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Wintergreen Research

Surgical Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2015-2021.

$4,000.00

Report Published By: Wintergreen Research
Publication Date : Apr-15
No. Of Pages: 263

Worldwide surgical robot markets are poised to
achieve significant growth as next generation systems provide a way to improve traditional open surgery
and decrease the number of ports needed for minimally invasive surgery.
Intuitive
S
urgical has market leadership position,
advanced technology,
an impressive installed base and
a well trained group of surgeons able to manage the robots. Patients fare better when the surgery is done
by surgical robots. The documentation of improvements in care delivery, the ability to ensure better
outcomes from
surgery promise that surgical robotics is a strong growth market.Intuitive Surgical will be
difficult to dislodge,
its dominant position
is based on te
chnological excellence
that keeps being improved and
competitors
have a difficult time catching up, m
uch less improving on the
Intuitive Surgical
technology. Other leading
competitors
will emerge and the group of several surgical
robotic companies will collectively have enough marketing dollars and enough marketing clout to drive
replacement of all open surge
ry.
Robotic surgery is positioned to become the
standard
of care.
Intuitive Surgical
has achieved
market saturation
in
colorectal
surgery in the US, it
will work on
increasing
its
presence in other
surgical
market
s
ectors
.
The
leading
robotic surgical
companies
are
poised to grow throug
h acquisition, purchasing smaller companies that have developed as specialized
product and
gained
FDA approval.
As detailed in the market research study there are a lot of those in
every medical
specialty
and more to come
.
The surgical robot market is characterized
enormous variety and
innovation
.
Snake robots
are wonderfully interesting
surgical robots
.
Medrobotics offers a highly articulated multi
-
linked robot. It enables minimally
-
invasive procedures to replace open surgical procedures. It works
for many parts of the anatomy. It works in places in the body that are difficult or previously impossible
to reach. The robot
-
assist platform includes on
-
board visualization. and contains multiple open device
channels to accept a variety of third party surgical and interventional instruments. The robot enables
physicians to operate through non
-
linear cir
cuitous paths, self
-
supported, and through a single
-
site access
into the body.
The maneuverability of the robot is gained from its numerous mechanical linkages with concentric
mechanisms. Each mechanism can be placed into a rigid or a limp state. By empl
oying a patented
"follow
-
the
-
leader" movement strategy with these alternating states, the robot can be directed into any
shape through the relative orientations of its linkages.
A surgical robot r
ecurring revenue model
business
model is
essentially
large one time purchase for a
system
complimented by
replaceable or disposable instrument
s that cumul
atively market a much larger
and ongoing market.
V
endors make money from the
one time sale of a
system and
recurring revenue
from sale of
device
s used in every
operation.
Initially,
a vendor
sell
s
and install
s
the
s
urgical
s
ystem into new customer accounts.
Once systems are
sold into customer accounts,
the vendor
generate
s
recurring revenue as our customers use the syste
m to
perform surgery
. To do surgeries, the customers need to
buy and consume
instrument
s
and accessory
products.
Vendors
also generate recurring revenue from system service.
The ability to deliver such an accurate dose of
radiation
means that the cancer can be eradicated in
patients before the patient is administered a lethal dose of radiation. This prepresents a cure for cancer
once it gets working according t
o the promise of the systems now in place.
. The Accuray r
adiation systems that address the o
ncology
market are
perhaps
the most exciting
technology ever offered to any market. Because the systems are
able to control
the
dose of radiation
Amount of activity in the market, many companies, FDA
approvals, way for existing vendors to improve
footprint in market
In the field of radiation oncology, the
Accuray
CyberKnife® Robotic Radiosurgery System is universally
recognized as the premier radiosurgery system capable of delivering high doses of radiation with sub
-
millimeter accuracy anywhere in the body. As validated and proven in numerous peer
-
reviewed
publications, the precision and accuracy of the system combines with continual image guidance and
robotic mobility to deliver treatments characterized by high conf
ormality and steep dose gradients.
The newest addition to the CyberKnife product line, the CyberKnife VSI™ System, continues Accuray’s
tradition of innovation. Building on a foundation of accuracy and precision in radiosurgery, the
CyberKnife VSI System ex
tends these benefits to fractionated high precision radiation therapy with
Robotic IMRT™ that can be delivered anywhere in the body.
The automated process revolution in surgery and communications is being implemented via robots.
Robots automation of systems is providing significant improvement in the accuracy of surg
ery and the
repeatability of process.
According to Susan Eustis, lead author of the study, “Existing open surgery can be replaced in large part
by robotic minimally invasive surgery (MIS)
during the ofrecast period
. Minimally invasive robotic
surgery, new robotic radiation tr
eatment, and emerging robotic surgical approaches complement existing
surgery techniques. Soon, all surgery will be undertake
n
with at least come aspects of robotic surgery
replacing or complementing open surgery.”
