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Aarkstore.com announce a new report through its vast collection of market research report :

Virtual Reality (VR) in Healthcare in the U.S. (Markets for Surgery, Visualization, Rehabilitation and Training) Request for Sample Pages Published Date : 1 February 2011 Pages : 185  Add to Cart – Virtual Reality (VR) in Healthcare in the U.S. (Markets for Surgery, Visualization, Rehabilitation and Training)

For some-more information, Great fully visit:

http://www.aarkstore.com/reports/Virtual-Reality-VR-in-Healthcare-in-the-U-S-Markets-for-Surgery-Visualization-Rehabilitation-and-Training–92264.html

What are virtual reality technologies and how are they being used in healthcare today? What areas of healthcare are seeing the most use of these products? What is the expected market opportunity for companies entering the market for VR equipment? Who are the main players in the VR market and what moves are they making to grow market share? These are among the questions answered in Company’s Virtual Reality in Healthcare in the U.S.

The use of virtual reality (VR) technologies in the U.S. healthcare industry has expanded tremendously due to extensive product development and the growing implementation of healthcare information technology (HIT) infrastructure. Virtual reality applications in the healthcare industry are associated with many leading areas of medical technology innovation including robot-assisted surgery, augmented reality (AR) surgery, computer-assisted surgery (CAS), image-guided surgery (IGS), surgical navigation, multi-modality image fusion, medical imaging 3D/4D reconstruction, pre-operative surgical planning, virtual colonoscopy, virtual surgical simulation, virtual reality exposure therapy (VRET), and VR physical rehabilitation and motor skills training. The clinical and enterprise benefits of healthcare VR technology are numerous and include improved patient outcomes, reduced medical errors, improved minimally-invasive surgical (MIS) technique, improved physician collaboration in diagnosis, and improved psychological and motor rehabilitation.

In Company’s 2nd edition of Virtual Reality in Healthcare in the U.S., analyst Emil Salazar looks at the current and future market for commercialized VR technologies as divided on the basis of the four application areas:

Surgery, including surgical navigation, IGS, CAS, AR surgery, and robot-assisted surgery

Medical Data Visualization, including multi-modality image fusion, advanced 2D/3D/4D image reconstruction, and pre-operative planning and other advanced analytical software tools

Education and Training, including virtual surgical simulators and other simulators for medical patient procedures

Rehabilitation and Therapy, including immersive VR systems for pain management, behavioral therapy, psychological therapy, physical rehabilitation, and motor skills training

For each application area (market segment), the report details: current market size, past market sizes (2006-), growth factors and trends, and forecasts to 2015.

Additionally, this report contains a review of relevant U.S. regulation, market drivers, and market inhibitors as well as case studies for each application area and over twenty detailed company profiles for healthcare VR product manufacturers and developers. The information in Virtual Reality in U.S. Healthcare, 2nd ed. Is based on data from multiple industry associations, U.S. governmental healthcare data, Securities and Exchange Commission filings, medical journals, and trade journals.

Additional industry insights and data were obtained through interviews with executives in the healthcare VR product industry and healthcare VR technology researchers.

Table of Contents :

CHAPTER ONE: EXECUTIVE SUMMARY

1.1 The Healthcare Industry
1.2 Healthcare Virtual Reality Technology
1.3 Market for Virtual Reality Applications in the U.S. Healthcare Industry
1.4 Market Drivers and Inhibitors
1.4.1 Healthcare Information Technology Deployment
1.4.2 Minimally-Invasive Surgery
1.4.3 U.S. Healthcare Reform
1.4.4 U.S. Military Applications of VR Technology in Healthcare
1.4.5 Limited Client Markets
1.4.6 Lack of Industry Familiarity
1.4.7 Industry Investment Priorities

CHAPTER TWO: OVERVIEW

2.1 Healthcare Industry
2.1.1 Market and Industry Overview
2.1.2 Categorization of Healthcare Services
2.1.3 Healthcare Industry Trends
2.1.4 Healthcare Industry Challenges
2.2 Virtual Reality Industry
2.2.1 Virtual Reality Defined
2.2.2 Industry Applications of Virtual Reality Technology
2.2.3 Virtual Reality Systems
2.2.4 Factors Affecting the Virtual Reality Industry
2.2.5 Commercialization of Healthcare VR Products

