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Американські ринки хірургічного обладнання з візуалізаційним контролем (U.S. MARKETS FOR IMAGE-GUIDED SURGERY PRODUCTS)



Американський ринок IGS обладнання включає в себе дві категорії: системи візуалізації використовують в поєднанні з основним катетером і відкриті хірургічні втручання, і комп'ютерні інтраопераційні хірургічні навігаційні системи. Об'єднаний ринок США IGS систем буде помірно рости протягом прогнозованого періоду, що розглядається в статті, досягнувши приблизно $ 1,700.9 млн. дол. США в 2016 році. В даній роботі представлений аналіз конкурентів, продукції, продажу та можливостей на ринку США IGS систем.

Imaging plays a crucial role in the growing domain of image-guided surgery (IGS) and endoluminal interventions. Advances in imaging technologies and graphic data management capabilities are expected to expand the scope of practical clinical applications of IGS/interventional techniques and expedite their broader acceptance by increasingly cost-conscious healthcare providers.

The United States (U.S.) market for IGS products comprises two categories: imaging systems that are used in conjunction with catheter-based and open surgical interventions and computer-assisted intraoperative surgical navigation systems. Imaging systems covered by the scope of this report include computed tomography, magnetic resonance imaging, nuclear medicine/molecular imaging, noninvasive and intravascular ultrasound, and X-ray systems.

The combined U.S. market for IGS products is projected to grow moderately during the forecast period covered by this report, reaching an estimated $1,700.9 million in the year 2016. Interventional and surgical imaging will be supported by growth in less invasive and interventional procedures and the increasing availability of sophisticated informatics-loaded imaging tools, as well as the use of image-guided procedures for previously untouched indications.

This new report from Medtech Insight includes analyses of competitors, products, sales, and opportunities in the U.S. market for IGS systems. Company profiles are provided for the leading suppliers of imaging equipment and surgical navigation systems to the U.S.

EXECUTIVE SUMMARY

i. Image-Guided Surgery Applications
a. Procedure Volumes, by Application
i. Cardiovascular and Peripheral Vascular Transcatheter Interventions
ii. Neurosurgical Interventions
iii. Orthopedic Procedures
iv. Otorhinolaryngologic Procedures
v. Spine Surgery
b. Procedure Volumes, by Modality
ii. Imaging Systems
a. Market Analysis
iii. Surgical Navigation Systems
a. Market Analysis
iv. Combined Market Forecast
v. Methodology

Exhibit ES-1: Image-Guided Surgery, Procedure Volumes Forecast, by Application,2011-2016
Exhibit ES-2: Interventional/Surgical Imaging, Procedure Volumes Forecast, by Modality, 2011-2016
Exhibit ES-3: Imaging Systems, Market Forecast, 2011-2016
Exhibit ES-4: Surgical Navigation Systems, Market Forecast, 2011-2016
Exhibit ES-5: Image-Guided Surgery Products, Combined Market Forecast, 2011-2016

1. IMAGE-GUIDED SURGERY OVERVIEW

1.1 Technology
1.1.1 "Imageless" Image-Guided Surgery
1.1.2 Standard Image-Guided Surgery
1.1.3 Hybrid Image-Guided Surgery
1.1.4 Continuous Real-Time Image-Guided Surgery
1.2 Clinical Benefits
1.3 Adoption Issues and Trends
1.3.1 Reimbursement
1.3.2 Cost-Effectiveness Analysis
Exhibit 1-1: Advantages and Disadvantages of Image-Guided/Computer-Assisted Surgery Techniques
Exhibit 1-2: Selected Clinical Applications of Image-Guided/Computer-Assisted Surgery Techniques
Exhibit 1-3: Considerations Influencing Adoption of Computer-Assisted Image-Guided Surgery by End-Users

