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Brain Cancer Diagnostics Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Diagnostic Type (Imaging Test, Lumbar Puncture, Biopsy, Molecular Testing, Others), By Tumor Type (Metastatic, Meningioma, Glioblastoma, Pituitary Endoma, Others), By End User (Hospitals, Diagnostics Centers, Others), By Region, and By Competition


Published on: 2024-11-02 | No of Pages : 320 | Industry : Healthcare

Publisher : MIR | Format : PDF&Excel

Brain Cancer Diagnostics Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Diagnostic Type (Imaging Test, Lumbar Puncture, Biopsy, Molecular Testing, Others), By Tumor Type (Metastatic, Meningioma, Glioblastoma, Pituitary Endoma, Others), By End User (Hospitals, Diagnostics Centers, Others), By Region, and By Competition

Forecast Period2024-2028
Market Size (2022)USD 2.56 billion
CAGR (2023-2028)3.36%
Fastest Growing SegmentImaging Test
Largest MarketNorth America

MIR Consumer Healthcare

Market Overview

Global Brain Cancer Diagnostics Market has valued at USD 2.56 billion in 2022 and is anticipated to project impressive growth in the forecast period with a CAGR of 3.36% through 2028. The Global Brain Cancer Diagnostics Market is a dynamic and rapidly evolving sector within the broader healthcare industry. It encompasses the various products and services aimed at diagnosing and detecting brain cancer, a life-threatening condition characterized by the abnormal growth of cells in the brain.

Key Market Drivers

Rising Incidence of Brain Cancer

The global incidence of brain cancer is on the rise, posing a significant health challenge worldwide. Amid this concerning trend, the field of brain cancer diagnostics is witnessing a surge in demand, as early detection becomes paramount in the battle against this deadly disease.

An aging global population has led to an increased prevalence of brain cancer, as the risk of developing the disease tends to rise with age. The demographic transition towards older populations in many countries has contributed to this upward trend. Exposure to environmental carcinogens and toxins, such as radiation and certain chemicals, has been linked to an increased risk of brain cancer. These factors are more prevalent in modern society, leading to higher incidences of the disease. Some individuals may have a genetic predisposition to brain cancer. Genetic mutations and family history can play a role in the development of brain tumors, contributing to the overall incidence. Advancements in medical imaging and diagnostic technologies have made it easier to detect brain cancer at an earlier stage. This has led to a higher number of diagnoses, particularly for tumors that may have gone undetected in the past.

With more individuals being diagnosed with brain cancer, there is a growing demand for diagnostic services. Medical professionals are increasingly relying on advanced imaging techniques, such as magnetic resonance imaging (MRI) and computed tomography (CT) scans, to accurately diagnose and stage brain tumors. Early detection of brain cancer is crucial for improving treatment outcomes and patient survival rates. The rising incidence of the disease has prompted healthcare providers to prioritize early screening and diagnosis, driving the adoption of brain cancer diagnostic tools. As the number of brain cancer cases grows, so does the need for personalized treatment plans. Accurate diagnosis allows for tailored therapies that consider the specific type and stage of the tumor, leading to more effective treatments. The increasing prevalence of brain cancer has spurred investment in research and development efforts. Pharmaceutical companies, diagnostic equipment manufacturers, and research institutions are dedicating resources to developing innovative diagnostic technologies and treatment modalities. The rising incidence of brain cancer has led to heightened awareness campaigns and educational initiatives. These efforts aim to inform the public about the importance of early detection and the availability of advanced diagnostic tools.

Advancements in Imaging Technologies

The field of brain cancer diagnostics is undergoing a profound transformation, thanks to significant advancements in imaging technologies. These innovations are playing a pivotal role in early detection, precise characterization, and effective treatment planning for brain cancer patients.

Imaging technologies have long been at the forefront of brain cancer diagnostics. They allow healthcare professionals to visualize the brain's internal structures, detect abnormalities, and monitor the progression of brain tumors. Early and accurate diagnosis is paramount in the fight against brain cancer, as it enables timely intervention and improved patient outcomes.

