超音波市場

超音波市場 是由出版商Trimark Publications在2011年06月所出版的。 這份英文市場調查報告書包含248 Pages 價格從美金3400起跳。

簡介

作為低成本有效影像技術的超音波設備，除了被放射科技術人員所使用之外，也可以有效利用在患者相關重要的臨床資料取得。超音波沒有輻射，對患者來說比較有利，在價格上也比較便宜。在醫院和其他的醫療設施領域陸續被引進使用，為超音波設備及零件供應商創造新的市場機會。

本報告提供超音波市場各式各樣的平台技術的整體檢驗，主要市場機會，產業趨勢，也包含了全球超音波市場的預測和成長趨勢的詳細內容分析，為您概述為以下內容。

第1章 概要

第2章 超音波系統:概要

• 可攜式超音波設備
• 緊湊型超音波
  • 緊湊型超音波的臨床作用增加
• 緊湊型超音波的成本
• 緊湊型超音波的準確度
• 緊湊型超音波的可用性
• 緊湊型超音波的多點影像
• 適當的超音波設備的選擇
  • 應該考慮的特徵
  • 技術方法
  • 固定式與移動式
  • 成本
  • 新產品和維修品
  • 保證·服務計劃
  • 最好的超音波設備的選擇
• 超音波系統的功能
• 超音波影像系統的零件
• 內視鏡超音波
• 手持超音波影像設備
• 超音波影像設備的疾病診斷
• 主要用途
• 一般的超音波影像的限制

第3章 超音波設備標準

• 設備的選擇
• 全部設備的相關全面考察
  • 臨床應用
  • 負擔
  • 傳感器/核酸探針
  • 掃描功能
  • 物理的特性
  • 檢測·分析設備
  • 安裝 其他

第4章 超音波設備評估

第5章 超音波影像趨勢

• 胎兒超音波的增加
• 心臟外科超音波的增加
• 可攜式超音波的增加
• 可以使用的新技術

第6章 市場分析

• 全球醫療費
• 美國市場
• 加拿大市場
• 西歐市場
• 中國市場
• 印度市場
• 今後預測

第7章 全球超音波市場

• 全球超音波市場穩定回覆
• 超音波市場競爭趨勢的變化
• 推動市場的要素
• 第二受歡迎的影像模式
• 全球市場領導者
• 先進市場的市場佔有率
• 新興市場的市場佔有率
• 超音波系統，配件，服務市場
• 全球超音波影像設備市場
• 全球可攜式超音波系統市場
• 北美市場
• 加拿大市場
• 歐洲市場
• 中國市場
• 印度市場
• 用於醫療影像的造影劑
• 超音波PACS
• 影像儲存通信系統:概要

第8章 企業簡介

目錄

Abstract

Ultrasound represents a low-cost and efficacious imaging technology that continues to help radiologists and others collect significant clinical data about patients. Ultrasound is appropriately suited to many patients. No other imaging modality gives patients a real-time viewing at their anatomy or inspires discussions with physicians about their symptoms and the evidence of disease on the monitor. Ultrasound is radiation-free, patient-friendly and less-expensive. The adoption of this modality by all categories of hospitals and other healthcare institutions has given rise to new market opportunities for manufacturers of ultrasound systems and components suppliers. Ultrasound imaging systems have become conventional in almost all the offices of cardiologists, obstetricians, surgeons and urologists among other specialists. New uses, such as the applications of ultrasound in dispensing emergency medicine, along with new hand-held portable systems are helping to further propel the medical marketplace for the technology. This TriMark Publications report surveys almost all of the companies known to be marketing, manufacturing or developing ultrasound equipment and supplies in the world. Each company is discussed in extensive depth with a section on its history, product line, business and marketing analysis, and a subjective commentary of the company' s market position. Detailed tables and charts with sales forecasts and market data are also included.

