Neurosurgery is
the process of diagnosis & treatment of neurological disorders for instance
Alzheimer’s disease, strokes, Parkinson’s disease, degenerative diseases,
aneurysms, and trauma to the spinal cord & brain. Neurosurgery surgical
robot aids surgeons in performing composite surgeries with more flexibility and
precision. These surgical robots are preferred in minimally invasive surgeries or
MIS and for the better precision. MI robotic neurosurgery or robotic
neurological minimally invasive surgery (RNMIS) adds to an ideal option over the
medical centers, patients and surgeons. The surgeon monitors the system by a
computer console placed in the operating room. The console has a camera that
gives detailed three dimensional or 3D images of the operating site. Some
benefits are increased accuracy, better outcomes, lower risk of surgical site
infection, sooner recovery and shorter hospital stay etc.
According to
study, “Global Neurosurgical Robotics
Market 2016-2025: Market Size, Share, Forecast and Strategy” some of the major companies
that are currently working in the global neurosurgical robotics market are Brainlab
AG, Renishaw plc, DePuy Synthes (Johnson & Johnson), Shenzhen Institutes of
Advanced Technology (SIAT), KUKA AG, Mazor Robotics Ltd, Medtronic Inc.,
SONOWAND AS, Simbionix USA Corp., THINK Surgical Inc., Auris Surgical Robotics,
Inc, Zimmer Biomet Holdings, Inc. / Medtech, Smith & Nephew Plc., Stryker
Corp. / MAKO. All these vendors are deploying advanced techniques &
strategies to increase novel processes for manufacturing of technologically
improved neurosurgery surgical robots.
Some current
neurosurgical robotics systems are ROSA robot, Renaissance guidance system and
Neuromate robot system. ROSA has been used widely for stereo electro
encephalography (sEEG) electrode implantation through a high degree of accuracy.
Renaissance guidance system uses in spinal surgery, to support with pedicle
screw placement. Furthermore, Neuromate robot system consists of a
gadolinium-enhanced magnetic resonance imaging (MRI) and may also contain other
forms of functional imaging or vascular imaging. Additionally, some other robotic
systems include Puma 200, Pathfinder, Neuromate,Neuroarm, Steady hand system, the
spine assist, Neurolocate, Expert, iArmS, Da Vinci, Spinal robotics, SOCRATES, Augmented
reality systems, Isys1 ROBOT, and Neurosurgical lasers etc.
The market of
global neurosurgical robotics is primarily driven by rise in the number of
neurosurgery performed, followed by growth in geriatric population, rise in
minimally invasive surgeries, rapid increase in the number of robotic surgeries,increase
in the purchasing power of hospitals and increase in incidence of neurological
disorders. Additionally, some restraint factors are lack of skilled professions
and high cost of neurosurgery surgical robots.
In 2017, North
America accounted for the foremost share of the global market as a result of
rapid progress in the health care industry and high adoption of advanced health
care devices in the region. Moreover, Latin America and Asia Pacific are expected
to be highly lucrative markets on account of increase in the number of
hospitals, large population base, and rise in government investment for the development
of health care in the regions. The global neurosurgical robotics market is
anticipated to grow at a compound annual growth rate or CAGR of 18.8% through
2025. In upcoming years, it is estimated that the future of this market will be
bright due to augment in adoption of technologically advanced health care
devices.
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Ken Research
Ankur Gupta, Head Marketing & Communications
Sales@kenresearch.com
+91-9015378249
Ken Research
Ankur Gupta, Head Marketing & Communications
Sales@kenresearch.com
+91-9015378249
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