MRI has evolved into one of the most crucial tools in brain cancer diagnostics. Recent advancements have resulted in higher resolution images, improved contrast, and faster scanning times. Functional MRI (fMRI) and diffusion tensor imaging (DTI) are also used to assess brain function and connectivity, providing valuable information for treatment planning. CT scans remain a cornerstone in brain cancer diagnosis. Modern CT technology offers better image clarity and reduced radiation exposure, making it safer and more efficient for patients. CT perfusion imaging is used to evaluate blood flow in the brain, aiding in tumor assessment. PET scans combined with CT or MRI provide valuable insights into brain cancer metabolism. They help differentiate between benign and malignant tumors, detect recurrence, and monitor treatment response. Advancements in PET technology has improved image quality and accuracy. SRS combines high-resolution imaging with precise radiation therapy delivery. It is used to treat brain tumors non-invasively, sparing healthy tissue. Advanced SRS systems, such as Gamma Knife and CyberKnife, enhance treatment precision and patient comfort. Functional imaging techniques like MR spectroscopy and perfusion imaging offer insights into tumor biology and vascularity. These technologies assist in differentiating tumor types and assessing treatment response.

Advanced imaging technologies enable earlier and more accurate diagnosis of brain tumors. This not only improves survival rates but also reduces the complexity of treatment. Detailed imaging data helps healthcare providers tailor treatment plans to each patient's unique needs. This precision medicine approach enhances treatment efficacy and minimizes side effects. The demand for more advanced imaging tools has fueled research and development efforts in the medical imaging industry. Companies are continuously innovating to improve imaging quality, reduce scan times, and enhance patient comfort. Imaging technologies are not limited to initial diagnosis; they also play a crucial role in monitoring treatment response and detecting recurrences. This ongoing need for imaging services sustains the growth of the diagnostics market. Advancements in imaging technologies are becoming more accessible worldwide, including in low-resource settings. This broader access contributes to market growth as it expands the reach of brain cancer diagnostics.


MIR Segment1

Molecular Diagnostics and Biomarkers

In the ongoing battle against brain cancer, the emergence of molecular diagnostics and the discovery of biomarkers have brought about a transformative shift in the landscape of brain cancer diagnostics. These cutting-edge technologies are playing a pivotal role in early detection, accurate classification, and personalized treatment strategies for brain cancer patients.

Molecular diagnostics can differentiate between various subtypes of brain tumors, such as glioblastoma, astrocytoma, or oligodendroglioma. This distinction is vital for determining the most appropriate treatment strategy. By analyzing biomarkers, healthcare providers can tailor treatments to the unique genetic and molecular profile of a patient's tumor. This approach maximizes treatment efficacy while minimizing side effects. Biomarkers provide valuable information about the aggressiveness of the tumor and the patient's likely prognosis. This information helps guide clinical decision-making. Molecular diagnostics and biomarkers enable continuous monitoring of treatment response. Changes in the molecular profile of a tumor can indicate whether a therapy is effective or if adjustments are needed.

The advent of molecular diagnostics and biomarkers has ushered in the era of precision medicine for brain cancer. This approach maximizes treatment effectiveness while minimizing unnecessary interventions, making it an attractive option for both patients and healthcare providers. Biomarkers can facilitate the early detection of brain cancer. Some biomarkers can be detected in bodily fluids, such as blood or cerebrospinal fluid, allowing for non-invasive and potentially routine screening. Personalized treatment plans based on molecular profiling and biomarker analysis are associated with improved patient outcomes. This success is driving the adoption of these technologies in clinical practice. Molecular diagnostics and biomarkers play a pivotal role in brain cancer research and drug development. They help identify potential therapeutic targets and assess the effectiveness of experimental treatments. By tailoring treatments to individual patients, molecular diagnostics and biomarkers can help reduce healthcare costs associated with ineffective or unnecessary therapies. Patients are increasingly seeking personalized treatment options, and the availability of molecular diagnostics and biomarkers empowers them to be more engaged in their healthcare decisions. As the utility and relevance of these technologies become more evident, the global brain cancer diagnostics market is expanding. Companies specializing in molecular diagnostics and biomarker development are experiencing significant growth.

Awareness and Early Detection Campaigns

The global fight against brain cancer has intensified in recent years, thanks in large part to concerted efforts to raise awareness and promote early detection. These campaigns are not only crucial for improving patient outcomes but also have a significant impact on the growth of the global brain cancer diagnostics market.

Brain cancer is a complex and life-threatening condition that requires early intervention for the best possible outcomes. Awareness campaigns play a vital role in educating the public about the signs and symptoms of brain cancer, emphasizing the importance of early diagnosis and encouraging individuals to seek medical attention promptly.