Table of Contents

1. Overview

• 1.1 Statement of Report
• 1.2 Scope of the Report
• 1.3 Methodology
• 1.4 Executive Summary

2. Ultrasound Systems: An Overview

• 2.1 Portable Ultrasound
• 2.2 Compact Ultrasound
  • 2.2.1 Expanding Clinical Roles for Compact Ultrasound Systems
  • 2.2.1.1 Aloka
  • 2.2.1.2 Biosound Esaote
  • 2.2.1.3 GE Healthcare 20
  • 2.2.1.4 Hitachi Medical Systems
  • 2.2.1.5 Medison
  • 2.2.1.6 Philips Medical Systems
  • 2.2.1.7 Siemens Medical Solutions
  • 2.2.1.8 SonoSite
  • 2.2.1.9 TeraRecon
  • 2.2.1.10 Terason
  • 2.2.1.11 Toshiba America Medical Systems
  • 2.2.1.12 Zonare Medical Systems
• 2.3 Cost of Compact Ultrasound Imaging Systems
• 2.4 Accuracy of Compact Ultrasound Systems
• 2.5 Ease of Use of Compact Ultrasound Systems
• 2.6 Multi-Site Imaging of Compact Ultrasound Imaging Systems
• 2.7 Choosing the Right Ultrasound Machine
  • 2.7.1 Features to be Considered
  • 2.7.2 Technical Specifications
  • 2.7.3 Stationary vs. Mobile
  • 2.7.4 Financing
  • 2.7.5 New vs. Refurbished
  • 2.7.6 Warranty/Service Plans
  • 2.7.7 Finding the Best Ultrasound Machine
• 2.8 The Working of Ultrasound Systems
  • 2.8.1 The Ultrasound Machine
• 2.9 Components of Ultrasound Imaging Systems
  • 2.9.1 Transducers
  • 2.9.2 High-Voltage Multiplexing
  • 2.9.3 High-Voltage Transmitters
  • 2.9.4 Image-Path Receivers
  • 2.9.5 Tx/Rx Switch
  • 2.9.6 Low-Noise Amplifier (LNA)
  • 2.9.7 Variable-Gain Amplifier (VGA)
  • 2.9.8 Anti-Alias Filter (AAF) and ADC
  • 2.9.9 Digital Beamformers
  • 2.9.10 Beamformed Digital-Signal Processing
  • 2.9.11 Color-Flow Processing
  • 2.9.12 Display Processing
• 2.10 Different Types of Ultrasound
  • 2.10.1 3D/4D Ultrasound
  • 2.10.1.1 Equipment Design
  • 2.10.1.2 Purchase Considerations
  • 2.10.1.3 Acquisition Approaches
  • 2.10.1.4 Display Strategies
• 2.11 Endoscopic Ultrasound
• 2.12 Handheld Ultrasound Imaging Device
• 2.13 Diagnosis of Possible Diseases with Ultrasound Imaging Units
• 2.14 Major Uses of Ultrasound
  • 2.14.1 Ultrasound Scanners by Specialty
    • 2.14.1.1 Ultrasound Imaging in Gynecology/Obstetric
    • 2.14.1.2 Fetal Testing (Nuchal Translucency Testing, 11-14 Weeks)
    • 2.14.1.3 4D Ultrasound (26 Weeks)
  • 2.14.2 Ultrasound Imaging in Urology
    • 2.14.2.1 Bladder Ultrasound
    • 2.14.2.2 Kidney Ultrasound
    • 2.14.2.3 Scrotum Ultrasound
    • 2.14.2.4 Prostrate Ultrasound and Biopsy
  • 2.14.3 Ultrasound for Musculoskeletal Disorders
  • 2.14.4 Ultrasound Imaging in Interventional Radiology
  • 2.14.5 Ultrasound Imaging for Breast Examination
  • 2.14.6 Echocardiography
  • 2.14.7 Sonoelastography
  • 2.14.8 Ultrasound Therapy for Cosmetic Purposes
    • 2.14.8.1 Focused Ultrasound Body Contouring
    • 2.14.8.2 VASER Liposuction
  • 2.14.9 Ultrasound Brow Lift
  • 2.14.10 3D Ultrasound Imaging in Pregnancy
  • 2.14.11 Abdominal Ultrasound
  • 2.14.12 Cardiac Ultrasound
  • 2.14.13 Portable Ultrasound
• 2.15 Limitations of General Ultrasound Imaging

