2013 Healthcare Research Review

  • December 2013
  • -
  • BCC Research
  • -
  • 166 pages

FOREWORD

Research Reviews from BCC Research provide market professionals with concise market coverage within a specific research category. These Research Reviews include portions of several market research reports that were published in 2013, and are an efficient way for market professionals to keep up with the general market developments of 2013.
Please note that page references in the text are to pages in the original, complete report, and do not reflect the actual page numbers in this Research Review.

This 2013 Healthcare Research Review includes excerpts from the following reports:
• HLC124A Emerging Diagnostic Technologies in the Changing U.S. Market.
• HLC084A Portable Medical Electronic Products: Technologies and Global Markets.
• HLC036E Medical Robotics and Computer-Assisted Surgery: The Global Market.
• HLC129A MEMS Devices in Global Medical Markets.
• HLC145A The Global Market for Intravascular Ultrasound Tools and Ancillary Equipment.

REPORT HIGHLIGHTS

• The U.S. emerging diagnostic technologies market was valued at $880 million in 2011 and should reach $1.2 billion in 2012. Total market value is expected to reach $3.2 billion in 2017 after increasing at a five-year compound annual growth rate (CAGR) of 20.9%.
• The global market for portable medical electronic products was valued at $49.3 billion in 2011 and should reach $51.9 billion in 2012. Total market value is expected to reach $77.4 billion in 2017 after increasing at a compound annual growth rate (CAGR) of 8.3%.
• The global MRCAS market was valued at nearly $2.2 billion in 2011 and should reach nearly $2.4 billion in 2012. Total market value is expected to reach nearly $4 billion in 2017 after increasing at a five-year compound annual growth rate (CAGR) of 10.6%.

Table Of Contents

TABLE OF CONTENTS

CHAPTER 1 ABOUT BCC RESEARCH REVIEWS 2

FOREWORD 2

CHAPTER 2 EMERGING DIAGNOSTIC TECHNOLOGIES IN THE CHANGING U.S. MARKET (REPORT HLC124A) 4

INTRODUCTION 4
STUDY BACKGROUND 4
GOALS AND OBJECTIVES 4
INTENDED AUDIENCE 4
SCOPE AND FORMAT 5
METHODOLOGY 5
AUTHOR'S CREDENTIALS 6
RELATED BCC RESEARCH REPORTS 6
SUMMARY 7
TABLE 1 U.S. MARKET FOR EMERGING DIAGNOSTIC TECHNOLOGIES, THROUGH
2017 ($ MILLIONS) 7
FIGURE 1 U.S. MARKET FOR EMERGING DIAGNOSTIC TECHNOLOGIES, ($ MILLIONS) 8
DEFINITIONS 8
DIAGNOSTIC TECHNOLOGIES 8
EMERGING TECHNOLOGIES 9
ENABLING TECHNOLOGIES 9
AUTOMATION/ROBOTICS 9
Automated Health Assessment and Monitoring 9
Automated Imaging and Image Analysis 10
Automated Laboratory Testing and Analysis 10
WIRELESS COMMUNICATIONS AND NETWORKING 11
Improved Sensors 11
Data Access and Sharing 11
Remote Diagnostics 12
ADVANCED SENSORS 12
Parameters Measured 12
Micro- and Nanosensors 13
Sensing Fabrics and Wearable Monitors 14
ARTIFICIAL INTELLIGENCE 14
END-USER SEGMENTS 16
HOSPITALS 16
FIGURE 2 TREND IN THE NUMBER OF U.S. HOSPITALS, 1995-2010 (UNITS) 16
PHYSICIAN PRACTICES 17
FIGURE 3 TREND IN THE NUMBER OF ACTIVE U.S. PHYSICIANS, 2002 AND 2009
(THOUSANDS) 17
TABLE 2 DISTRIBUTION OF U.S. PHYSICIANS BY PRACTICE SETTING/SIZE,
1996-2008 (%) 17
HOME CARE 18
FIGURE 4 TRENDS IN U.S. EXPENDITURES ON HOME HEALTHCARE, 2000-2010 ($
BILLIONS) 18
MILITARY 19
FIGURE 5 U.S. MILITARY HEALTH EXPENDITURES, FY 2000 TO FY 2011 ($ BILLIONS) 19
MEDICAL RESEARCH/CLINICAL LABORATORIES 20
EMERGING DIAGNOSTIC TECHNOLOGIES AND PRODUCTS 20
TABLE 3 EMERGING DIAGNOSTIC TECHNOLOGIES 20
ULTRASOUND 21
MAGNETIC RESONANCE IMAGING 21
NUCLEAR MEDICINE 21
COMPUTED TOMOGRAPHY 22
PHOTONICS, OPTICS AND SPECTROSCOPY 22
HYBRID IMAGING TECHNOLOGIES 22
TELEDIAGNOSIS 23
LABORATORY INFORMATION SYSTEMS 23
DIAGNOSTIC DECISION SUPPORT SYSTEMS 23
IMAGING AGENTS 23
TERAHERTZ TECHNOLOGY 23
WIRELESS DEVICES 24
OTHER TECHNOLOGIES 24
MARKET SUMMARY 24
TECHNOLOGY SEGMENTS 24
TABLE 4 U.S. MARKET FOR EMERGING DIAGNOSTIC TECHNOLOGIES, THROUGH
2017 ($ MILLIONS) 25
LEADING PRODUCTS 25
TABLE 5 NEW DIAGNOSTIC PRODUCTS EXPECTED TO SHOW LARGEST GAINS IN
DOLLAR SALES, 2011-2017 ($ MILLIONS) 26