During a robot assisted surgical proced
ure, the patient
-
side cart is positioned next to the operating table
with the electromechanical arms arranged to provide access to the initial ports selected by the surgeon.
Metal tubes attached to the arms are inserted through the ports, and the cutting
and visualization
instruments are introduced through the tubes into the patient’s body.
The surgeon performs the procedure while sitting at a console, manipulating the instrument controls and
viewing the operation through a vision system. When a surgeon
needs to change an instrument the
instrument is withdrawn from the surgical field using the controls at the console. This is done many
times during an operation.
The companies that get an early foothold in the market have significant strategic advanta
ge. The robotic
surgical technique benefits hospitals by reducing the length of patient stays, thereby enabling better cost
management. This factor is driving demand for surgery robot systems. Since robotics provide surgeons
with a precise, repeatable
and controlled ability to perform procedures in tight spaces, they are
increasingly in demand.

Surgical Robot Market Shares and Forecasts 34, Surgical Robot Market Driving Forces 34, Surgical Robotics Market Driving Forces 37, Healthcare Robotics Enabling Technology 42, Robotic-Assisted Minimally Invasive Surgery Market Driving Forces 42, Entrepreneurial Manufacturers with FDA-Approved Products Provide Sourcing To Larger Companies 44, Surgical Robot Market Risks 45, Medical Surgical Robots: Robotic Minimally Invasive Surgery Market Shares 46, Medical Surgical Robots: Robotic-Assisted Minimally Invasive Surgery Market Shares 48, Robotic Surgery Equipment Market Forecasts 50, 1. Surgical Robots Market Description and Market Dynamics 53, 1.1 Robotic Surgical System 53, 1.1.1 Market Strategy for the Robotic Surgical System 58, 1.1.2 Focus on Key Institutions 60, 1.2 Focus on Leading Surgeons to Drive Rapid and Broad Adoption 60, 1.2.1 Maintain Market Leadership 61, 1.2.2 Develop Industry Alliances 61, 1.2.3 Increasing Patient Awareness 61, 1.3 Clinical Applications For Technology 62, 1.4 Elder Assistance Robot Market Strategy 63, 1.5 Medical / Surgical Delivery Robots 64, 1.5.1 Assistive Technology 64, 1.6 Rehabilitation Robots 66, 1.7 Neuroscience Basic Mechanisms Of Neurogenesis And Neuroplasticity 67, 1.7.1 Neuro-Developmental Engineering 68, 1.7.2 Intelligent Rehabilitation 69, 1.7.3 Bilateral and Unilateral ADL-Focused Robot Therapies 70, 1.7.4 Robotic Rehabilitation Assistive Technology 71, 1.7.5 Robots, Aged Care, And Emotional Bonding With Machines 74, 1.7.6 InTouch Health Remote Presence 74, 1.7.7 InTouch Platforms Integrate Seamlessly With da Vinci Systems 75, 1.7.8 In Touch Health Remote Presence RP-7s Robot Doctors 76, 1.8 Educational Robots For Children in Hospitals 76, 1.9 Hospital Robots 77, 1.10 Mechanized Couriers 77, 1.10.1 Man vs. Machine: Robots at Japanese Hospital 78, 2. Surgical Robot Market Shares and Forecasts 80, 2.1 Surgical Robot Market Driving Forces 80, 2.1.1 Surgical Robotics Market Driving Forces 83, 2.1.2 Healthcare Robotics Enabling Technology 88, 2.1.3 Robotic-Assisted Minimally Invasive Surgery Market Driving Forces 88, 2.1.4 Entrepreneurial Manufacturers with FDA-Approved Products Provide Sourcing To Larger Companies 90, 2.1.5 Surgical Robot Market Risks 91, 2.2 Medical Surgical Robots: Robotic Minimally Invasive Surgery Market Shares 92, 2.2.1 Medical Surgical Robots: Robotic-Assisted Minimally Invasive Surgery Market Shares 94, 2.2.2 Medical Surgical Robots Markets And Systems Shares, Units And Dollars, Worldwide, 2014 97, 2.2.3 Medical Robotic Surgery by Segment 103, 2.2.4 Intuitive Surgical Robotics da Vinci® System 103, 2.2.5 Intuitive Surgical Cardiothoracic Surgeries 104, 2.2.6 Intuitive Surgical Head and Neck