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US Procedure Numbers for Surgical Navigation and Robotics Systems 2017 - MedPro

US Procedure Numbers for Surgical Navigation and Robotics Systems 2017 - MedPro

The shift from open cavity procedures to minimally invasive procedures has already occurred within the United States. For hospitals to attract top talent, they must be equipped with the latest in high-tech equipment and facilities in order to increase efficiency for the surgeon. Incorporating surgical navigation and robotic systems into operating rooms helps institutions promote themselves as industry leaders. Surgical navigation is a more established technology which has become the standard of care in neurosurgery, with adoption increasing in other segments. In addition, the growth of the surgical robotics market is expected to broaden the variety of procedures which can be done using a minimally invasive approach while reinforcing existing clinical benefits. For many procedures, the use of an IGS or robotic system increases the duration of the operation. Facilities and surgeons will therefore lose money as they are forced to schedule fewer procedures. This delay has decreased with newer models; however, any increase in time may reduce the number of operations that can be scheduled in a facility. This negatively impacts both surgeons and facilities, and can make potential clients less willing to pay the high costs associated with robotics systems. Surgical navigation systems are often marketed by implant companies and bundled with other products, while robotics companies have traditionally been smaller and focused on a narrower range of technologies. However, partnerships have led to a series of acquisitions of smaller robotics companies by larger, more established medical device companies. Since the technologies can be considered competitors, this trend is expected to continue as robotic technology becomes more widely adopted and accepted.

The full report suite on the U.S. robotics and surgical navigation systems includes four segments in surgical navigation and six segments in robotics. The segmentation for surgical navigation systems includes systems with neurosurgery applications, spinal surgery applications, ENT (ear/nose/throat) applications, and orthopedic hip and knee applications. The segmentation for surgical robotics systems includes spinal, neurosurgery, minimally invasive surgery (MIS), radiosurgery, catheter, and orthopedic robotically assisted systems.