These campaigns disseminate information about brain cancer, its risk factors, and the importance of early detection. They often target both the general public and healthcare professionals. Raising awareness about the early warning signs of brain cancer, such as persistent headaches, seizures, vision changes, and cognitive impairments, can lead to earlier medical consultations. These campaigns may promote the availability of screening and diagnostic services, providing individuals with convenient access to brain cancer diagnostics. Brain cancer advocacy groups and organizations play a significant role in advancing awareness and early detection efforts. They collaborate with healthcare providers, policymakers, and the public to drive change. Campaigns often highlight support networks and resources found at to individuals diagnosed with brain cancer, offering emotional and practical assistance.

Awareness campaigns prompt individuals to seek medical attention if they experience symptoms associated with brain cancer. As a result, there is a higher demand for diagnostic services, including imaging and biomarker testing. Early detection campaigns lead to earlier diagnoses, which is crucial for effective treatment planning. This emphasis on early intervention can lead to more favorable outcomes for patients. The growing awareness of brain cancer and the need for early detection drives investments in research and development of new diagnostic technologies, including innovative imaging techniques and biomarkers. Awareness campaigns often highlight the need for improved healthcare infrastructure, including diagnostic facilities and specialized expertise, which can lead to investments and expansions in the healthcare sector. Campaigns and initiatives with a global scope are instrumental in increasing awareness and access to brain cancer diagnostics, even in regions with historically limited resources. Increased public awareness can lead to greater funding and philanthropic support for brain cancer research and diagnostic initiatives.

Key Market Challenges

Complexity of Brain Cancer

Brain cancer is a complex and heterogeneous disease. There are various types of brain tumors, each with distinct characteristics and behaviors. This complexity makes accurate diagnosis and classification challenging, as one-size-fits-all approaches are often inadequate. Addressing this challenge requires advanced diagnostic techniques and a deeper understanding of tumor biology.


MIR Regional

Limited Biomarkers

While biomarkers are valuable tools in diagnosing and managing cancer, the availability of specific and reliable biomarkers for brain cancer is limited compared to other types of cancer. Identifying biomarkers unique to brain cancer is crucial for early detection and treatment planning. Researchers are actively working to discover and validate new biomarkers.

High Diagnostic Costs

Advanced brain cancer diagnostic technologies, such as magnetic resonance imaging (MRI) and positron emission tomography (PET) scans, can be costly. These expenses can place a significant burden on healthcare systems and patients, limiting access to timely and accurate diagnostics. Efforts to reduce costs and improve affordability are essential for broader accessibility.

Key Market Trends

Precision Medicine and Biomarker-Based Diagnosis

Precision medicine is becoming a cornerstone of brain cancer diagnostics. As our understanding of the genetic and molecular basis of brain tumors deepens, the use of biomarkers for diagnosis and treatment planning is gaining prominence. The identification of specific genetic alterations and biomarkers associated with brain cancer subtypes allows for tailored therapies, enhancing treatment outcomes.

Liquid Biopsies

Liquid biopsies, a non-invasive diagnostic approach that involves analyzing circulating tumor DNA (ctDNA) in bodily fluids like blood or cerebrospinal fluid, are gaining traction in brain cancer diagnostics. These tests can provide real-time insights into tumor progression, monitor treatment response, and detect tumor recurrence. Liquid biopsies are poised to revolutionize brain cancer diagnosis by offering a less invasive and more accessible alternative to traditional tissue biopsies.

Multimodal Imaging

Multimodal imaging techniques, which combine various imaging modalities such as MRI, PET, and CT scans, are on the rise. These comprehensive approaches provide a more holistic view of brain tumors, allowing for better tumor localization, characterization, and treatment planning. The fusion of imaging data with molecular and genetic information enhances diagnostic accuracy.

Segmental Insights

Diagnostic Type Insights

Based on the category of Diagnostic Type, it is anticipated that the Imaging Tests sector will maintain a significant market share during the forecast years. This can be attributed to the growing adoption of Magnetic resonance imaging (MRI). MRI is a radiological medical imaging method used to generate images of anatomical structures and physiological processes within the body. These images play a crucial role in identifying and diagnosing abnormalities within the body. The MRI segment stands out as the dominant player in this market due to its extensive use in the diagnosis of brain tumors. The increasing global incidence of brain cancer cases is expected to fuel the demand for brain tumor diagnostics in the foreseeable future. As an example, according to the Canadian Cancer Society's May 2022 update, it was projected that in 2022, 3,200 Canadians would receive diagnoses of brain and spinal cord cancer, with 1,850 cases among men and 1,350 among women.