Cancer 105, 2.2.7 Intuitive Surgical Improve Its Procedure Volumes 105, 2.2.8 Intuitive Surgical Overcomes The Difficulty Of Market Saturation 108, 2.2.9 Intuitive Surgical 109, 2.2.10 Intuitive Surgical Potential Competition From Google and Johnson & Johnson 110, 2.2.11 Google and Johnson & Johnson 111, 2.2.12 Hansen Medical 112, 2.2.13 Think Surgical 113, 2.2.14 iRobot and InTouch Health 114, 2.2.15 MAKO Surgical 114, 2.2.16 Accuray 114, 2.2.17 Accuray CyberKnife Robotic Radiosurgery System 116, 2.2.18 Accuray Results 117, 2.2.19 Restoration Robotics 119, 2.2.20 Titan Robot 120, 2.2.21 Titan Robot Partners 123, 2.2.22 Medrobotics Positioning 126, 2.3 Robotic Surgery Equipment Market Forecasts 126, 2.3.1 Surgical Robot Systems Forecasts 129, 2.3.2 Medical Robotic Surgery Challenges 132, 2.3.3 Surgical Robot Disposable Instruments Forecasts 136, 2.3.4 Surgical Robot Systems vs. Disposable Instruments Forecasts 138, 2.3.5 Surgical Robot Application Forecasts 140, 2.3.6 Growth Of Laparoscopic Robotic Prostatectomy 140, 2.3.7 Medical Robot Systems Market Drivers 144, 2.3.8 Surgical Robot Market Segment Forecasts Dollars and Units 145, 2.3.9 Cancer Robotic Surgery Learning Curves 150, 2.3.10 Robotic Surgery Equipment 150, 2.3.11 U.S. Minimally Invasive Spinal Implant Market To Outpace Growth In Traditional Spine Market 151, 2.3.12 Medtronic Dominates MIS Spine Markets 153, 2.3.13 Asia - Pacific Minimally Invasive Surgery Spinal Device Market 154, 2.3.14 Medicare and Medicaid Impact 154, 2.3.15 Hip and Knee Robotic Surgery 154, 2.4 Surgical Robot Applications 154, 2.4.1 Urology 155, 2.4.2 Gynecology 155, 2.4.3 General Surgery 156, 2.4.4 Cardiac 156, 2.4.5 Head and Neck Surgery 156, 2.4.6 US Target Procedures: 156, 2.4.7 Intuitive Surgical da Vinci Surgical System Procedure Volume 158, 2.4.8 Reported Clinical Benefits of da Vinci® Hysterectomy Procedures for Benign Conditions 161, 2.4.9 Robotic Surgery ENT Opportunity 164, 2.4.10 General Surgery Robot Market Opportunities 165, 2.4.11 Radiation Oncology 166, 2.4.12 Number of Surgeries Incidence of Disease 168, 2.4.13 Hair Loss 168, 2.5 Robotic Surgery Equipment Prices 169, 2.5.1 Intuitive Surgical da Vinci Surgical System Prices 169, 2.5.2 Accuray 171, 2.6 Robotic Surgery Equipment Regional Market Segments 171, 2.6.1 Intuitive Surgical Regional Revenue 173, 2.6.2 Intuitive Surgical European Demand 174, 2.6.3 Intuitive Surgical in Japan 175, 2.6.4 Chinese and Taiwanese Markets for Minimally Invasive Spinal Devices 175, 2.6.5 China Emerging as a Surgical Robot Market 176, 2.6.6 Aging Taiwanese Population 176, 2.6.7 Brazil 176, 3. Surgical Robots Product Description 177, 3.1 Key Players In The Global Medical Robots 177, 3.2 General Surgery, Gynecology, Urology 178, 3.3 Intuitive Surgical da Vinci Xi® 178, 3.3.1 Intuitive Surgical da Vinci Xi Surgical System Minimally Invasive Surgery 181, 3.3.2 Intuitive Surgical da Vinci Surgical System 182, 3.3.3 Intuitive Surgical da Vinci Surgical System Components 189, 3.3.4 Intuitive Surgical Patient-Side Cart and Electromechanical Surgical Arms 192, 3.3.5 Intuitive Surgical 3-D Vision System 193, 3.3.6 Intuitive Surgical Firefly Fluorescence Imaging 193, 3.3.7 Intuitive Surgical da Vinci Skills Simulator 194, 3.3.8 Intuitive Surgical Instruments and Accessories 194, 3.3.9 Intuitive Surgical da Vinci Single-Site 195, 3.3.10 Intuitive Surgical EndoWrist One Vessel Sealer 196, 3.3.11 Intuitive Surgical Accessory Products 196, 3.3.12 Intuitive Surgical Da Vinci Minimally Invasive Surgical Product 197, 3.3.13 Intuitive Surgical Cardiac Surgery 198, 3.4 Titan Medical 205, 3.4.1 Titan Medical SPORT™ Surgical Next Generation System 210, 3.4.2 Titan Visualization Viewing Portal 221, 3.4.3 Titan Integration Successful Deployments Into Single 25mm Incision in Abdominal Cavity 224, 3.4.4 Titan Medical Surgical