2. IMAGE-GUIDED SURGERY APPLICATIONS

2.1 Cardiovascular Transcatheter Interventions
2.1.1 Angioplasty and Stenting
2.1.2 Catheter-Directed Thrombolysis
2.1.3 Cryoangioplasty
2.1.4 Device-Based Endovascular Embolization
2.1.5 Endovascular Repair of Aortic Aneurysms
2.1.5.1 Endovascular Repair of Abdominal Aortic Aneurysms
2.1.5.2 Endovascular Repair of Thoracic Aortic Aneurysms
2.1.6 Laser Atherectomy
2.1.7 Mechanical Atherectomy
2.1.8 Mechanical Thrombectomy
2.1.9 Management of Myocardial Disorders
2.1.9.1 Balloon Valvuloplasty
2.1.9.2 Septal Defect Repair
2.1.9.2.1 Percutaneous Patent Ductus Arteriosus Closure
2.1.9.2.2 Atrial Septal Defect Closure
2.1.9.2.3 Ventricular Septal Defect
2.1.9.2.4 Patent Foramen Ovale Repair
2.1.9.3 Percutaneous Valve Repair
2.1.10 Arrhythmia Ablation
2.1.11 Vena Cava Filter Placement
2.1.12 Procedure Volumes, Image-Guided Cardiovascular and Peripheral Vascular Transcatheter Interventions
2.2 Neurosurgery
2.2.1 Stereotaxy
2.2.1.1 Frame-Based Stereotactic Systems
2.2.1.2 Frameless Stereotactic Systems
2.2.1.3 Brain Shift Compensation
2.2.2 Common Image-Guided Neurosurgical Procedures
2.2.2.1 Central Nervous System Tumor Resection
2.2.2.2 Cerebrospinal Fluid Shunting and Drainage for Hydrocephalus
2.2.2.3 Aneurysm/Arteriovenous Malformation Repair and Surgical Clipping
2.2.2.4 Epilepsy Surgery
2.2.2.5 Deep Brain Stimulation for Parkinson's Disease
2.2.3 Procedure Volumes, Image-Guided Neurosurgery
2.3 Otorhinolaryngologic Surgery
2.3.1 Image-Guided Functional Endoscopic Sinus Surgery
2.3.2 Procedure Volumes, Image-Guided Otorhinolaryngologic Surgery
2.4 Orthopedic Surgery
2.4.1 Total Joint Arthroplasty
2.4.1.1 Hip Replacement
2.4.1.2 Knee Replacement
2.4.1.2.1 Unicompartmental Knee Replacement
2.4.1.3 Computer-Assisted Surgical Navigation in Total Joint Surgery
2.4.1.4 Computer-Assisted High Tibial Osteotomy
2.4.2 Image-Guided Surgery Tools for Complex Fracture Repair
2.4.3 Procedure Volumes, Computer-Assisted Surgical Navigation in Orthopedic Surgery
2.5 Spine Surgery
2.5.1 Discectomy
2.5.2 Laminectomy and Laminotomy
2.5.3 Spinal Fusion
2.5.4 Procedure Volumes, Computer-Assisted Surgical Navigation in Spine Surgery
Exhibit 2-1: Characteristics of Cardiovascular and Peripheral Vascular Catheter-Based Therapeutics
Exhibit 2-2: Cardiovascular and Peripheral Vascular Transcatheter Therapeutics, Procedure Volumes Forecast, 2011-2016
Exhibit 2-3: Comparison of Frame-Based and Frameless Neurosurgical Stereotactic Systems
Exhibit 2-4: Characteristics of Image-Guided Neurosurgery
Exhibit 2-5: Image-Guided Neurosurgical Interventions, Procedure Volumes Forecast, 2011-2016
Exhibit 2-6: Characteristics of Image-Guided Otorhinolaryngologic Surgery
Exhibit 2-7: Image-Guided Otorhinolaryngologic Surgery, Procedure Volumes Forecast, 2011-2016
Exhibit 2-8: Characteristics of Image-Guided Orthopedic Surgery
Exhibit 2-9: Image-Guided Orthopedic Surgery, Procedure Volumes Forecast, 2011-2016
Exhibit 2-10: Characteristics of Image-Guided Spine Surgery
Exhibit 2-11: Image-Guided Spine Surgery, Procedure Volumes Forecast, 2011-2016