3. The Standards for Ultrasound Equipment

• 3.1 Selection of Equipment
• 3.2 General Considerations for All Equipment
  • 3.2.1 Clinical Applications for which the Equipment will be Used
  • 3.2.2 Workload in Each Application
  • 3.2.3 Transducer/Probe Required
  • 3.2.4 Scanning Capabilities Required
  • 3.2.5 Physical Features
  • 3.2.6 Measurement/Analysis Facility
  • 3.2.7 Ultrasound Settings
  • 3.2.8 Annotation and Documentation
  • 3.2.8.1 Display and annotation
  • 3.2.8.2 Documentation
  • 3.2.9 Safety, Compliance and Quality Assurance
  • 3.2.10 Equipment Trials and Training
  • 3.2.11 Equipment Review and Replacement
  • 3.2.12 Requirements for Abdominal Ultrasound
  • 3.2.13 General and Sub Specialized Requirements for Radiological Ultrasound Scanners
  • 3.2.14 Requirements for Small Parts Ultrasound
  • 3.2.14.1 Transducer
  • 3.2.14.2 B-mode Imaging
  • 3.2.14.3 Doppler Facility
  • 3.2.15 Specific Requirements for Scrotal Ultrasound
  • 3.2.16 Specific Requirements for Musculoskeletal Ultrasound
  • 3.2.17 Specific Requirements for Breast Ultrasound
  • 3.2.18 Specific Requirements for Vascular Ultrasound
  • 3.2.18.1 Transducer
  • 3.2.18.2 B-Mode
  • 3.2.18.3 Color Flow
  • 3.2.18.4 Spectral Doppler
  • 3.2.19 Specific Requirements for Extracranial Disease (Carotid Scanning)
  • 3.2.20 Specific Requirements for Deep Vein Thrombosis
  • 3.2.21 Specific Requirements for Venous Incompetence
  • 3.2.22 Specific Requirements for Renal Artery Stenosis
  • 3.2.23 Venous Access for Placement of Central Lines

4. Ultrasound Machine Reviews

• 4.1 Acuson Cypress
• 4.2 Acuson Sequoia
• 4.3 Philips iE33
• 4.4 GE Vivid I Portable
• 4.5 GE Vivid 7
• 4.6 Mindray M5 Portable
• 4.7 Comparison of Cardiac Ultrasound Machines
• 4.8 Comparison of Vascular Ultrasound Machines
• 4.9 Comparison of OB/GYN Ultrasound Machines
• 4.10 Comparison of Radiology Ultrasound Machines
• 4.11 Comparison of Shared Service Ultrasound

5. Trends in Ultrasound Imaging

• 5.1 Growth of Fetal Ultrasound
• 5.2 Growth of Ultrasound in Cardiology
• 5.3 Growth of Portable Ultrasound
• 5.4 New Technologies Available
  • 5.4.1 Contrast Enhanced Ultrasound
  • 5.4.2 Acoustic Radiation Force Impulse (ARFI)
  • 5.4.3 Changing Trends in Breast Imaging
  • 5.4.4 Automated Breast Volume Scanning (ABVS)
  • 5.4.5 Changing Concepts in Prostate Imaging
  • 5.4.6 Musculoskeletal Ultrasound System
  • 5.4.7 High Intensity Focused Ultrasound (HIFU)
  • 5.4.8 Volume Imaging
  • 5.4.9 Applications for Volumetric Ultrasound
  • 5.4.9.1 Fetal Imaging
  • 5.4.9.2 Gynecologic Imaging
  • 5.4.9.3 Breast Imaging
  • 5.4.9.4 Cardiac Applications
  • 5.4.9.5 Interventional Procedures
  • 5.4.9.6 Abdominal Imaging
  • 5.4.9.7 Musculoskeletal Imaging
  • 5.4.9.8 Prostate Imaging
  • 5.4.10 Three Dimensional Power Doppler Imaging
  • 5.4.11 Fusion Imaging
  • 5.4.12 Intraoperative Ultrasound (IOUS)
  • 5.4.13 Pocket Ultrasound