Robotic System 225, 3.4.5 Titan Robotic Single Incision Platform: 226, 3.4.6 Titan Medical Amadeus Robotic Surgical System 226, 3.5 Cardiac / Vascular Surgery 227, 3.5.1 Varicose Veins 228, 3.6 Hansen Medical Magellan™ Robotic System 230, 3.6.1 Hansen Medical Magellan Robotic System 231, 3.6.2 Magellan™ Robotic System Benefits 232, 3.6.3 Hansen Medical Magellan Robotic System 234, 3.6.4 Hansen Medical Magellan Robotic Catheter Intravascular Navigation 236, 3.6.5 Hansen Sensei® X Robotic Catheter System 237, 3.6.6 Hansen Medical Magellan 1 mm Tip Movement 240, 3.6.7 Hansen Medical Sensei® Robotic System Indications for Use 241, 3.6.8 Hansen Advanced Robotic Solution for Arrhythmias 242, 3.6.9 Hansen Medical Sensei X Robotic System 243, 3.7 Spine Surgery 245, 3.7.1 Scoliosis an Abnormal Curvature Of The Spine 246, 3.8 Mazor Robotics 247, 3.8.1 Mazor Robotics Renaissance® Spine Procedures 249, 3.8.2 Mazor Robotics Leading Spine Surgery Innovation 255, 3.8.3 Mazor Robotics Spine Procedures 255, 3.8.4 Mazor Robotics Minimally Invasive Spine Fusion: 257, 3.8.5 Mazor Robotics Scoliosis Correction Surgery: 258, 3.8.6 Mazor Robotics Vertebroplasty: 259, 3.8.7 Mazor Robotics Spine Biopsies: 260, 3.9 Cancer Surgery 260, 3.9.1 Lumpectomy 261, 3.9.2 Modified Radical Mastectomy 262, 3.9.3 Lung Cancer Surgery 263, 3.10 Accuray CyberKnife M6 Series 265, 3.10.1 Accuray CyberKnife M6 FIM System 270, 3.10.2 Accuray / CyberKnife VSI System 275, 3.10.3 Accuray CyberKnife Robotic Radiosurgery System 277, 3.10.4 Accuray / TomoTherapy System 277, 3.10.5 Accuray CyberKnife G4 System 279, 3.10.6 Accuray Multileaf Collimator 280, 3.10.7 Class A User Licenses for Accuray Products Awarded to 16 Hospitals in China 281, 3.10.8 Accuray Solutions 282, 3.10.9 Accuray TomoTherapy System 283, 3.11 Knee and Hip Surgery 283, 3.11.1 Hip Replacement 284, 3.12 Stryker / MAKO Surgical 285, 3.12.1 Stryker Robotic Joint Surgical 303, 3.12.2 MAKO Surgical RIO Robotic Arm 308, 3.13 Pharmacy and Compounding Automation 310, 3.14 Aesynt / Health Robotics / Robot-Rx® 310, 3.14.1 Aesynt MedCarousel® 311, 3.14.2 Aesynt PROmanager-Rx™ 311, 3.14.3 Aesynt MedShelf-Rx™ 312, 3.14.4 Aesynt NarcStation™ 312, 3.14.5 Health Robotics Part of Aesynt 313, 3.14.6 Health Robotics S.R.L. 313, 3.14.7 Health Robotics S.R.L. i.v.STATION® ONCO 316, 3.15 Minimally Invasive Surgery Products 319, 3.16 Freehand 319, 3.16.1 FreeHand Robotic Camera Controller for MIS 319, 3.16.2 FreeHand OR Productivity Prosurgics Robotic Value and Challenges 324, 3.16.3 FreeHand Disposable Supplies 325, 3.16.4 FreeHand Robotic Camera Controller for MIS 325, 3.16.5 FreeHand 328, 3.17 Restoration Robotics Artas Robotic System 330, 3.17.1 Restoration Robotics Strengths and Challenges 339, 3.18 THINK Surgical 339, 3.18.1 THINK Surgical TCAT™ Computer Assisted Tool 341, 3.18.2 THINK Surgical Independent Clinical Studies 344, 3.18.3 THINK Surgical ® Surgical Assistant Strengths and Challenges 344, 3.19 Robotic Angioplasty / Interventional Cardiology 345, 3.20 Corindus 346, 3.20.1 CorPath Robotic Angioplasty 347, 3.20.2 Corindus Command. Control CorPath® 200 System 347, 3.20.3 Corindus Standard in Precision PCI. 349, 3.21 Motion Computing Motion C5v Tablet 353, 3.22 Vycor Brain Access System (VBAS) 354, 3.22.1 Vycor's VBAS Minimally Invasive Neurosurgical Device 355, 3.23 Shoulder 356, 3.24 Tornier 357, 3.25 Image Guided Surgery 358, 3.26 Covidian 361, 3.27 AVRA Surgical 367, 3.27.1 AVRA Surgical Light-Weight Robotic Arms on Surgeon Console 368, 3.27.2 AVRA Robotic Surgical Instruments 369, 3.28 Medrobotics Techonology 370, 3.28.1 Medrobotics Cardiac Surgery Snake Robot 371, 3.28.2 Medrobotics Flex® Retractor 372, 3.28.3 Medrobotics Flexible Robot Platform 373, 3.28.4 Medrobotics Snakelike Robots for Heart Surgery 373, 3.28.5 Medrobotics Cardiac Surgery Snake Robot 375, 3.28.6 Minimally