3. MEDICAL IMAGING MODALITIES

3.1 X-Ray Imaging
3.1.1 Conventional X-Ray Imaging
3.1.1.1 Digital X-Ray
3.1.1.1.1 Computed Radiography
3.1.1.1.2 Direct Digital Radiography
3.1.1.2 Fluoroscopy
3.1.1.3 Cardiac X-Ray Imaging Applications
3.1.1.4 Surgical X-Ray Imaging Applications
3.1.1.5 Procedure Volumes
3.2 Computed Tomography
3.2.1 Spiral Computed Tomography
3.2.2 Multislice Computed Tomography
3.2.2.1 Dual-Source Multislice Computed Tomography
3.2.3 Computed Tomography Angiography
3.2.4 Perfusion Computed Tomography
3.2.5 Interventional and Surgical Computed Tomography Applications
3.2.6 Procedure Volumes
3.3 Magnetic Resonance Imaging
3.3.1 Magnetic Resonance Angiography
3.3.1.1 Contrast-Enhanced Magnetic Resonance Angiography
3.3.1.2 Phase-Contrast Magnetic Resonance Angiography
3.3.1.3 Time-of-Flight Magnetic Resonance Angiography
3.3.2 Functional Magnetic Resonance Imaging
3.3.3 Proton Magnetic Resonance Spectroscopy
3.3.4 Interventional and Surgical Magnetic Resonance Imaging Applications
3.3.5 Procedure Volumes
3.4 Nuclear Medicine/Molecular Imaging
3.4.1 Gamma Camera Imaging
3.4.2 Positron Emission Tomography
3.4.3 Fusion Techniques
3.4.4 Radioimmunoscintigraphy
3.4.5 Interventional and Surgical Nuclear Medicine/ Molecular Imaging Applications
3.4.6 Procedure Volumes
3.5 Ultrasound Imaging
3.5.1 Echocardiography
3.5.2 Tissue Harmonic Imaging
3.5.3 Doppler Imaging
3.5.4 Duplex Ultrasound
3.5.5 Three-Dimensional and Four-Dimensional Ultrasound
3.5.6 Contrast-Enhanced Ultrasound
3.5.7 Intravascular Ultrasound
3.5.8 Interventional and Surgical Ultrasound Imaging Applications
3.5.9 Procedure Volumes
3.6 Combined Procedure Volumes Forecast

Exhibit 3-1: Selected Interventional and Surgical Conventional X-Ray Imaging Applications
Exhibit 3-2: X-Ray Imaging, Procedure Volumes Forecast, 2011-2016
Exhibit 3-3: Selected Interventional and Surgical Computed Tomography Applications
Exhibit 3-4: Computed Tomography, Procedure Volumes Forecast, 2011-2016
Exhibit 3-5: Selected Interventional and Surgical Magnetic Resonance Imaging Applications
Exhibit 3-6: Magnetic Resonance Imaging, Procedure Volumes Forecast, 2011-2016
Exhibit 3-7: Selected Interventional and Surgical Nuclear Medicine Imaging Applications
Exhibit 3-8: Nuclear Medicine/Molecular Imaging, Procedure Volumes Forecast, 2011-2016
Exhibit 3-9: Selected Interventional and Surgical Ultrasound Imaging Applications
Exhibit 3-10: Ultrasound Imaging, Procedure Volumes Forecast, 2011-2016
Exhibit 3-11: Interventional and Surgical Imaging, Combined Procedure Volumes Forecast, 2011-2016

4. MEDICAL IMAGING SYSTEMS MARKET

4.1 Conventional X-Ray Imaging Systems
4.1.1 Products
4.1.2 Market Forecast
4.1.3 Competitive Analysis
4.2. Computed Tomography Systems
4.2.1 Products
4.2.2 Market Forecast
4.2.3 Competitive Analysis
4.3 Magnetic Resonance Imaging Systems
4.3.1 Products
4.3.2 Market Forecast
4.3.3 Competitive Analysis
4.4 Nuclear Medicine/Molecular Imaging Systems
4.4.1 Products
4.4.2 Market Forecast
4.4.3 Competitive Analysis
4.5 Ultrasound Imaging Systems
4.5.1 Products
4.5.2 Market Forecast
4.5.3 Competitive Analysis
4.6 Imaging Systems, Combined Market Analysis

Exhibit 4-1: 2012, Selected Cardiac and Surgical X-Ray Systems
Exhibit 4-2: X-Ray Imaging Systems, Market Forecast, 2011-2016
Exhibit 4-3: 2011, X-Ray Imaging Systems Market, Share by Supplier
Exhibit 4-4: 2012, Selected Computed Tomography Systems
Exhibit 4-5: Computed Tomography Systems, Market Forecast, 2011-2016
Exhibit 4-6: 2011, Computed Tomography Systems Market, Share by Supplier
Exhibit 4-7: 2012, Selected Magnetic Resonance Imaging Systems
Exhibit 4-8: Magnetic Resonance Imaging Systems, Market Forecast, 2011-2016
Exhibit 4-9: 2011, Magnetic Resonance Imaging Systems Market, Share by Supplier
Exhibit 4-10: 2012, Selected Nuclear Medicine/Molecular Imaging Systems
Exhibit 4-11: Nuclear Medicine/Molecular Imaging Systems, Market Forecast, 2011-2016
Exhibit 4-12: 2011, Nuclear Medicine/Molecular Imaging Systems Market, Share by Supplier
Exhibit 4-13: 2012, Selected Noninvasive Ultrasound Systems
Exhibit 4-14: 2012, Selected Intravascular Ultrasound Systems
Exhibit 4-15: Ultrasound Systems, Market Forecast, 2011-2016
Exhibit 4-16: 2011, Noninvasive Ultrasound Imaging Systems Market, Share by Supplier
Exhibit 4-17: 2011, Intravascular Ultrasound Imaging Systems Market, Share by Supplier
Exhibit 4-18: Imaging Systems, Combined Market Forecast, 2011-2016