6. Market Analysis

• 6.1 Global Healthcare Spending
• 6.2 U.S. Healthcare Spending
• 6.3 Healthcare Spending in Canada
• 6.4 Healthcare Spending in Western Europe
  • 6.4.1 Healthcare Spending in France
  • 6.4.2 Healthcare Spending in Germany
  • 6.4.3 Healthcare Spending in U.K.
• 6.5 Healthcare Spending in Eastern Europe
  • 6.5.1 Healthcare Spending in Russia
  • 6.5.2 Healthcare Spending in Czech Republic
  • 6.5.3 Healthcare Spending in Hungary
• 6.6 Healthcare Spending in China
• 6.7 Healthcare Spending in India
• 6.8 Global Outlook for Medical Imaging Equipment
  • 6.8.1 Global Medical Imaging Market Share by Modality
  • 6.8.2 Global Market for General X-rays
  • 6.8.3 Global Market for Magnetic Resonance Imaging (MRI)
  • 6.8.4 Global Market for Computed Tomography (CT)

7. Global Ultrasound Market

• 7.1 Steady Recovery in Global Ultrasound Market
• 7.2 A Possible Sweeping Change in Competition for Ultrasound Market
• 7.3 Ultrasound Market Drivers
• 7.4 Ultrasound: The Second Most Popular Imaging Modality
• 7.5 Global Ultrasound Market Leaders
• 7.6 Ultrasound: Share in Developed Markets
• 7.7 Ultrasound: Share in Emerging Markets
• 7.8 Global Market for Ultrasound Systems, Accessories and Services
• 7.9 Global Market for Ultrasound Imaging Equipment
• 7.10 Global Market for Portable Ultrasound Systems
  • 7.10.1 Technology Growth Drivers for Compact Ultrasound
    • 7.10.1.1 Computer Speed
    • 7.10.1.2 Hardware Miniaturization
    • 7.10.1.3 Broadband Wireless Connectivity
    • 7.10.1.4 Ultrasound Guided Procedures
    • 7.10.1.5 Point of Care Ultrasound
    • 7.10.1.6 Software-Based Ultrasound
• 7.11 North American Medical Ultrasound Imaging Market
  • 7.11.1 Proliferation of Opportunities for Ultrasound
  • 7.11.2 Escalating Rate of Imaging Utilization in Emergency Rooms
  • 7.11.3 Ultrasound: The Second Largest Utilized Modality in the U.S.
  • 7.11.4 Future of U.S. Portable Ultrasound Market
  • 7.11.5 Strength of GE Healthcare in the U.S. Ultrasound Market
  • 7.11.6 U.S. Market for Ultrasound Imaging
  • 7.11.7 U.S. Market for Portable Ultrasound
  • 7.11.8 U.S. Ultrasound Reimbursement Information
  • 7.11.8.1 Hospital Payment
  • 7.11.8.2 Physician Payment
  • 7.11.8.3 Documentation Requirements
  • 7.11.8.4 Coding Information (Hospitals)
  • 7.11.8.5 Coding and Payment Information (Physicians)
• 7.12 Ultrasound Utilization in Canada
  • 7.12.1 Diagnostic Imaging Equipment Market in Canada
  • 7.12.2 Market Share of Ultrasound in Canada
• 7.13 European Market for Ultrasound
  • 7.13.1 New Technologies in European Ultrasound Imaging Market