CHAPTER 3 PORTABLE MEDICAL ELECTRONIC PRODUCTS: TECHNOLOGIES AND GLOBAL MARKETS (REPORT HLC084A) 28

INTRODUCTION 28
STUDY GOALS AND OBJECTIVES 28
REASONS FOR DOING THIS STUDY 28
INTENDED AUDIENCE 29
SCOPE OF REPORT 30
METHODOLOGY AND INFORMATION SOURCES 31
RELATED BCC RESEARCH STUDIES 32
ANALYST CREDENTIALS 32
EXECUTIVE SUMMARY 33
TABLE 6 GLOBAL MARKET FOR PORTABLE MEDICAL ELECTRONIC PRODUCTS,
THROUGH 2017 ($ BILLIONS) 34
FIGURE 6 GLOBAL MARKET FOR PORTABLE MEDICAL ELECTRONIC PRODUCTS,
2010-2017 ($ BILLIONS) 34
OVERVIEW 35
DEFINITIONS 35
MEDICAL ELECTRONICS AND PORTABLE MEDICAL ELECTRONIC PRODUCTS 35
TABLE 7 MEDICAL ELECTRONICS AND PORTABLE MEDICAL ELECTRONIC PRODUCTS 36
HISTORY OF PORTABLE MEDICAL ELECTRONIC PRODUCTS 36
TABLE 8 PORTABLE MEDICAL ELECTRONIC PRODUCTS: TECHNOLOGICAL
MILESTONES 36
FIGURE 7 PORTABLE MEDICAL ELECTRONIC PRODUCTS-WORLDWIDE PATENT
APPLICATIONS AND PATENTS ISSUED SINCE 1970 37
PORTABLE MEDICAL ELECTRONIC PRODUCTS 38
TABLE 9 PORTABLE MEDICAL ELECTRONIC PRODUCTS 39
APPLICATIONS 40
TABLE 10 APPLICATIONS OF PORTABLE MEDICAL ELECTRONIC PRODUCTS 40
Diagnosis and Testing 40
Therapy 41
First-aid and Others 41
END USERS 41
PORTABILITY 42

