SYSTEMS

Chapter - 4: THE GLOBAL MARKET FOR MRCAS EQUIPMENT

  • GLOBAL MRCAS MARKET
  • MARKET BY COUNTRY/REGION
  • MARKET BY TYPE OF EQUIPMENT
  • MARKET BY TYPE OF APPLICATION
  • INDUSTRY STRUCTURE AND COMPETITION
    • Figure 2: TRENDS IN THE GLOBAL MRCAS MARKET, 2010-2016

Chapter - 5: EUROPEAN MARKETS FOR MRCAS EQUIPMENT

  • MARKET ENVIRONMENT
  • MARKET SIZE AND SEGMENTATION

Chapter - 6: VENDOR PROFILES

  • ANAMEDIC
  • BERCHTOLD GMBH
  • BOULDER INNOVATION GROUP
  • BRAINLAB AG
  • B. BRAUN AESCULAP
  • CAE HEALTHCARE
  • CONMED CORP.
  • CUREXO TECHNOLOGY CORP.
  • FIFTH DIMENSION TECHNOLOGIES
  • 4NAVITEC GMBH
  • GE HEALTHCARE
  • GIVEN IMAGING, LTD.
  • HANSEN MEDICAL (ROBOTICS)
  • HAPTICA
  • HITACHI MEDICAL CORP.
  • IMMERSION CORP.
  • INTEGRA RADIONICS, INC.
  • INTUITIVE SURGICAL, INC.
  • KINAMED, INC.
  • MAKO SURGICAL CORP.
  • MAZOR SURGICAL TECHNOLOGIES, LTD.
  • MED-SURGICAL SERVICES INC.
  • MEDTRONIC, INC.
  • MENTICE MEDICAL SIMULATION AB
  • MERGE HEALTHCARE
  • MICRODEXTERITY SYSTEMS, INC.
  • MUSCULOGRAPHICS, INC.
  • ODIN MEDICAL TECHNOLOGIES
  • PRAXIM MEDIVISION
  • PROSURGICS, LTD.
  • ROBOTIC SURGICAL TECH, INC.
  • SCHAERER MAYFIELD NEUROMATE AG
  • SIEMENS HEALTHCARE
  • SIMBIONIX USA CORP.
  • SIMSURGERY
  • SMITH & NEPHEW PLC
  • SONOWAND
  • STERIS CORP.
  • KARL STORZ GMBH
  • STRYKER CORP.
  • SURGICAL SCIENCE AB
  • TITAN MEDICAL INC.
  • VIKING SYSTEMS, INC.
  • ZIMMER, INC.

List of Tables

  • Summary Table: GLOBAL SALES OF MRCAS EQUIPMENT, THROUGH 2016
    • Table 1: STANDALONE SURGICAL PLANNERS AND SIMULATORS
    • Table 2: IMAGE-GUIDED SURGICAL NAVIGATION SYSTEMS
    • Table 3: INTERVENTIONAL SURGICAL NAVIGATION SYSTEMS
    • Table 4: COMPARISON OF NONFLUOROSCOPIC INTERVENTIONAL IMAGING TECHNOLOGIES
    • Table 5: SURGICAL NAVIGATION ACCESSORIES AND ADD-ONS
    • Table 6: SURGICAL ROBOTICS
    • Table 7: INTELLIGENT OPERATING ROOM SOLUTIONS AND COMPONENTS
    • Table 8: PRINCIPAL SURGICAL APPLICATIONS OF MRCAS
    • Table 9: MAJOR INTERNATIONAL MARKETS FOR MRCAS DEVICES AND EQUIPMENT, THROUGH 2016
    • Table 10: GLOBAL MRCAS MARKET BY TYPE OF EQUIPMENT, THROUGH 2016
    • Table 11: GLOBAL MRCAS MARKET BY TYPE OF APPLICATION, THROUGH 2016
    • Table 12: MAJOR MRCAS VENDORS' MARKET SHARES, 2010
    • Table 13: EUROPEAN MARKET DEMOGRAPHIC INDICATORS, 2010
    • Table 14: EUROPEAN MARKET ECONOMIC INDICATORS, 2010
    • Table 15: EUROPEAN MRCAS MARKET BY COUNTRY, THROUGH 2016
    • Table 16: EUROPEAN MRCAS MARKET BY TYPE OF EQUIPMENT, THROUGH 2016
    • Table 17: EUROPEAN MRCAS MARKET BY TYPE OF APPLICATION, THROUGH 2016
    • Table 18: INTUITIVE SURGICAL, INC., FINANCIAL PERFORMANCE, THROUGH 2010

List of Figures

  • Summary Figure: TRENDS IN GLOBAL SALES OF MRCAS EQUIPMENT, 2010-2016
    • Figure 1: MEDICAL ROBOTIC AND COMPUTER-ASSISTED SURGICAL SYSTEMS
    • Figure 2: TRENDS IN THE GLOBAL MRCAS MARKET, 2010-2016
    • Figure 3: GLOBAL MRCAS MARKET SHARES BY COUNTRY/REGION, 2010 VERSUS 2016
    • Figure 4: GLOBAL MRCAS MARKET SHARES BY EQUIPMENT SEGMENT, 2010 VERSUS 2016
    • Figure 5: GLOBAL MRCAS MARKET SHARES BY APPLICATION SEGMENT, 2010 VERSUS 2016
    • Figure 6: U.S. OVERALL MRCAS MARKET LEADERS, 2010
    • Figure 7: GLOBAL SURGICAL PLANNER AND SIMULATOR MARKET LEADERS, 2010
    • Figure 8: GLOBAL SURGICAL NAVIGATION SYSTEM MARKET LEADERS, 2010
    • Figure 9: GLOBAL SURGICAL ROBOT MARKET SHARES, 2010
    • Figure 10: GLOBAL INTEGRATED OPERATING ROOM SOLUTIONS MARKET LEADERS, 2010
    • Figure 11: EUROPEAN MARKET FOR MRCAS
    • Figure 12: EUROPEAN MRCAS MARKET INDIVIDUAL COUNTRY SHARES, 2010 AND 2016
    • Figure 13: EUROPEAN MRCAS MARKET EQUIPMENT SHARES, 2010 AND 2016
    • Figure 14: EUROPEAN MRCAS MARKET APPLICATION SHARES, 2010 AND 2016
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