• 7.14 Ultrasound Market in China
  • 7.14.1 Assessment of Ultrasound Market in China
  • 7.14.2 Opportunities for Ultrasound in China
  • 7.14.2.1 Black' White Ultrasound
  • 7.14.2.2 Color Ultrasound
  • 7.14.3 Hospital Demographics in China
  • 7.14.4 Ultrasound Market Share in China
  • 7.14.5 Challenges for Foreign Suppliers
  • 7.14.6 Utilization of Ultrasound in China
• 7.15 Appetite for Medical Imaging in India
  • 7.15.1 Demand for Quality Healthcare in India
  • 7.15.2 Indian Opportunities
    • 7.15.2.1 Indian Opportunities for CT Scanners
    • 7.15.2.2 Indian Opportunities for Ultrasound
    • 7.15.2.3 Indian Opportunities for Magnetic Resonance Imaging (MRI)
  • 7.15.3 Ultrasound Market in India
  • 7.15.4 Future of Indian Ultrasound Equipment Market
  • 7.15.5 Major Players in Indian Market
    • 7.15.5.1 Fourth Dimension
    • 7.15.5.2 Portability
• 7.16 Contrast Media in Medical Imaging
  • 7.16.1 Contrast Media in Ultrasound Imaging
    • 7.16.1.1 Contrast Techniques
    • 7.16.1.2 Contrast-enhanced Doppler imaging
    • 7.16.1.3 Contrast harmonic imaging
    • 7.16.1.4 Intermittent imaging
    • 7.16.1.5 Vascular Ultrasound
    • 7.16.1.6 Echocardiology
    • 7.16.1.7 Other Applications
  • 7.16.2 Marketing Challenges for Ultrasound Contrast Media
  • 7.16.3 Contrasting Situation in Contrast Media Utilization for Ultrasound
    • 7.16.3.1 FDA Issues
    • 7.16.3.2 New Effort
    • 7.16.3.3 Broadening Contrast Use
    • 7.16.3.4 Potential Cost Savings
  • 7.16.4 The Economics of Contrast Agents
    • 7.16.4.1 Economics
    • 7.16.4.2 Negotiation Strategies
  • 7.16.5 CT Contrast Agents
    • 7.16.5.1 CT Contrast Manufacturers
    • 7.16.5.2 Costs of CT Contrast Agents
  • 7.16.6 MRI Contrast Agents
    • 7.16.6.1 Primary MRI Contrast Vendors
    • 7.16.6.2 Costs of MRI Contrast Agents
  • 7.16.7 Ultrasound Contrast Agents
    • 7.16.7.1 Primary Ultrasound Contrast Agent Vendors
    • 7.16.7.2 Costs of Ultrasound Contrast Agents
  • 7.16.8 Global Market for Contrast Agents in Medical Imaging
• 7.17 Ultrasound PACS
  • 7.17.1 PACS and Movement
  • 7.17.2 Comparison with Priors
  • 7.17.3 Variation of PACS by Specialty
  • 7.17.4 Improved Workflow
  • 7.17.5 Improved Solutions
• 7.18 Picture Archiving and Communication System (PACS): General
  • 7.18.1 PACS Adoption
  • 7.18.2 Global Market for PACS
  • 7.18.3 PACS Installations in the U.S. Hospitals
  • 7.18.4 PACS Modality Installations
  • 7.18.5 PACS Vendor Market Share
  • 7.18.6 PACS Image Distribution
  • 7.18.7 European Market for PACS
  • 7.18.8 PACS in India
    • 7.18.8.1 Market Insight

