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Global Brain PET-MRI Systems Market 2021: By Phase (Clinical, Pre-clinical), By Product (Traditional PET-MRI systems, Helium-free PET-MRI systems), By End-Use (Hospitals, Diagnostic imaging centers, Others)The Global Brain PET-MRI Systems market size was valued at USD $366.66 Million in 2020, USD $390.31 Million in 2021, forecasted to reach USD $415.49 Million in 2022, and is projected to reach USD $706.92 Million by 2030, and is anticipated to expand at a CAGR of 6.45% over the forecast period from 2020 to 2030. Global Brain PET-MRI Systems Market is the title of an upcoming report offered by Trusted Business Insights. The report contains information and data, and inputs from both primary and secondary data sources, that have been verified and validated by experts in the target market. The report presents a thorough study of revenues, historical data, and information, key developments, and strategies by major players that offer vital insights and perspectives in various scenarios market. Besides critical data and related information, the report includes key trends (both present and future), factors that are driving market growth, factors that are or could be potential restraints to market growth, as well as opportunities that can be leveraged for potential revenue generation in untapped regions and countries. It also covers threats or challenges for existing as well as new entrants in the market. The global brain PET-MRI systems market has been segmented on the basis of phase outlook, product, end-use, as well as regions and countries.Request Covid - 19 Impact
Overview:Brain Positron Emission Tomography (PET) and Magnetic Resonance Imaging (MRI) are safe, effective and non-invasive diagnostic imaging techniques that are capable of providing highly detailed images of the anatomy and physiological processes of the brain. A PET scan is able to highlight metabolic changes in the brain that cannot be detected by an MRI or a Computed Tomography (CT) scan.
Dynamics:The integration of PET and MRI technology has been found to be one of the most efficient hybrid imaging systems in neurology, as it immensely aids in the enhanced diagnosis of neurological disorders. The increasing using of these advanced imaging systems on a global-scale is a factor that is expected to have a significant impact on the revenue growth of the global brain PET-MRI systems market over the next 10 years. The implementation of PET-MRI systems in the observation of biochemical and physiological processes of the brain is leading to the creation of new opportunities in multiparametric neuroimaging, thereby, boosting the future revenue growth of this global market. Unfortunately, in order to develop an effective PET-MRI system, there are several challenges such as the development of attenuation maps for PET images, the correct construction of a PET-MRI system, as well as the placement of a PET system with photomultiplier tubes in a magnetic field, that must be overcome first. These obstacles may prove to be a negative factor that restrains the revenue growth of the global brain PET-MRI systems market in the coming years. Nonetheless, increasing investments being made by key market players towards R&D activities to develop a more efficient system is a factor that is slated to positively impact the revenue growth of the global brain PET-MRI systems market in the foreseeable future.
Segmentation of the global brain PET-MRI systems market is as follows:In terms of phase, the pre-clinical brain PET-MRI systems segment accounted for the majority revenue share of the global brain PET-MRI systems market in 2019, owing to the vast number of pre-clinical studies that have been undertaken to further comprehend its effectiveness in diagnosing neurological disorders. However, the clinical brain PET-MRI systems segment is slated to index the fastest rate of revenue growth over the next 10 years, due to the rising number of clinical trials for neurological disorders being conducted. With respect to product, the traditional PET-MRI segment accounted for the maximum number of revenue shares of this global market in 2019, due to the continual development of these devices by key industry players. Although, the helium-free brain PET-MRI systems segment is slated to register the fastest rate of revenue growth in the foreseeable future owing to the lower associated costs when operating these systems. On the basis of end-use, the hospitals segment accounted for the maximum number of revenue shares of the global brain PET-MRI systems market in 2019, owing to the high number of diagnoses that occur at these medical facilities, and the subsequent increase in the demand for the installation of these complex systems. The diagnostic imaging centers segment is slated to index the fastest rate of revenue growth in the coming years. The others segment is also anticipated to register considerable revenue growth over the forecast period.
Regional Segmentation and Analysis:Owing to the increasing adoption and installation of these advanced diagnostic systems in research institutes and universities, the APAC region accounted for the highest number of revenue shares of the global brain PET-MRI systems market in 2019. North America accounted for a considerable portion of this global market in 2019, due to the increasing prevalence of neurological disorders in this region. SIGNA™ are the brands covered in this Brain PET-MRI Systems report.
Below are the active patents related to Brain PET-MRI Systems Market.Patent Number: US9606245B1 Autonomous gamma, X-ray, and particle detector Abstract A system and method for imaging gamma- and x-ray, and charged particles sources employing a three dimensional array of scintillation elements arranged surrounding an emission source. According to a preferred embodiment, each element of the array comprises a scintillator element, a solid-state photon detector, and processing electronics to output an electronic signal. The elements may be efficiently packed in both the X-Y plane and stacked in the Z-axis, to provide depth of interaction information. The elements of the array are preferably hierarchically arranged with control electronics provided together for subarray modules (e.g., an n×m×1 module), and synchronization electronics provided at a larger scale. The modules preferably communicate with a control system through a shared addressable packet switched digital communication network with a control and imaging system, and receive control information from that system through the network. Type: Grant Filed: 2016-03-24 Date of Patent: 2017-03-28 Assignee : Research Foundation of State University of New York , University of South Carolina , Cornell University , Memorial Sloan Kettering Cancer Center
Below are the leading companies profiled in this Brain PET-MRI Systems Market Report:
Chapter 1 Methodology and Scope