CHAPTER 4 MEDICAL ROBOTICS AND COMPUTER-ASSISTED SURGERY: THE GLOBAL MARKET (REPORT HLC036E) 44

INTRODUCTION 44
STUDY BACKGROUND 44
GOALS AND OBJECTIVES 45
INTENDED AUDIENCE 45
SCOPE AND FORMAT 46
METHODOLOGY AND INFORMATION SOURCES 46
ANALYST CREDENTIALS 47
RELATED BCC RESEARCH REPORTS 47
EXECUTIVE SUMMARY 47
TABLE 11 GLOBAL SALES OF MRCAS EQUIPMENT, THROUGH 2017 ($ MILLIONS) 48
FIGURE 8 TRENDS IN GLOBAL SALES OF MRCAS EQUIPMENT, 2011-2017 ($
MILLIONS) 48
OVERVIEW OF MRCAS 49
FIGURE 9 MEDICAL ROBOTIC AND COMPUTER-ASSISTED SURGICAL SYSTEMS 50
HISTORY OF MEDICAL ROBOTICS AND COMPUTER-ASSISTED SURGERY 50
SURGICAL IMAGING TECHNOLOGIES 51
IMAGE REGISTRATION TECHNIQUES 52
COMPUTER IMAGE PROCESSING 53
SURGICAL ROBOTS 53
"THE INTELLIGENT OPERATING ROOM" 54
SURGICAL SIMULATION 55
TECHNOLOGIES AND PRODUCTS 55
STANDALONE SURGICAL PLANNERS AND SIMULATORS 55
Technology 55
Modeling of Organs and Deformations 56
Simulation of Actions and Force Feedback Reactions 57
Emerging Technologies 58
Web-Based Surgical Simulators 58
Virtual Reality Simulators 58
Recent Patents 59
Advantages of Surgical Planners and Simulators 60
Products 61
TABLE 12 STANDALONE SURGICAL PLANNERS AND SIMULATORS 61
CAE Healthcare 62
Fifth Dimension Technologies 62
Haptica (acquired by CAE Healthcare in 2011) 62
Intuitive Surgical 62
Mentice Medical Simulation 63
Merge Healthcare 63
Simbionix 63
SimQuest 64
SimSurgery 64
Surgical Science 64
VirtaMed 65
VOXEL-MAN 65
Vrmagic 65
SURGICAL NAVIGATION SYSTEMS 65
Technologies 65
Imaging Technologies 66
Multimodal Imaging 66
Fluoroscopic Imaging 66
Video-Enhanced Imagery 67
Microscopic Imagery 68
Endoscopic Imagery 69
Dynamic (Interventional) Imaging 69
Compact MRI Scanners 70
Intraoperative CT 71
Intraoperative Ultrasound 71
Tracking Technologies 71
Optical Tracking 72
Electromagnetic Tracking 72
Display Technologies 72
Multiplanar Displays 72
Three-Dimensional Displays 72
Stereoscopic Displays 73
Virtual and Augmented Reality 73
Heads-Up Displays 73
Recent Patents 74
Advantages of Surgical Navigation Systems 76
Products 76
Image-Guided Surgical Navigation Systems 76
TABLE 13 IMAGE-GUIDED SURGICAL NAVIGATION SYSTEMS 77
Boulder Innovation Group 77
FlashPoint 5500 77
Brainlab AG 78
VectorVision 78
Kolibri 78
Curve 79
Med Surgical Services 79
CBYON Suite (CBYON) 79
Medtronic 80
StealthStation 80
Praxim/Orthopaedic Synergy 80
Nano-Station 80
Siemens Healthcare 80
NaviLink 80
NaviVision 80
Smith and Nephew 81
Dash 81
Stryker Corp. 81
Stryker Navigation System 81
Zimmer 81
ORTHOsoft 81
Interventional Navigation Systems 81
TABLE 14 INTERVENTIONAL SURGICAL NAVIGATION SYSTEMS 82
TABLE 15 COMPARISON OF NONFLUOROSCOPIC INTERVENTIONAL IMAGING
TECHNOLOGIES 82