8. Selected Company Profiles

• 8.1 Aloka
  • 8.1.1 ProSound Alpha 10
  • 8.1.2 ProSound Alpha 7
  • 8.1.3 ProSound Alpha 6
  • 8.1.4 ProSound Alpha 5SX
  • 8.1.5 ProSound 3500SX
  • 8.1.6 SSD-900
  • 8.1.7 ProSound C3CV
  • 8.1.8 Transducers
• 8.2 Analogic Corporation
  • 8.2.1 Flex Focus 700
  • 8.2.2 Flex Focus 400
  • 8.2.3 Flex Focus 400 Anesthesia
  • 8.2.4 Flex Focus 200
  • 8.2.5 Flex Focus 200 Surgery
• 8.3 Biosound Esaote
  • 8.3.1 MyLab 70XV
  • 8.3.2 MyLab 50XV
  • 8.3.3 MyLab 40
  • 8.3.4 MyLab 30 Gold
  • 8.3.5 MyLab 25 Gold
  • 8.3.6 MyLab 25
  • 8.3.7 MyLab 20 Plus
  • 8.3.8 MyLab 15
  • 8.3.9 MyLabOne
  • 8.3.10 MyLabFive
  • 8.3.11 Aquila
  • 8.3.12 MyLab Desk
• 8.4 Echosens
  • 8.4.1 FibroScan 502 Touch
  • 8.4.2 FibroScan 502
  • 8.4.3 Fibroscan 402
• 8.5 EDAP TMS
  • 8.5.1 Ablatherm
  • 8.5.2 ESWL Sonolith
• 8.6 GE Healthcare
  • 8.6.1 Logiq P3
  • 8.6.2 Logiq E9
  • 8.6.3 Logiq 9
  • 8.6.4 Logiq e
  • 8.6.5 Logiq Book XP Enhanced
  • 8.6.6 Logiq 5
  • 8.6.7 Logiq 3
  • 8.6.8 Logiq 200
  • 8.6.9 Logiq 7
  • 8.6.10 Logiq A5
  • 8.6.11 Logiq P5
  • 8.6.12 Logiq P6
  • 8.6.13 ViewPoint OB/GYN
  • 8.6.14 ViewPoint Radiology
  • 8.6.15 ViewPoint Vascular
  • 8.6.16 Vscan
  • 8.6.17 Vivid i
  • 8.6.18 Venue 40
  • 8.6.19 Voluson E8
  • 8.6.20 Voluson e
  • 8.6.21 Voluson 730
  • 8.6.22 Voluson i
  • 8.6.23 Voluson E6
  • 8.6.24 Voluson S8
• 8.7 Hitachi Medical Systems America, Inc.
  • 8.7.1 HI VISION Preirus
  • 8.7.2 HI VISION 900
  • 8.7.3 HI VISION 8500
  • 8.7.4 HI VISION 6500
  • 8.7.5 HI VISION 5500
• 8.8 Lantheus Medical Imaging, Inc.
  • 8.8.1 Definity
• 8.9 Medison America, Inc.
  • 8.9.1 Accuvix V20
  • 8.9.2 Accuvix XG
  • 8.9.3 Accuvix V10
  • 8.9.4 SonoAce X8
  • 8.9.5 SonoAce R7
  • 8.9.6 SonoAce X6
  • 8.9.7 MySono U5
  • 8.9.8 SonoAce R5
  • 8.9.9 SonoAce R3
  • 8.9.10 SonoAce X4
• 8.10 Mindray
  • 8.10.1 Selected Ultrasound Systems from Mindray
  • 8.10.1.1 DC-7
  • 8.10.1.2 M7
  • 8.10.1.3 M5
  • 8.10.1.4 DP-9900Plus
  • 8.10.1.5 DP-50
  • 8.10.1.6 DP-6900
• 8.11 Siemens Medical Solutions
  • 8.11.1 Selected Ultrasound Systems from Siemens
    • 8.11.1.1 ACUSON S2000
    • 8.11.1.2 ACUSON SC2000
    • 8.11.1.3 ACUSON X300
    • 8.11.1.4 ACUSON P10
    • 8.11.1.5 ACUSON S2000 ABVS
    • 8.11.1.6 ACUSON Antares
    • 8.11.1.7 ACUSON X150
    • 8.11.1.8 SONOLINE G20
• 8.12 SonoSite, Inc.
  • 8.12.1 SonoSite' s Portable Diagnostic Ultrasound Machines
    • 8.12.1.1 Nanomaxx
    • 8.11.1.2 M-Turbo
    • 8.11.1.3 M-OB/GYN Office
    • 8.11.1.4 MicroMaxx
  • 8.11.2 SonoSite' s Mountable Diagnostic Ultrasound Systems
    • 8.11.2.1 S-Cath
  • 8.11.3 Connectivity
  • 8.11.4 SonoSite Workflow Solutions
    • 8.11.4.1 SonoSite Workflow Solutions in Emergency Medicine
    • 8.11.4.2 SonoSite Workflow Solutions in Critical Care
  • 8.11.5 SonoSite DICOM Connectivity
  • 8.11.6 SiteLink Software
  • 8.11.7 USB Export Options
  • 8.11.8 DICOM Export
  • 8.11.9 SiteLink Export
• 8.12 Terason Corporation
  • 8.12.1 Terason 2000+
  • 8.12.2 Terason t3000
  • 8.12.3 Terason t3200
  • 8.12.4 Terason echo
• 8.13 Theraclion
  • 8.13.1 TH-One
• 8.14 Toshiba America Medical Systems
  • 8.14.1 Atrida
  • 8.14.2 Aplio XG
  • 8.14.3 Aplio MX
  • 8.14.4 Viamo
  • 8.14.5 Xario XG
• 8.15 Ultrasonix Medical Corporation
  • 8.15.1 SonixTouch
  • 8.15.2 SonixTablet
  • 8.15.3 Sonix OP/SP/MDP
• 8.16 Verathon, Inc.
  • 8.16.1 AortaScan AMI 9700
  • 8.16.2 BladderScan
• 8.17 Zonare Medical Systems, Inc.
  • 8.17.1 z.one ultra Convertible Ultrasound System
  • 8.17.2 z.one ultra sp Convertible Ultrasound System
  • 8.17.3 z.one mini Convertible Ultrasound System