Additionally, the growing adoption of MRI systems can be attributed to the establishment of new facilities in various countries worldwide. For instance, in November 2021, a state-of-the-art MRI facility was inaugurated at the National Brain Research Centre (NBRC) in Manesar, Haryana, India. The NBRC is India's premier institute dedicated to neuroscience research and education, and it installed a Siemens PRISMA 3T MRI Scanner at this facility.

Furthermore, in February 2023, Case Western Reserve University received a USD 3 million grant to advance innovative MRI technology and software for the diagnosis of brain tumors. This development is expected to enable personalized treatment planning, ultimately leading to improved outcomes for patients.

Tumor Type Insights

Based on Tumor Type, Glioblastoma, a highly aggressive and malignant form of brain cancer, is poised to exert a dominant influence on the Global Brain Cancer Diagnostics Market in 2022. Several key factors contribute to this prominence. Firstly, glioblastoma represents a substantial portion of all brain cancer cases, making it a focal point for diagnostic advancements and research. Additionally, the complex nature of glioblastoma necessitates advanced diagnostic tools and technologies, driving innovation within the market. Furthermore, the rising global incidence of glioblastoma cases underscores the critical need for accurate and early diagnosis, which in turn fuels the demand for brain cancer diagnostics. As healthcare providers and researchers continue to focus on enhancing detection methods and treatment options for glioblastoma, its dominant position in the Global Brain Cancer Diagnostics Market is expected to persist and even grow in the coming years.

Regional Insights

In 2022, North America is poised for substantial growth in the market. Specifically, the North American brain tumor diagnostics market is expected to exhibit significant expansion during the forecast period, with the United States taking the lead. This leadership position can be attributed to the well-developed healthcare industry in the region and the increasing awareness among the population about advanced diagnostic technologies. For instance, data from the American Brain Tumor Association reveals that in 2021, over 84,000 individuals received primary brain tumor diagnoses, resulting in approximately 18,000 deaths due to primary malignant brain tumors. Moreover, the same source indicates that more than 28,000 children in the United States were diagnosed with brain tumors in 2021. The growing incidence of brain tumors is anticipated to be a driving force behind the region's market growth.

Furthermore, the introduction and deployment of state-of-the-art diagnostic devices in the country by key market players are expected to further boost market growth in the region. For example, in December 2021, ADM Diagnostics Inc. obtained FDA clearance for CorInsights MRI, a tool that provides quantitative data on brain tissue volume, catering to radiologists, neurologists, and clinical researchers. Such product launches are playing a pivotal role in propelling market expansion within the region.

Recent Developments

  • In October 2022, Royal Philips unveiled twoinnovative advancements in MR-only workflows aimed at enhancing the imaging andsimulation processes for head and neck cancer radiotherapy. The companyintroduced its MRCAT Head and Neck radiotherapy application, powered byartificial intelligence (AI), which has received FDA 510(k) clearance and isnow available for commercial use in the United States. This application enablesthe exclusive or primary utilization of MR imaging for radiotherapy planning,benefiting patients with soft tissue tumors in the head and neck, as well asthose with conditions in the brain, pelvis, and prostate.
  • In September 2022, GE Healthcare secured FDA 510(k)clearance for its groundbreaking AIR Recon DL technology, designed for 3D andPROPELLER imaging sequences. By extending the capabilities of AIR Recon DL toencompass 3D and PROPELLER imaging, GE Healthcare has effectively addressedprevious limitations and elevated image quality and patient experience acrossvarious examination types, with a particular focus on enhancing brain imagingprocedures.

Key Market Players

  • GE Healthcare Inc
  • KoninklijkePhilips NV
  • SiemensHealthineers AG
  • FujifilmCorp
  • Hitachi,Ltd.
  • HologicInc
  • NantOmicsLLC
  • ThermoFisher Scientific Inc

 By Diagnostic Type

By Tumor Type

By End User

By Region

  • Imaging Test
  • Lumbar Puncture
  • Biopsy
  • Molecular Testing
  • Others
  • Metastatic
  • Meningioma
  • Glioblastoma
  • Pituitary Endoma
  • Others
  • Hospitals
  • Diagnostics Centers
  • Others
  • North America
  • Europe
  • Asia-Pacific
  • South America
  • Middle East & Africa

Table of Content

To get a detailed Table of content/ Table of Figures/ Methodology Please contact our sales person at ( chris@marketinsightsresearch.com )
To get a detailed Table of content/ Table of Figures/ Methodology Please contact our sales person at ( chris@marketinsightsresearch.com )