EXECUTIVE SUMMARY
U.S. SURGICAL NAVIGATION AND ROBOTIC SYSTEMS MARKET
COMPETITIVE ANALYSIS
MARKET TRENDS
MARKET DEVELOPMENTS
MARKETS INCLUDED
PROCEDURES
KEY REPORT UPDATES
VERSION HISTORY
RESEARCH METHODOLOGY
1.1 RESEARCH SCOPE
1.2 IDATA’S 9-STEP METHODOLOGY
Step 1: Project Initiation & Team Selection
Step 2: Prepare Data Systems and Perform Secondary Research
Step 3: Preparation for Interviews & Questionnaire Design
Step 4: Performing Primary Research
Step 5: Research Analysis: Establishing Baseline Estimates
Step 6: Market Forecast and Analysis
Step 7: Identify Strategic Opportunities
Step 8: Final Review and Market Release
Step 9: Customer Feedback and Market Monitoring
DISEASE OVERVIEW
2.1 MEDICAL CONDITIONS
2.1.1 Neurosurgery Conditions
2.1.1.1 Hydrocephalus
2.1.1.2 Communicating Hydrocephalus
2.1.1.3 Normal Pressure Hydrocephalus
2.1.1.4 Non-Communicating Hydrocephalus
2.1.1.5 Brain Tumor
2.1.1.6 Intracranial Pressure
2.1.1.7 Intracranial Aneurysm
2.1.1.8 Intracranial Atherosclerosis Disease
2.1.2 Spinal Conditions
2.1.2.1 Herniated Disc
2.1.2.2 Spinal Stenosis
2.1.2.3 Spondylosis
2.1.2.4 Scoliosis
2.1.2.5 Lordosis
2.1.2.6 Kyphosis
2.1.3 ENT Conditions
2.1.3.1 Otitis Media
2.1.3.2 Cholesteatomas
2.1.3.3 Otosclerosis
2.1.3.4 Chronic Sinusitis
2.1.3.5 Tonsillitis
2.1.4 Orthopedic Conditions
2.1.4.1 Fractures
2.1.4.2 Osteoporosis
2.1.4.3 Arthritis
2.1.5 Gynecological Conditions
2.1.5.1 Gynecological Cancers
2.1.5.2 Uterine Fibroids
2.1.5.3 Endometriosis
2.1.5.4 Menorrhagia
2.1.5.5 Pelvic Prolapse
2.1.6 Urological Conditions
2.1.6.1 Prostate Cancer
2.1.6.2 Bladder Cancer
2.1.6.3 Kidney Cancer
2.1.6.4 Benign Prostate Hyperplasia (BPH)
2.1.7 Digestive Tract Conditions
2.1.7.1 Achalasia
2.1.7.2 Stomach Cancer
2.1.7.3 Hernia
2.1.7.4 Gallbladder Attack
2.1.7.5 Gastroesophageal Reflex Disease
2.1.8 Colorectal Conditions
2.1.8.1 Colorectal Cancer
2.1.8.2 Inflammatory Bowel Disease
2.1.8.3 Diverticulitis
2.1.9 Cardiac Conditions
2.1.9.1 Mitral Valve Prolapse
2.1.9.2 Coronary Artery Disease
PROCEDURE NUMBERS
3.1 PROCEDURE CODES INVESTIGATED
3.1.1 Neurosurgery Navigation Procedures
3.1.2 Spine Navigation Procedures
3.1.3 ENT Navigation Procedures
3.1.4 Orthopedic Navigation Procedures
3.1.4.1 Reconstructive Knee Implant Procedures
3.1.4.2 Reconstructive Hip Implant Procedures
3.1.4.3 Partial Knee Replacement Procedures
3.1.5 Neurosurgery Robotics Procedures
3.1.6 Spinal Robotics Procedures
3.1.7 Minimally Invasive Procedures
3.1.8 Radiosurgery Robotics Procedures
3.1.9 Robotic Catheter Procedures
ABBREVIATIONS
List of Charts
Chart 1 1: Surgical Navigation Systems Market by Segment, U.S, 2013 – 2023
Chart 1 2: Surgical Robotics Systems Market by Segment, U.S, 2013 – 2023
Chart 1 3: Robotics and Surgical Navigation Systems Market Overview, U.S., 2013 & 2023
List of Figures
Figure 1 1: Surgical Navigation Systems Competitor Market Share Ranking by Segment, U.S., 2016
Figure 1 2: Surgical Robotics Competitor Market Share Ranking by Segment, U.S., 2016 (2 of 2)
Figure 1 3: Companies Researched in this Report, U.S., 2016
Figure 1 4: Factors Impacting the Robotics and Surgical Navigation Systems Market by Segment, U.S., 2016 (1 of 3)
Figure 1 5: Factors Impacting the Robotics and Surgical Navigation Systems Market by Segment, U.S., 2016 (2 of 3)
Figure 1 6: Factors Impacting the Robotics and Surgical Navigation Systems Market by Segment, U.S., 2016 (3 of 3)
Figure 1 7: Recent Events in the Robotics and Surgical Navigation Systems, Europe, 2013 – 2016
Figure 1 8: Robotics and Surgical Navigation Systems Markets Covered, U.S., 2016
Figure 1 9: Robotics and Surgical Navigation Systems Procedures Covered, U.S., 2016 (1 of 2)
Figure 1 10: Robotics and Surgical Navigation Systems Procedures Covered, U.S., 2016 (2 of 2)
Figure 1 11: Key Report Updates
Figure 1 12: Version History
Figure 3 1: Procedural Codes Investigated (1 of 2)
Figure 3 2: Procedural Codes Investigated (2 of 2)
Figure 3 3: Neurosurgery Navigation Procedures, U.S., 2013 – 2023
Figure 3 4: Spine Navigation Procedures, U.S., 2013 – 2023
Figure 3 5: ENT Navigation Procedures, U.S., 2013 – 2023
Figure 3 6: Orthopedic Navigation Procedures, U.S., 2013 – 2023

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