Invasive Surgery Positioning: 378, 3.29 Changzhou Kangxin Medical Instruments Co., Ltd. 379, 3.30 Guangzhou Baitang Medical Instrument Co., Ltd. 380, 3.31 Guangzhou Beco Electronic Technology Co., Ltd. 380, 4. Medical Robot Technology and Disease Statistics 381, 4.1 Robotic Surgical Clinical Applications 381, 4.1.1 Surgical Procedures 383, 4.1.2 U.S. Robotic Surgical Procedures 384, 4.1.3 Robotic Urologic Prostatectomy Surgery 384, 4.1.4 Robotic Gynecologic Surgery 386, 4.1.5 Robotic Myomectomy 386, 4.1.6 Robotic Cardiothoracic Surgery 387, 4.1.7 Robotic Internal Thoracic Artery Dissection 388, 4.1.8 Robotic Thoracoscopy 388, 4.1.9 Robotic Coronary Artery Bypass 389, 4.1.10 Robotic General Surgery 390, 4.1.11 Types of Spinal Condiitons for Which Surgery is Needed 392, 4.2 Incidence of CHF 394, 3.31.1 US Inpatient Surgery 2014 395, 4.3 Transmyocardial Laser Revascularization 396, 4.4 AI Robot 397, 4.4.1 Korea Focusing On Creating A Growth Engine In Research & Development 397, 4.5 Care-O-bot Robot Mechanics 399, 4.5.1 Care-O-bot Architecture 400, 4.6 Government Regulation 402, 4.6.1 California Regulation 405, 4.6.2 International Regulation 405, 4.7 Third Party Reimbursement 406, 5. Surgical Robots Company Description 409, 5.1 Accel Spine 409, 5.2 Accuray 409, 5.2.1 Accuray Revenue for Second Quarter of Fiscal Year 2015 410, 5.2.2 Accuray CyberKnife System 415, 5.2.3 Accuray Strategy 418, 5.2.4 Accuray International Presence 421, 5.2.5 Accuray Competition 421, 5.2.6 Accuray Noteworthy Awards: 425, 5.2.7 Accuray Installed Base 426, 5.2.8 New Data Validates CyberKnife SBRT for Prostate Cancer Treatment 427, 5.3 Aesynt / Health Robotics 427, 5.3.1 Aesynt / Health Robotics S.R.L. 428, 5.4 Alliance Spine 429, 5.5 Alphatec Spine 430, 5.6 Amedica 434, 5.7 Apollo Spine 435, 5.8 Ascendx Spine 435, 5.9 AVRA Surgical 436, 5.9.1 AVRA Portable Lightweight And Maneuverable Robotic Adaptable Platform 437, 5.9.2 AVRA Surgeon’s Console 437, 5.10 Back 2 Basics Spine 438, 5.11 Captiva Spine 439, 5.12 Centinel Spine 439, 5.13 Corindus 440, 5.13.1 FDA Clears Corindus Robotic-Assisted System For Coronary Artery Disease Stent 443, 5.14 Elekta AB 446, 5.14.1 Elekta Radiosurgery Solutions, -Guided Cancer Care 449, 5.14.2 Elekta Radiosurgery Solutions 449, 5.11.3 Elekta AB Information-Guided Cancer Care 449, 5.14.3 Elekta AB Advanced Brachytherapy Solutions 450, 5.12 Freehand 450, 5.12.3 Freehand 2010 / Prosurgics 451, 5.13 Globus Medical 452, 5.14 Hansen Medical 452, 5.14.3 Hansen Medical Sensei System 454, 5.14.4 Hansen Medical Magellan Robotic System 456, 5.14.5 Hansen Medical Competition 456, 5.14.6 Hansen Medical Revenue 458, 5.14.7 Hansen Revenue 459, 5.15 Healthcare Robotics Lab 462, 5.16 Intuitive Surgical 463, 5.16.1 Intuitive Surgical Robotics da Vinci® Surgical System 467, 5.16.2 Intuitive Surgical Robotics da Vinci Surgical System Xi 468, 5.16.3 Intuitive Surgical Business Strategy 471, 5.16.4 Intuitive Surgical Systems 473, 5.16.5 Intuitive Surgical Patient Value As Equal To Procedure Efficacy / Invasiveness 474, 5.16.6 Intuitive Surgical Business Model 475, 5.16.7 Intuitive Surgical Revenue 476, 5.16.8 Intuitive Surgical Regulatory Activities 477, 5.16.9 Intuitive Surgical Economic Environment. 477, 5.17 Johnson and Johnson / DePuy Synthes 478, 5.17.1 Google Collaborating With Johnson & Johnson To Develop Surgical Robots 479, 5.17.1 DePuy 479, 5.18 K2M 479, 5.19 Lanx / EBI Holdings / BioMet / 480, 5.19.1 BioMet 480, 5.19.2 EBI Holdings, 481, 5.19.3 Lanx 481, 5.20 LDR 482, 5.21 Life Spine 483, 5.22 Mazor Robotics 483, 5.22.1 Mazor Robotics 2014 Revenue 483, 5.23 Medrobotics 486, 5.23.1 Medrobotics Closes On $10 Million Financing 488, 5.23.2 Medrobotics Several Generations Of Snake Robot Platforms 489, 5.23.3 Medrobotics Advances Clinical Development of Snake Robot for Surgery 489, 5.23.4 Medrobotics