APPENDIX

• Appendix 1: Physics of Ultrasound
• Appendix 1.1: Interaction of Ultrasound with Tissue
• Appendix 1.1.1: Attenuation
• Appendix 1.1.2: Reflection
• Appendix 1.1.3: Acoustic Impedance (Z)
• Appendix 1.1.4: Refraction
• Appendix 1.1.5: Diffraction
• Appendix 1.2.1: Near Field and Focusing
• Appendix 1.3: Resolution
• Appendix 1.3.1: Lateral Resolution
• Appendix 1.3.2: Axial Resolution
• Appendix 1.3.3: Temporal Resolution
• Appendix 2: Appendix: Design of Low-Cost Portable Ultrasound Systems
• Appendix 2.1: Transducer Design
• Appendix 2.2: Transmit Circuitry Design
• Appendix 2.3: Receive Circuitry Design
• Appendix 2.4: Beamforming Algorithms
• Appendix 2.5: Complete System
• Appendix 3: Ultrasound System Design Resources and Block Diagram
• Appendix 4: Block Diagram and Design Considerations for Portable Ultrasound Systems
• Appendix 5: The Future of Beamforming in Ultrasound
• Appendix 5.1: Beamforming Architecture
• Appendix 5.2: Advances in Beamformer Technology
• Appendix 5.3: The Highly Configurable Beamforming Platform
• Appendix 5.4: Future Innovations
• Appendix 6: Current State of the Art of PACS
• Appendix 6.1: Components and Architecture of PACS
• Appendix 6.2: Image Acquisition Components
• Appendix 6.3: PACS Controller
• Appendix 6.4: Database Server and Archiving System
• Appendix 6.5: Short-Term Archive
• Appendix 6.6: Long-Term Archive
• Appendix 6.7: Workstations
• Appendix 6.8: Network
• Appendix 6.9: Communication Protocols
• Appendix 6.10: DICOM Standard
• Appendix 6.11: HL7 Standard
• Appendix 6.12: Other Related Systems
• Appendix 6.12.1: Hospital Information System (HIS)
• Appendix 6.12.2: Radiology Information System (RIS)
• Appendix 6.13: Current PACS Products
• Appendix 6.13.1: Agfa IMPAX6
• Appendix 7: Ultrasound Glossary of Medical Terms
• Appendix 8: China' s Foreign Trade Surplus in Medical Devices
• Appendix 8.1: Chinese Exports of Medical Devices
• Appendix 8.2: The Top Three Export Markets
• Appendix 8.3: The U.S. Market
• Appendix 8.4: The Japanese Market
• Appendix 8.5: The German Market
• Appendix 8.6: Chinese Imports
• Appendix 8.7: Export of Blood Pressure Measuring Instruments
• Appendix 8.8: Chinese Export of B-Type Ultrasonic Diagnostic Apparatus
• Appendix 8.9: Chinese Exports of MRI
• Appendix 8.10: Chinese Exports of Patient Monitors
• Appendix 8.11: Chinese Exports of Color Ultrasound Systems
• Appendix 8.12: Chinese Exports of Computed Tomography (CT)
• Appendix 9: U.S. Export Opportunities for Medical Devices to India
• Appendix 9.1: Foreign Investment Opportunities