B. Braun Aesculap 83
OrthoPilot 83
Kinamed 83
NaviPro 83
SONOWAND 84
SonoWand Invite 84
Medtronic 84
PoleStar 84
Smith and Nephew 85
PiGalileo 85
Surgical Navigation Accessories and Add-ons 85
TABLE 16 SURGICAL NAVIGATION ACCESSORIES AND ADD-ONS 86
Ascension Technology 86
Viking Stems 86
3-D-HD Visualization System and Infomatix 86
4navitec 87
Pointers, Trackers, Adapters, and Other Accessories 87
SURGICAL ROBOTS 87
Technology 87
Robotically Assisted Micromanipulation 87
Steady-Hand Systems 88
Robotic "Wrists" and Other Dexterity Enhancements 89
Preprogrammed Robots 89
Constraint Robots 90
Voice Control 91
Other Emerging Technologies 91
New Robotic Arm Designs 91
Remote Surgery 92
Natural-Orifice Surgery 92
Microbots 93
Recent Patents 94
Advantages of Robotics 96
Products 97
TABLE 17 SURGICAL ROBOTICS 97
Biobot Surgical 98
Mona Lisa 98
Corindus 98
CorPath 200 98
Curexo Technology 98
ROBODOC 98
Freehand 99
FreeHand 99
Given Imaging 99
Given Imaging Diagnostic System 99
Hansen Medical 99
Magellan 99
Sensei 99
Hitachi Medical Systems 100
Magnetic Resonance Image-Guided Surgical Robotic
System 100
IMRIS 100
NeuroArm 100
Intuitive Surgical Systems 101
da Vinci 101
MAKO Surgical 102
RIO 102
Mazor Surgical Technologies 102
Renaissance 102
MicroDexterity 103
MicroDex 103
Robotic Systems and Technologies 103
Penelope CS 103
Schaerer Mayfield 104
NeuroMate 104
SOFAR 104
ALF-X 104
Titan Medical 104
Amadeus 104
DIGITAL OPERATING ROOMS AND EQUIPMENT 105
Technologies 105
Data Routing 105
User Interface 106
Open System Architectures 106
Recent Patents 107
Advantages 108
Products 108
TABLE 18 INTELLIGENT OPERATING ROOM SOLUTIONS AND COMPONENTS 108
Stryker 109
iSuite Operating Room of the Future 109
SIDNE 109
Karl Storz 110
OR 1 NEO 110
Smith and Nephew 110
Digital Operating Room 110
Intuitive Surgical 110
HERMES 110
Steris Corp. 111
3085 SP Operating Table/Harmony Surgical Lighting
System 111
Skytron Surgical 111
Stellar Surgical Lighting Systems (Skytron Surgical) 111
Berchtold 111
CHROMOPHARE Surgical Lighting Systems 111
Covidien 112
Force FX Electrosurgical Generator 112
PRINCIPAL SURGICAL APPLICATIONS OF MRCAS 112
TABLE 19 PRINCIPAL SURGICAL APPLICATIONS OF MRCAS 112
ORTHOPEDIC APPLICATIONS 113
Hip Replacement 113
Knee Replacement 114
Trauma 114
Pedicle Screw Fixation and Other Spinal Procedures 115
NEUROSURGICAL APPLICATIONS 116
Stereotactic Biopsy 116
Craniotomy 116
Shunt 117
Implants 117
Deep Brain Stimulation 118
EAR, NOSE, AND THROAT (ENT) APPLICATIONS 118
Functional Endoscopic Sinus Surgery 118
CARDIAC APPLICATIONS 118
Coronary Bypass Surgery 118
Heart Valve Repair and Replacement 119
Percutaneous Coronary Intervention 119
OTHER ENDOSCOPIC APPLICATIONS 120

