(Health-NewsWire.Net, March 10, 2018 ) The 2016 study has 557 pages, 82 tables and figures. Worldwide Radiology Oncology surgical robot markets are poised to achieve significant growth as next generation systems provide a way to improve traditional open surgery and use radiology for cancer surgery. New systems pinpoint the delivery of radiation precisely, eliminating the radiological overdosing that has been such a problem previously, limiting the quantity of radiation that can be delivered.
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Radiosurgery robots take cancer surgery far beyond what has been available, promising a cure for cancer. Radiology oncology surgical robots use mechanical mobility and continuous image guidance to remove tumors. The Accuray CyberKnife® robotic system follows the oncology target throughout treatment, intelligently delivering sub-millimeter precision, sparing healthy tissue. A robotic manipulator and a compact, lightweight linear accelerator, can deliver beams from thousands of non-coplanar, isocentric or non-isocentric angles. Treatments have excellent tumor coverage, steep dose gradients, and tight dose conformality.
The radiation oncology market is growing globally due to a number of factors centered around the aging of the population and the benefits accrued from new technology. The number of new cancer cases diagnosed annually is projected to increase from 14.9 million in 2015 to 20 million by 2025. The increase in new cases is due to a steadily aging population. Both developed and developing countries have aging populations.
Technology advances improve the precision and applicability of radiotherapy and radiosurgery. Expanding uses of radiotherapy and radiosurgery equipment occur because the units are able to treat a broader range of cases. Advances in hardware and software are creating a market for replacing an aging installed base. New designs are able to deliver higher standards of care.
The rise in cancer cases, together with the increase in sophistication of new treatment protocols, have created demand for more automated products. Automation depends on integration of several devices into clinically practical systems. Integrated systems make treatments rapid and cost effective.
Technology advances lead to improvements in patient care. The availability of advanced, automated and efficient clinical tools in radiation therapy has brought more precise forms of radiotherapy treatment (IMRT, IGRT, VMAT, SRS, SBRT, brachytherapy and proton therapy). Technology includes the EDGE™ and Truebeam™, and the Accuray TomoTherapy H Series and CyberKnife M6 platforms that enable treatments that reduce treatment times and increase patient throughput .
International markets are under-equipped to address the growing cancer incidence. Patients in many foreign countries must frequently endure long waits for radiotherapy.
9,000 additional treatment machines will be required by 2020 in developing countries. China, India and Brazil are estimated to require over 3,800, 1,200 and 400 additional machines. Demand in emerging markets, coupled with ever increasing incidences of cancer, represent additional drivers for continued growth.
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Radiology oncology surgical robot market driving forces relate to an opportunity to achieve change in medical practice regarding the treatment of cancer. Change would lead to utilization of stereotactic body radiosurgery more regularly as an alternative to surgery or other treatments. Radiosurgery is poised to revolutionize the treatment of cancer by eradicating tumors while not harming surrounding healthy tissue.
The ability to use high doses of radiation to precisely eliminate a tumor while leaving healthy tissue unharmed is compelling. It means that high doses of radiation can be delivered without killing the person, that doses of radiation delivered can be enough to kill the cancer without killing the person, this represents a change in what has been possible previously.
Radiology Oncology surgical robot device markets at $4 billion in 2015 are anticipated to reach $7.3 billion by 2022 as next generation devices, systems, and instruments are introduced to manage cancer surgery through radiation excision that eliminates open cutting in the body. Patients tolerate the surgery well, walking out of the hospital after the procedure no longer bothered by healing or infection from an incision.