CHAPTER THREE: OPPORTUNITIES FOR VIRTUAL REALITY IN HEALTHCARE

3.1 Virtual Reality Market in the U.S. Healthcare Industry
3.1.1 Market Overview
3.1.2 Market Size
3.1.3 Market Segmentation
3.2 Market for Virtual Reality Applications in Surgery
3.2.1 Applications of VR in Advanced Surgical Systems and Techniques
3.3 Market for Virtual Reality Applications in Medical Data Visualization
3.3.1 Applications of VR in Medical Data Visualization
3.4 Market for Virtual Reality Applications in Education and Training
3.4.1 Applications and Benefits of VR in Education and Training
3.5 Market for Virtual Reality Applications in Rehabilitation and Therapy

CHAPTER FOUR: OVERALL MARKET

4.1 Overall Market for VR in Healthcare
4.1 Breakout by Segment

CHAPTER FIVE: CASE STUDIES

5.1 CASE STUDIES: Virtual Reality in Rehabilitation and Therapy
5.1.1 Virtual Reality Exposure Treatment (VRET) of Post-Traumatic Stress Disorder (PTSD)
5.1.2 Pain Management through Immersive Virtual Reality
5.2 CASE STUDIES: Virtual Reality in The Visualization of Medical Data
5.2.1 Virtual Colonoscopy Aids Patient Gastrointestinal Screening
5.2.2 Trauma Injury Analysis with 3D Imaging
5.3 CASE STUDIES: Virtual Reality in Surgery
5.3.1 Multi-modality Neuroimaging for Surgical Planning and Intra-Operative Navigation
5.3.2 Intra-Operative Image-Guided Surgery for Spinal Procedures
5.4 CASE STUDY: Virtual Reality in Education and Training
5.4.1 Use of Virtual Reality Reality Procedure Rehearsal for Carotid Artery Stenting
5.4.2 Virtual Surgical Simulators Improve Performance on Unfamiliar Procedures

CHAPTER SIX: REGULATORY ENVIRONMENT

6.1 Introduction
6.2 International Standards Organization
6.3 U.S. Food and Drug Administration
6.4 Health Insurance Portability and Accountability Act
6.4.1 Privacy Rule
6.4.2 Security Rule
6.5 Health Information Technology for Economic and Clinical Health Act
6.6 Patient Protection and Affordable Care Act
6.7 The Enhancing SIMULATION Act of 2009

CHAPTER SEVEN: CONCLUSIONS

7.1 First Conclusion
7.2 Second Conclusion
7.3 Third Conclusion
7.4 Fourth Conclusion
7.5 Fifth Conclusion
7.6 Sixth Conclusion
7.7 Seventh Conclusion