CHAPTER 5 MEMS DEVICES IN GLOBAL MEDICAL MARKETS (REPORT HLC129A) 122

INTRODUCTION 122
STUDY GOALS AND OBJECTIVES 122
REASONS FOR DOING THE STUDY 122
SCOPE OF REPORT 123
INTENDED AUDIENCE 123
INFORMATION SOURCES AND METHODOLOGY 123
ANALYST CREDENTIALS 124
RELATED BCC RESEARCH REPORTS 124
SUMMARY 124
TABLE 20 GLOBAL MEMS DEVICES MARKET BY REGION, THROUGH 2017 ($
MILLIONS) 124
FIGURE 10 GLOBAL MEMS DEVICES MARKET BY REGION, 2010-2017 ($ MILLIONS) 125
OVERVIEW 126
TECHNOLOGY EVOLUTION AND ADVANTAGES 127
KEY MEMS DEVICES AND APPLICATIONS FOR THE MEDICAL MARKET 127
FIGURE 11 MEMS DEVICES IN MEDICAL MARKET, 2010-2017 ($ MILLIONS) 127
MARKET DYNAMICS 129
DRIVERS 129
Wide Range of Products and Applications 129
Increasing Adoption of MEMS Devices by Different Stakeholders of
the Medical Industry 130
Technology and Product Advancements as Well as Innovations 130
Ongoing Promising Research and Development of MEMS Devices for
Medical Purposes 131
Contract Research and Development Organizations, and Products
Available for Licensing 131
Availability of Research Funding and Trend of Research
Collaborations 132
Rising Incidence of Infectious and Chronic Diseases Along with
Increase in Aging Population 132
Demographic and Economic Factors in Emerging Nations 133
RESTRAINTS AND CHALLENGES 133
Stringent Regulatory Environment 133
Growing Competition and Rapidly Changing Dynamics of Market
Needs 133
Less Awareness and Reliability 134
Long and Expensive Development Cycles and Facility Setting 134
Biocompatibility Issues 134
OPPORTUNITIES 134
FUTURE OF MEMS IN HEALTHCARE 135
REGULATORY ENVIRONMENT 135
KEY MARKET TRENDS 136
MARKET COMPETITION 136
DEVICES 136
RECOMMENDED STRATEGIES 137
DEVELOP TECHNOLOGIES AND CAPABILITIES THAT HELP TO REDUCE THE
PRODUCTION TIME 137
EXPLORE OPTIONS OF PARTNERSHIPS OR COLLABORATIONS IN ORDER TO
ENTER THE MARKET TO EXPAND THE PRESENCE 137
USE MULTIPLE CHANNELS TO DISSEMINATE PRODUCT INFORMATION 138
FOCUS ON AND EXPLORE INNOVATION, PRODUCT ADVANCEMENTS AND
HIGH-GROWTH APPLICATIONS 138
INCORPORATE SENSING COMPONENTS IN DRUG DELIVERY DEVICES 138
SET THE FOCUS AND EXPAND INTO NICHE MARKETS 138
PATENT ANALYSIS 139
FIGURE 12 PATENT ANALYSIS BY REGION, 2010-2012 139