Positioning 489, 5.23.5 Medrobotics Cardiac Surgery Gold Standard 490, 5.23.6 Medrobotics Snake Robot Technologies For Use In A Wide Range Of Surgical And Interventional Applications 491, 5.23.7 Medrobotics Technology & Research Center 493, 5.24 Medtronic 494, 5.25 NLT Spine 496, 5.26 NuVasive 496, 5.27 Otto Bock HealthCare 497, 5.28 RTI Biologics / Pioneer Surgical Technology 499, 5.29 Precision Spine 500, 5.30 Restoration Robotics 501, 5.30.1 ARTAS Technology Series: Patient Movement Compensation 501, 5.31 SI-BONE 503, 5.32 Spinal Elements 505, 5.33 Spineart 505, 5.34 SpineGuard 506, 5.35 Spine Frontier 506, 5.36 Spineology 507, 5.37 Spine Smith Partners 507, 5.38 Spine Surgical Innovations 508, 5.39 Spine View 508, 5.40 Spine Wave 508, 5.41 Stryker / MAKO Surgical 509, 5.41.1 Stryker Revenue 510, 5.41.2 Stryker Orthopaedics 511, 5.41.3 Mako Robotic Arm Technology Assists in Total Hip Replacement 512, 5.41.4 Mako Surgical Business 513, 5.41.5 Mako Products 514, 5.41.6 Mako Surgical Strategy 517, 5.41.7 Mako Surgical Revenue 520, 5.42 Think Surgical 520, 5.42.1 Think Surgical Technology Virtual Model Of a Patient Joint 521, 5.42.2 Think Surgical's Next-Generation Robodoc® Assists In Surgery 522, 5.42.3 THINK Surgical Receives 510(k) Clearance from the United States Food and Drug Administration (FDA) 524, 5.43 Titan Medical 526, 5.44 TranS1 529, 5.45 UC Berkeley 530, 5.46 Varian Medical Systems. 530, 5.47 Vecna Robotics 532, 5.48 Victrex plc / Invibio 533, 5.49 Vycor 536, 5.50 Wenzel Spine 538, 5.51 X-spine 539, 5.52.1 X-spine Systems 540, 5.53 Zyga Technology 540, 5.54 Surgical Robot Companies 541, , Table ES-1 34, Surgical Robot Medical Specialties Addressed 34, Table ES-2 35, Types Of Procedures Performed Using Robotic Surgical System 35, Table ES-3 36, Innovative Surgical Robot Features 36, Table ES-4 36, Surgical Robot Market Positioning 36, Table ES-5 38, Surgical Robotics Market Driving Forces 38, Table ES-6 39, Surgical Robot Key Factors Driving Market Growth 39, Table ES-7 40, Surgical Robot Key Market Challenges 40, Table ES-8 41, Robotics Market Driving Factors 41, Table ES-9 42, Healthcare Robotics Enabling Technologies 42, Table ES-10 43, Robotic-Assisted Minimally Invasive Surgery Market Driving Forces 43, Figure ES-11 49, Medical Surgical Robots Market Shares, Shipments, Dollars, Worldwide 2014 49, Table ES-12 52, Surgical Robot Forecasts Dollars, Worldwide, 2015-2021 52, Figure 1-1 54, Medical Multi Articulating Arms 54, Figure 1-2 55, Instruments That Support Multiple Approach Paths To A Surgical Target 55, Figure 1-3 57, Robotic Surgery Improved Visualization Features 57, Table 1-4 59, Robotic Surgical Specialties Procedure Marketing Efforts Focus 59, Table 2-1 80, Surgical Robot Medical Specialties Addressed 80, Table 2-2 81, Types Of Procedures Performed Using Robotic Surgical System 81, Table 2-3 82, Innovative Surgical Robot Features 82, Table 2-4 82, Surgical Robot Market Positioning 82, Table 2-5 84, Surgical Robotics Market Driving Forces 84, Table 2-6 85, Surgical Robot Key Factors Driving Market Growth 85, Table 2-7 86, Surgical Robot Key Market Challenges 86, Table 2-8 87, Robotics Market Driving Factors 87, Table 2-9 88, Healthcare Robotics Enabling Technologies 88, Table 2-10 89, Robotic-Assisted Minimally Invasive Surgery Market Driving Forces 89, Figure 2-11 95, Medical Surgical Robots Market Shares, Shipments, Dollars, Worldwide 2014 95, Table 2-12 96, Medical Surgical Robots Market Shares, Dollars, Worldwide, 2014 96, Table 2-13 97, Medical Surgical Robots Markets and Systems Shares, Units and Dollars, Worldwide, 2014 97, Table 2-14 98, Medical Surgical Robots Units and Installed Base, Units, Worldwide, 2014 98, Figure 2-15 99, Surgical Robot Systems Hospital Market Trends 99, Figure 2-16 100, Surgical Robot Systems Hospital Return on Investment (ROI) 100, Table 2-17 101, Surgical Robots Number of Procedures by Vendor, Worldwide, 2014 101, Table 2-18 102, Surgical Robots Number of Procedures by Type, Cardiac, Thoracic, Urology, Gynecologic, Joint Replacement, Colorectal, Pediatric, and General Surgical, Number, Worldwide, 2014 102, Table 2-19 107, Intuitive Surgical daVinci Installed Base and Product Shipments 107, Units and Dollars, Worldwide, 2014 107, Table 2-20 113, Hansen Medical Sensei® X Robotic Catheter System 113, Figure 2-21 113, Think Surgical Robodoc 113, Figure 2-22 121, Titan Medical Novel Robotic Platform for Single Port Access Surgery 121, Figure 2-23 122, Titan Medical Amadeus Composer Surgical System 122, Figure 2-24 124, Titan Medical Robotic Surgery Target Opportunity 124, Figure 2-25 125, Titan Medical Robotic Surgery Opportunity Analysis 125, Table 2-26 128, Surgical Robot Forecasts Dollars, Worldwide, 2015-2021 128, Table 2-27 129, Surgical Robot Forecasts Dollars, Worldwide, 2015-2021 129, Figure 2-28 130, Surgical Robot Systems Forecasts, Dollars, Worldwide, 2015-2021 130, Table 2-29 133, Challenges of Open Surgery and Minimally Invasive Surgery 133, Table 2-30 134, Challenges of Developing Medical Robotic Surgery Systems 134, Table 2-31 135, Surgical Robotic Product Development Challenges 135, Figure 2-32 136, Surgical Robot Disposable Instruments Forecasts, Dollars, Worldwide, 2015-2021 136, Figure 2-33 138, Surgical Robot Systems vs. Disposable Instruments Forecasts, Dollars, Worldwide, 2015-2021 138, Table 2-34 139, Surgical Robot Market Segment Forecasts, Dollars and Units, Worldwide, 2015-2021 139, Table 2-35 141, Robotic Surgery Market Segment Forecasts, Dollars, Worldwide, 2015-2021 141, Table 2-36 142, Robotic Surgery Market Segment Forecasts, Percent, Worldwide, 2015-2021 142, Table 2-37 143, Surgical Robot Market Challenges 143, Table 2-38 145, Surgical Robot Market Segment Forecasts Dollars and Units, Worldwide, 2015-2021 145, Table 2-39 147, Benefits of Robotic Surgery For The Surgeon 147, Table 2-40 148, Benefits of Robotic Surgery For The Patient 148, Table 2-41 149, Benefits of Robotic Surgery For The Hospital 149, Figure 2-42 159, Intuitive Surgical Prostatectomy Procedure Growth 159, Figure 2-43 160, Intuitive Surgical Prostatectomy Procedure Growth 160, Figure 2-44 162, Intuitive Surgical Hysterectomy Procedure Growth 162, Figure 2-45 163, Intuitive Surgical Hysterectomy Market Potential 163, Figure 2-46 164, Titan Medical Describes Surgical Robot ENT Market Potential 164, Figure 2-47 165, Titan Medical Describes Robotic General Surgery Market Potential 165, Table 2-48 167, Accuray CyberKnife M6 Series Benefits: 167, Figure 2-49 170, Surgical Robot Recurring Revenue Model 170, Figure 2-50 172, Surgical Robot Regional Market Segments, Dollars, 2014 172, Figure 2-51 173, Surgical Robot Regional Market Segments, 2014 173, Table 3-1 177, Key Players In The Global Medical Robots Market 177, Figure 3-2 182, Intuitive Surgical da Vinci Surgical System 182, Figure 3-3 184, Intuitive Surgical. da Vinci Surgical System EndoWrist® Instruments 184, Figure 3-4 186, Intuitive Surgical. da Vinci Surgical System Vision System 186, Table 3-5 188, Intuitive Surgical da Vinci Surgical System Features 188, Table 3-6 190, Intuitive Surgical da Vinci Xi Surgical System Surgeon Console Features 190, Figure 3-7 191, Intuitive Surgical. da Vinci Surgical System Surgeon Console 191, Figure 3-8 192, Intuitive Surgical. da Vinci Surgical System Patient-Side Cart 192, Figure 3-9 197, Intuitive Surgical Da Vinci Surgery 197, Table 3-10 198, Intuitive Surgical Da Vinci Surgical System Components 198, Table 3-11 200, Minimally Invasive Da Vinci Surgery Benefits To Cardiac Patients 200, Figure 3-12 201, Intuitive Surgical da Vinci System State-Of-The-Art Robotic Surgical Platform 201, Table 3-13 201, Intuitive