Summarization Of the Report
Radiation therapy is the medical use of ionizing radiation to treat cancer. In conventional radiation therapy, beams of X rays (high energy photons) are produced by accelerated electrons and then delivered to the patient to destroy tumour cells. Using crossing beams from many angles, radiation oncologists irradiate the tumour target while trying to spare the surrounding normal tissues. Inevitably some radiation dose is always deposited in the healthy tissues.
When the irradiating beams are made of charged particles (protons and other ions, such as carbon), radiation therapy is called hadrontherapy. The strength of hadrontherapy lies in the unique physical and radiobiological properties of these particles; they can penetrate the tissues with little diffusion and deposit the maximum energy just before stopping. This allows a precise definition of the specific region to be irradiated. The peaked shape of the hadron energy deposition is called Bragg peak and has become the symbol of hadrontherapy. With the use of hadrons the tumour can be irradiated while the damage to healthy tissues is less than with X-rays.
The idea of using protons for cancer treatment was first proposed in 1946 by the physicist Robert Wilson, who later became the founder and first director of the Fermi National Accelerator Laboratory (Fermilab) near Chicago. The first patients were treated in the 1950s in nuclear physics research facilities by means of non-dedicated accelerators. Initially, the clinical applications were limited to few parts of the body, as accelerators were not powerful enough to allow protons to penetrate deep in the tissues.
In the late 1970s improvements in accelerator technology, coupled with advances in medical imaging and computing, made proton therapy a viable option for routine medical applications. However, it has only been since the beginning of the 1990s that proton facilities have been established in clinical settings, the first one being in Loma Linda, USA. Currrently about thirty proton centres are either in operation or in construction worldwide.
The Hadron Therapy market research report discusses the importance of the segments as well as the regional markets. An accurate overview for different segments and regions has been prepared on the basis of the market size as well as the growth rate (CAGR). Different industry professionals and research analysts in various regions have examined and validated the data presented in this research report.
Apart from this, the market research report contains an in-depth analysis of the forecasted data, important developments, and revenues. Further, it contains a thorough analysis of the important strategies undertaken by the leading market players to drive their business growth in the global Hadron Therapy market while maintaining their competitive edge over their competitors. The report offers detailed and crucial information to understand the overall market scenario.
The research analysts have included important aspects, such as future trends, market position, opportunities, threats, challenges, risks, market dynamics, market share as well as entry barriers in this detailed research report. To be specific, this information is being presented in the form of tables, pie charts, product figures, and graphs. This graphical representation will help the readers to understand the market in a proper way.
In addition, the research report highlights crucial information on upstream raw materials, market development trends, downstream client surveys, and marketing channels. Further, it contains recommendations that offer important information on raw material suppliers, traders, distributors, consumers, and manufacturing equipment suppliers with their contact details, in order to perform an in-depth market chain analysis for the global Hadron Therapy market and the energy industry.
The prime objective of this report is to help the user understand the market in terms of its definition, segmentation, market potential, influential trends, and the challenges that the market is facing with 10 major regions and 30 major countries.
The report forecast global Hadron Therapy market to grow to reach xxx Million USD in 2020 with a CAGR of xx% during the period 2021-2027.
Note – In order to provide more accurate market forecast, all our reports will be updated before delivery by considering the impact of COVID-19.
First, this report covers the present status and the future prospects of the global Hadron Therapy market for 2015-2027.
Market Segmentation
The Hadron Therapy market is segmented on the basis of type, application, end-use industry, and region & country.
Key Companies
Koninklijke Philips N.V.
Advanced Oncotherapy
Varian Medical Systems
Optivus Proton Therapy
Hitachi, Ltd.
Mevion Medical Systems
ProTom International
Mitsubishi Electric Corporation
Sumitomo Corporation
ProNova Solutions, LLC
At the same time, we classify Hadron Therapy according to the type, application by geography. More importantly, the report includes major countries market based on the type and application.
Market by Order Type
Electron Beam
Proton Beam
Neutron Beam
Carbon Ion Beam
Alpha Particle Beam
Beta Particle Beam
Market by Application
Pediatric Cancer
Bone and Soft Tissue Cancer
Prostate Cancer
Lung Cancer
Liver Cancer
Eye Cancer
Head & Neck Cancer
Others Applications (Renal Cell Carcinoma, Cervical, Gastric, and Lymphoma)
Market Segment as follows:
By Region
Asia-Pacific[China, Southeast Asia, India, Japan, Korea, Western Asia]
Europe[Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland]
North America[United States, Canada, Mexico]
Middle East & Africa[GCC, North Africa, South Africa]
South America[Brazil, Argentina, Columbia, Chile, Peru]
The research provides answers to the following key questions:
• What is the estimated growth rate and market share and size of the Hadron Therapy market for the forecast period 2021 - 2027?
• What are the driving forces in the Hadron Therapy market for the forecast period 2021 - 2027?
• Who are the prominent market players and how have they gained a competitive edge over other competitors?
• What are the market trends influencing the progress of the Hadron Therapy industry worldwide?
• What are the major challenges and threats restricting the progress of the industry?
• What opportunities does the market hold for the prominent market players?
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