CHAPTER 6 THE GLOBAL MARKET FOR INTRAVASCULAR ULTRASOUND TOOLS AND ANCILLARY EQUIPMENT (REPORT HLC145A) 142

INTRODUCTION 142
STUDY GOALS AND OBJECTIVES 143
REASONS FOR DOING THE STUDY 143
SCOPE OF REPORT 144
INTENDED AUDIENCE 144
INFORMATION SOURCES AND METHODOLOGY 144
ANALYST CREDENTIALS 145
RELATED BCC RESEARCH REPORTS 145
SUMMARY 145
TABLE 21 GLOBAL IVUS PRODUCTS MARKET BY REGION, THROUGH 2017 ($
MILLIONS) 146
FIGURE 13 GLOBAL IVUS PRODUCTS MARKET BY REGION, 2010-2017 ($ MILLIONS) 146
OVERVIEW 147
IVUS TECHNOLOGY EVOLUTION AND INDUSTRY LIFE CYCLE STAGE 147
IVUS INDUSTRY IN JAPAN-RELATIVELY MATURE MARKET 148
IVUS INDUSTRY WORLDWIDE (EXCEPT JAPAN)-GROWING PHASE 148
IVUS PRODUCT MARKET ANALYSIS 148
FIGURE 14 MARKET SHARE OF KEY PRODUCTS IN IVUS MARKET, 2012 (%) 149
PRODUCT DIFFERENTIATION-IVUS IMAGING SYSTEMS 149
IVUS KEY APPLICATIONS MARKET ANALYSIS 150
FIGURE 15 KEY APPLICATIONS AREAS OF IVUS VERSUS TOTAL APPLICATION,
2010-2017 ($ MILLIONS) 151
IVUS END-USER MARKET ANALYSIS 151
FIGURE 16 MARKET SHARE OF KEY END USERS IN IVUS MARKET, 2012 (%) 151
REGULATORY ENVIRONMENT 152
MARKET DYNAMICS 153
DRIVERS 153
Emergence of Favorable and Positive IVUS Clinical Data 153
Competitive Edge of IVUS over Angiography 154
Technology Advancements, Product Developments and Innovations 154
Collaborations of Some Market Players with Leading Laboratory
Suppliers 156
Growing and Expanding Applications Coupled with a Rise in Stent
Deployments 156
Growing Patient Population, Increasing Burden of Diseases and Rise
in Global Aging Population 157
Lower Penetration of IVUS Worldwide and Declining PCI Rate 157
TABLE 22 APPROXIMATE GLOBAL IVUS PENETRATION IN PCI 2012, BY REGION
(THOUSANDS/%) 158
RESTRAINTS AND CHALLENGES 158
Reimbursement Issues 158
High Cost of Products and Low Average Selling Prices 159
Two-Way Growing Competition 159
Stringent Regulatory Environment 160
Other Restraints 160
OPPORTUNITIES 161
Products 161
Applications and Geographic Expansion 161
IVUS VERSUS OTHER COMPETITIVE TECHNOLOGIES 162
IVUS VS OPTICAL COHERENCE TOMOGRAPHY (OCT) 162
IVUS VS FRACTIONAL FLOW RESERVE (FFR) 163
COST BENEFIT ANALYSIS 163
MARKET TRENDS 164
COMPETITIVE SCENARIO AND MARKET SHARE ANALYSIS 164
FIGURE 17 GLOBAL IVUS MARKET SHARE BY KEY MARKET PLAYERS, 2012 (%) 165
FIGURE 18 JAPANESE IVUS MARKET SHARE BY KEY MARKET PLAYERS, 2012 (%) 166
FIGURE 19 U.S. IVUS MARKET SHARE BY KEY MARKET PLAYERS, 2012 (%) 167
IVUS MARKET: THE ROAD AHEAD 167
RECOMMENDATIONS/STRATEGIES 169
CONSIDER MAKING EFFORTS TOWARD BETTER IMAGE INTERPRETATION 169
EXPLORE WAYS TO DEVELOP COMPETITIVE EDGE OVER COMPETING
TECHNOLOGIES IN THEIR OBSTACLE AREAS 169
INVESTIGATE THE TRAINING REQUIREMENTS OF DIFFERENT REGIONS
REGULARLY AND CONSIDER DEVELOPING TRAINING SERVICES
ACCORDINGLY
169
CONSIDER INVESTMENTS IN EMERGING ECONOMIES 169
FOCUS ON DEVELOPING MULTIMODALITY SYSTEMS 170
EXPLORE MARKETING AND PRODUCT DEVELOPMENT COLLABORATIONS 170
EVALUATE THE OPTIMAL SALES MODEL FOR RELATIVELY MORE POTENTIAL
REGIONS 170
FOCUS MORE ON DISSEMINATING IVUS BENEFITS THROUGH MULTIPLE
CHANNELS 171
CONSIDER INPUT OF KEY STAKEHOLDERS WHILE DEVELOPING PRODUCTS 171
PATENT ANALYSIS 171
FIGURE 20 PATENT ANALYSIS BY REGION, 2010-FEB. 2013 (%) 171