INDEX OF FIGURES

• Figure 6.1: Global Healthcare Spending, 2010-2020
• Figure 6.2: U.S. Healthcare Spending, 2009-2019
• Figure 6.3: Canadian Healthcare Funding by Source, 2010
• Figure 6.4: Private Funding in Canada by Source, 2010
• Figure 6.5: Canadian Healthcare Expenditure, 2000-2010
• Figure 6.6: Canadian Healthcare Spending, 2010
• Figure 6.7: Canadian Healthcare Spending by Province, 2010
• Figure 6.8: Projected Healthcare Spending by Percent of GDP in France, 2010-2050
• Figure 6.9: Healthcare Spending Projection in Germany, 2010-2060
• Figure 6.10: Healthcare Spending as a Percentage of GDP in U.K., 2000-2009
• Figure 6.11: Russian Healthcare Spending as a Percentage of GDP, 2008-2020
• Figure 6.12: Healthcare Spending in India, 2010-2017
• Figure 6.13: Global Market for Medical Imaging Equipment by Geography, 2010
• Figure 6.14: Global Medical Imaging Market Share by Modality, 2010
• Figure 6.15: Global Market for General X-rays, 2010-2017
• Figure 6.16: Global MRI Market Share by Geography, 2010
• Figure 6.17: Global Market for MRI, 2010-2017
• Figure 6.18: Global Market for CT, 2010-2017
• Figure 7.1: Ultrasound: The Second Most Popular Imaging Modality
• Figure 7.2: Share of Global Market in Ultrasound Imaging by Vendor, 2010
• Figure 7.3: Ultrasound Imaging Share in Developed Markets by Vendor, 2010
• Figure 7.4: Ultrasound Imaging Share in Emerging Markets by Vendor, 2010
• Figure 7.5: Global Market for Ultrasound Imaging Systems, Accessories and Services, 2006-2010
• Figure 7.6: Global Market for Ultrasound Imaging Equipment, 2010-2017
• Figure 7.7: The Dominant Areas of Ultrasound Application, 2010
• Figure 7.8: Global Market for Hand-Carried Ultrasound (HCU) Systems, 2010-2017
• Figure 7.9: Trends in Modality Use in Emergency Departments
• Figure 7.10: Accrued New Studies per 1,000 Patients
• Figure 7.11: U.S. Market for Portable Ultrasound, 2010-2017
• Figure 7.12: Distribution of Diagnostic Imaging Examinations in Canadian Hospitals, 2009
• Figure 7.13: Canadian Imaging Equipment Market Share by Vendor, 2010
• Figure 7.14: Share of Ultrasound Market in Canada, 2008-2015
• Figure 7.15: European Market for Ultrasound Imaging Systems, 2010-2017
• Figure 7.16: Chinese Market for Ultrasound Systems, 2010-2017
• Figure 7.17: Value-Wise Indian Ultrasound Equipment Market, 2010
• Figure 7.18: Unit-Wise Indian Ultrasound Equipment Market, 2010
• Figure 7.19: Value-Wise Indian Market for Black' White Ultrasound Equipment, 2010
• Figure 7.20: Unit-Wise Indian Market for Color Doppler Equipment, 2010
• Figure 7.21: Unit-Wise Black' White Ultrasound Equipment Market in India, 2010
• Figure 7.22: Indian Ultrasound Equipment Market, 2010-2017
• Figure 7.23: Global Overall Market for Contrast Agents in Medical Imaging, 2010-2017
• Figure 7.24: Global Market for PACS, 2010-2016
• Figure 7.25: Number of U.S. Hospitals with PACS Installed
• Figure 7.26: Total Number of U.S. Hospitals vs. Hospitals with PACS Installed
• Figure 7.27: PACS Replacement and New Purchases
• Figure 7.28: PACS Modality Installations
• Figure 7.29: PACS Vendor Market Share
• Figure 7.30: PACS Image Distribution in Hospital Departments
• Figure 7.31: PACS Images Accessibility by Physician
• Figure 7.32: RIS and PACS Interface
• Figure 7.33: European PACS Market, 2010-2016
• Figure 7.34: RIS/PACS Market in India
• Figure 7.35: Total PACS Market in India
• Figure App. 2.1: Diagram of the Through Hole Electrical Connections Used by Eames et al.
• Figure App. 2.2: Diagram of a CMUT
• Figure App. 2.3: Block Diagram of the Circuitry used by Lewis et al. to Provide low output impedance
• Figure App. 2.4: Block Diagram of the Sonic Window by Fuller et al.
• Figure App. 2.5: Schematic of the Single Stage Preamplifier Used by Fuller et al.
• Figure App. 2.6: Diagram of the Delta-Sigma Oversampled Beamformer
• Figure App. 2.7: Diagram of the Direct Sampled I/Q Beamforming Algorithm
• Figure App. 2.8: Diagram of the Transmit Protection Circuitry as Described by Fuller et al.
• Figure App. 9.1: Indian Imports of Medical Devices by Exporting Countries, 2008
• Figure App. 9.2: U.S. Trade Surplus with India in Medical Goods, 2005-2009

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