Surgical da Vinci Si Surgical System Core Benefits: 201, Figure 3-14 202, Intuitive Surgical da Vinci SI Surgical System Dual Console Used For Training And Collaboration 202, Figure 3-15 203, Intuitive Surgical da Vinci Surgical System, Surgeon Operates Seated Comfortably At A Console 203, Figure 3-16 204, Intuitive Surgical da Vinci Surgical System Patient Side Cart 204, Figure 3-17 205, Titan Single Port Orifice Robotic Technology SPORT™ Surgical System 205, Figure 3-18 206, Titan SPORT™ Surgical System: 206, Table 3-19 208, Titan MedicalSPORT™ Surgical System Patient Benefits: 208, Table 3-20 209, Titan MedicalSPORT™ Surgical System Surgeon Benefits: 209, Table 3-21 210, Titan MedicalSPORT™ Surgical System Hospital Benefits: 210, Table 3-22 211, Titan Medical next generation SPORT™ Surgical System Uses 211, Figure 3-23 212, Titan Medical Next Generation SPORT™ Surgical System Market Opportunity 212, Figure 3-24 213, Titan Medical Next Generation SPORT™ Surgical System Competitive Positioning 213, Figure 3-25 214, Titan Medical Next Generation SPORT™ Surgical System Market Business Model 214, Figure 3-26 215, Titan Medical Next Generation SPORT™ Surgical System Development Strategy 215, Figure 3-27 216, Titan Medical Next Generation SPORT™ Surgical Instruments 216, Table 3-28 217, Titan Medical Next Generation Sport™ Surgical Instruments Metrics 217, Table 3-29 218, Titan Medical Next Generation SPORT™ Surgical Instruments 218, Figure 3-30 219, Titan Medical Next Generation SPORT™ Surgical Instrument Controlability 219, Table 3-31 220, Titan Medical Next Generation SPORT™ Surgical Instrument Usability Studies and Data Analysis 220, Figure 3-32 221, Titan Medical Next Generation SPORT™ Surgical Instrument Visualization 221, Figure 3-33 223, Titan Medical Next Generation SPORT™ Surgical Instruments 223, Table 3-34 224, Titan Integration Successful Deployments Into Single 25mm Incision in Abdominal Cavity 224, Table 3-35 225, Titan Robotic Surgical System Benefits: 225, Table 3-36 227, Titan Amadeus Features 227, Figure 3-37 231, Hansen Medical Magellan Robotic System 231, Table 3-38 232, Hansen Medical Magellan™ Robotic System Benefits 232, Table 3-39 233, Hansen Medical Magellan Peripheral Vascular Intervention Impact On Medical Care 233, Figure 3-40 234, Hansen Medical Magellan Robotic System 234, Table 3-41 235, Hansen Medical Magellan Robotic Catheter Functions: 235, Table 3-42 236, Hansen Medical Magellan Features 236, Figure 3-43 237, Hansen Sensei X 237, Figure 3-44 238, Hansen Medical Sensei Robotic System 238, Figure 3-45 239, Hansen Intellisense Force Feedback Visual Display 239, Figure 3-46 241, Hansen Sensei Robotic System 241, Table 3-47 242, Hansen Advanced Robotic Solution for Arrhythmias Features 242, Figure 3-48 243, Hansen Medical Sensei X Robotic System 243, Table 3-49 244, Hansen Medical Sensei® X Robotic Catheter System 244, Figure 3-50 248, Mazor Robotics’ Renaissance® System For Robotic Guidance 248, Figure 3-51 250, Mazor Robotics Adult Reconstructive Surgery 250, Figure 3-52 251, Mazor Robotics Biopsies 251, Figure 3-53 252, Mazor Robotics Leading Spine Surgery Innovation: Minimally-Invasive Surgery, Scoliosis Surgery, Spinal Fusion, Vertebroplasty 252, Figure 3-54 256, Mazor Robotics Renaissance® Guidance System 256, Figure 3-55 261, Lumpectomy 261, Figure 3-56 262, Modified Radical Mastectomy 262, Figure 3-57 264, Lung Cancer Surgery 264, Table 3-58 265, Accuray CyberKnife M6 Series Benefits: 265, Table 3-59 266, Accuray CyberKnife M6 Series Functions 266, Table 3-60 267, Accuray CyberKnife M6 Series Uses 267, Table 3-61 268, Accuray CyberKnife M6 Series Features 268, Table 3-62 269, Accuray CyberKnife M6 Patient Comfort Features 269, Figure 3-63 270, Accuray CyberKnife M6 FIM System 270, Table 3-64 271, A

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