LIST OF TABLES

TABLE 1 U.S. MARKET FOR EMERGING DIAGNOSTIC TECHNOLOGIES, THROUGH 2017
($ MILLIONS) 7
TABLE 2 DISTRIBUTION OF U.S. PHYSICIANS BY PRACTICE SETTING/SIZE, 1996-2008
(%) 17
TABLE 3 EMERGING DIAGNOSTIC TECHNOLOGIES 20
TABLE 4 U.S. MARKET FOR EMERGING DIAGNOSTIC TECHNOLOGIES, THROUGH 2017
($ MILLIONS) 25
TABLE 5 NEW DIAGNOSTIC PRODUCTS EXPECTED TO SHOW LARGEST GAINS IN
DOLLAR SALES, 2011-2017 ($ MILLIONS) 26
TABLE 6 GLOBAL MARKET FOR PORTABLE MEDICAL ELECTRONIC PRODUCTS,
THROUGH 2017 ($ BILLIONS) 34
TABLE 7 MEDICAL ELECTRONICS AND PORTABLE MEDICAL ELECTRONIC PRODUCTS 36
TABLE 8 PORTABLE MEDICAL ELECTRONIC PRODUCTS: TECHNOLOGICAL
MILESTONES 36
TABLE 9 PORTABLE MEDICAL ELECTRONIC PRODUCTS 39
TABLE 10 APPLICATIONS OF PORTABLE MEDICAL ELECTRONIC PRODUCTS 40
TABLE 11 GLOBAL SALES OF MRCAS EQUIPMENT, THROUGH 2017 ($ MILLIONS) 48
TABLE 12 STANDALONE SURGICAL PLANNERS AND SIMULATORS 61
TABLE 13 IMAGE-GUIDED SURGICAL NAVIGATION SYSTEMS 77
TABLE 14 INTERVENTIONAL SURGICAL NAVIGATION SYSTEMS 82
TABLE 15 COMPARISON OF NONFLUOROSCOPIC INTERVENTIONAL IMAGING
TECHNOLOGIES 82
TABLE 16 SURGICAL NAVIGATION ACCESSORIES AND ADD-ONS 86
TABLE 17 SURGICAL ROBOTICS 97
TABLE 18 INTELLIGENT OPERATING ROOM SOLUTIONS AND COMPONENTS 108
TABLE 19 PRINCIPAL SURGICAL APPLICATIONS OF MRCAS 112
TABLE 20 GLOBAL MEMS DEVICES MARKET BY REGION, THROUGH 2017 ($ MILLIONS) 124
TABLE 21 GLOBAL IVUS PRODUCTS MARKET BY REGION, THROUGH 2017 ($
MILLIONS) 146
TABLE 22 APPROXIMATE GLOBAL IVUS PENETRATION IN PCI 2012, BY REGION
(THOUSANDS/%) 158



LIST OF FIGURES

FIGURE 1 U.S. MARKET FOR EMERGING DIAGNOSTIC TECHNOLOGIES, ($ MILLIONS) 8
FIGURE 2 TREND IN THE NUMBER OF U.S. HOSPITALS, 1995-2010 (UNITS) 16
FIGURE 3 TREND IN THE NUMBER OF ACTIVE U.S. PHYSICIANS, 2002 AND 2009
(THOUSANDS) 17
FIGURE 4 TRENDS IN U.S. EXPENDITURES ON HOME HEALTHCARE, 2000-2010 ($
BILLIONS) 18
FIGURE 5 U.S. MILITARY HEALTH EXPENDITURES, FY 2000 TO FY 2011 ($ BILLIONS) 19
FIGURE 6 GLOBAL MARKET FOR PORTABLE MEDICAL ELECTRONIC PRODUCTS,
2010-2017 ($ BILLIONS) 34
FIGURE 7 PORTABLE MEDICAL ELECTRONIC PRODUCTS-WORLDWIDE PATENT
APPLICATIONS AND PATENTS ISSUED SINCE 1970 37
FIGURE 8 TRENDS IN GLOBAL SALES OF MRCAS EQUIPMENT, 2011-2017 ($
MILLIONS) 48
FIGURE 9 MEDICAL ROBOTIC AND COMPUTER-ASSISTED SURGICAL SYSTEMS 50
FIGURE 10 GLOBAL MEMS DEVICES MARKET BY REGION, 2010-2017 ($ MILLIONS) 125
FIGURE 11 MEMS DEVICES IN MEDICAL MARKET, 2010-2017 ($ MILLIONS) 127
FIGURE 12 PATENT ANALYSIS BY REGION, 2010-2012 139
FIGURE 13 GLOBAL IVUS PRODUCTS MARKET BY REGION, 2010-2017 ($ MILLIONS) 146
FIGURE 14 MARKET SHARE OF KEY PRODUCTS IN IVUS MARKET, 2012 (%) 149
FIGURE 15 KEY APPLICATIONS AREAS OF IVUS VERSUS TOTAL APPLICATION,
2010-2017 ($ MILLIONS) 151
FIGURE 16 MARKET SHARE OF KEY END USERS IN IVUS MARKET, 2012 (%) 151
FIGURE 17 GLOBAL IVUS MARKET SHARE BY KEY MARKET PLAYERS, 2012 (%) 165
FIGURE 18 JAPANESE IVUS MARKET SHARE BY KEY MARKET PLAYERS, 2012 (%) 166
FIGURE 19 U.S. IVUS MARKET SHARE BY KEY MARKET PLAYERS, 2012 (%) 167
FIGURE 20 PATENT ANALYSIS BY REGION, 2010-FEB. 2013 (%) 171

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