CHAPTER EIGHT: COMPANY PROFILES

8.1 Ascension Technology Corporation
8.1.1 Company Overview
8.1.2 Industry Presence and Operations
8.1.3 Healthcare VR Products
8.1.4 Recent Developments
8.2 Brainlab
8.2.1 Company Overview
8.2.2 Industry Presence and Operations
8.2.3 Healthcare VR Products
8.2.4 Recent Developments
8.3 CAE
8.3.1 Company Overview
8.3.2 Industry Presence and Operations
8.3.3 Healthcare VR Products
8.3.4 Performance Review
8.3.5 Recent Developments
8.4 Carl Zeiss Meditec
8.4.1 Company Overview
8.4.2 Industry Presence and Operations
8.4.3 Healthcare VR Products
8.4.4 Performance Review
8.4.5 Recent Developments
8.5 Fifth Dimension
8.5.1 Company Overview
8.5.2 Industry Presence and Operations
8.5.3 Healthcare VR Products
8.6 Force Dimension
8.6.1 Company Overview
8.6.2 Industry Presence and Operations
8.6.3 Healthcare VR Products
8.6.4 Recent Developments
8.7 GE Healthcare
8.7.1 Company Overview
8.7.2 Industry Presence and Operations
8.7.3 Healthcare VR Products
8.7.4 Performance Review
8.8 Hansen Medical
8.8.1 Company Overview
8.8.2 Industry Presence and Operations
8.8.3 Healthcare VR Products
8.8.4 Performance Review
8.8.5 Recent Developments
8.9 Immersion Corporation
8.9.1 Company Overview
8.9.2 Industry Presence and Operations
8.9.3 Healthcare VR Products
8.9.4 Performance Review
8.9.5 Recent Developments
8.10 Intuitive Surgical
8.10.1 Company Overview
8.10.2 Industry Presence and Operations
8.10.3 Healthcare VR Products
8.10.4 Performance Review
8.10.5 Recent Developments
8.11 InWorld Solutions
8.11.1 Company Overview
8.11.2 Industry Presence and Operations
8.11.3 Healthcare VR Products
8.11.4 Recent Developments
8.12 Medtronic
8.12.1 Company Overview
8.12.2 Industry Presence and Operations
8.12.3 Healthcare VR Products
8.12.4 Performance Review
8.12.5 Recent Developments
8.13 Mentice
8.13.1 Company Overview
8.13.2 Industry Presence and Operations
8.13.3 Healthcare VR Products
8.14 Merge Healthcare
8.14.1 Company Overview
8.14.2 Industry Presence and Operations
8.14.3 Healthcare VR Products
8.14.4 Performance Review
8.14.5 Recent Developments
8.15 Motek Medical
8.15.1 Company Overview
8.15.2 Industry Presence and Operations
8.15.3 Healthcare VR Products
8.15.4 Recent Development
8.16 NDI
8.16.1 Company Overview
8.16.2 Industry Presence and Operations
8.16.3 Healthcare VR Products
8.16.4 Recent Developments
8.17 Philips Healthcare
8.17.1 Company Overview
8.17.2 Industry Presence and Operations
8.17.3 Healthcare VR Products
8.17.4 Performance Review
8.17.5 Recent Developments
8.18 Siemens Healthcare
8.18.1 Company Overview
8.18.2 Industry Presence and Operations
8.18.3 Healthcare VR Products
8.18.4 Performance Review
8.19 Simbionix
8.19.1 Company Overview
8.19.2 Industry Presence and Operations
8.19.3 Healthcare VR Products
8.19.4 Recent Developments
8.20 Stryker
8.20.1 Company Overview
8.20.2 Industry Presence and Operations
8.20.3 Healthcare VR Products
8.20.4 Performance Review
8.20.5 Recent Developments
8.21 TeraRecon
8.21.1 Company Overview
8.21.2 Industry Presence and Operations
8.21.3 Healthcare VR Products
8.21.4 Recent Developments
8.22 Virtually Better
8.22.1 Company Overview
8.22.2 Industry Presence and Operations
8.22.3 Healthcare VR Products
8.23 Vital Images
8.23.1 Company Overview
8.23.2 Industry Presence and Operations
8.23.3 Healthcare VR Products
8.23.4 Performance Review
8.23.5 Recent Developments

In the not so distant past, neck, back, and spine surgery was always performed as an open surgery procedure. Today, however, advances in image-guided technology, surgical instrumentations, and biotechnology have fostered the emergence of minimally invasive surgery for the symptomatic relief of many debilitating spine conditions. From herniated disc repair in the lumbar spine or cervical spine surgery to spinal fusion as a corrective action for scoliosis condition, minimally invasive surgery may offer benefits when compared to traditional open spinal surgery procedures in certain patients. Although, there are many conditions that are better served with traditional spinal surgery techniques, while some can be addressed more effectively through a minimally invasive or minimal access spine surgery.

Minimally invasive endoscopic spine surgery or laser spine surgery as it is often called aims to reduce this risk by approaching the spinal column through one or several small incisions. Using the aid of image-guided technology (endocope), spine surgeons conduct the procedures.


Posted by Admin on December 08, 2011 - 5:47 pm Posted in laser eye surgey oklahoma city
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