5. SURGICAL NAVIGATION SYSTEMS MARKET

5.1 Intraoperative Navigation Overview
5.1.1 Registration Methods and Techniques
5.1.2 Intraoperative Tracking Devices
5.1.3 Interfaces
5.1.4 Image-Guided Surgical Instruments
5.1.5 Supporting Data Management Infrastructure
5.2 Surgical Navigation Systems
5.2.1 Products
5.2.2 Market Analysis
5.2.3 Competitive Analysis
5.3 Robotic Surgery

Exhibit 5-1: Advantages and Disadvantages of Extrinsic and Intrinsic Image/Anatomy Registration Techniques
Exhibit 5-2: Characteristics of Selected Intraoperative Tracking Systems
Exhibit 5-3: 2012, Selected Surgical Navigation Systems
Exhibit 5-4: Surgical Navigation Systems, Market Forecast, 2011-2016
Exhibit 5-5: 2011, Surgical Navigation Systems Market, Share by Supplier
Exhibit 5-6: Advantages and Disadvantages of Robotic Surgery
Exhibit 5-7: Selected Robotic Surgery Applications
Exhibit 5-8: 2012, Selected Robotic Surgical Systems

6. COMPANY PROFILES

6.1 Boston Scientific Corporation
6.2 Brainlab AG
6.3 General Electric Company
6.4 Medtronic, Inc
6.5 Royal Philips Electronics NV
6.6 Siemens AG

APPENDIX: COMPANY LISTING

Abbott Vascular/Abbott Laboratories
Aesculap, Inc./B. Braun Melsungen AG
Agfa HealthCare/Agfa-Gevaert Group
Aurora Imaging Technology, Inc.
BK Medical ApS/Analogic Corporation
Boston Scientific Corporation
Brainlab AG
Canon, Inc.
Cardiac Dimensions, Inc.
Carestream Health, Inc.
CMT Medical Technologies LTD/Thales Components Corporation
COMPASS International Innovations, Inc.
Curexo Technology Corporation
DePuy Synthes, Inc./Johnson & Johnson
Digirad Corporation
Dilon Technologies, Inc.
EndoControl S.A.S.
Esaote, Inc./Esaote Group
Fonar Corporation
Fujifilm Corporation/Fujifilm Holdings Corporation
Fukuda Denshi USA, Inc./Fukuda Denshi Co. LTD
GE Healthcare/ General Electric Company
Hansen Medical, Inc.
Hitachi Medical Systems America, Inc./Hitachi LTD
Hologic, Inc.
Imaging Dynamics Company LTD
Integra LifeSciences Corporation
IntraMedical Imaging LLC
Intuitive Surgical, Inc.
Kinamed, Inc.
MAKO Surgical Corporation
Mazor Robotics LTD
Medtronic, Inc.
Millennium Technology, Inc.
Mindray DS USA, Inc.
MinXray, Inc.
Mitralign, Inc.
MRI Interventions, Inc.
NeuroLogica Corporation
Northern Digital, Inc.
Pathfinder Therapeutics, Inc.
Philips Healthcare/Royal Philips Electronics NV
Physio-Control, Inc.
Positron Corporation
Praxim SA/Orthopaedic Synergy, Inc.
Prosurgics LTD www.prosurgics.com
Quantum Medical Imaging/Carestream Health, Inc.
Samsung Medison Co. LTD
Shimadzu Medical Systems/Shimadzu Corporation
Siemens Healthcare/Siemens AG
Smith & Nephew, Inc.
SOFAR S.p.A.
SonoSite, Inc./Fujifilm Holdings Corporation
Stryker Corporation
Swissray International, Inc.
Terason/Teratech Corporation
Toshiba America Medical Systems, Inc./Toshiba Corporation
Valtech Cardio LTD
Viking Systems, Inc.
Volcano Corporation
Zimmer Holdings, Inc.
Zonare Medical Systems, Inc.
Publisher: Medtech Insigh
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