Precision Immuno-Oncology Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Cancer type (Lung cancer, Breast cancer, Prostate cancer, Melanoma, and others), By Treatment type (Checkpoint Inhibitors, Car T cell Therapy, Cancer Vaccines, and others), By Biomarker (PD-L1, BRCA, KRAS, EGFR, and others), By End-user (Hospital & Clinics, Research Institutes,
Published Date: November - 2024 | Publisher: MIR | No of Pages: 320 | Industry: Healthcare | Format: Report available in PDF / Excel Format
View Details Buy Now 2890 Download Sample Ask for Discount Request CustomizationPrecision Immuno-Oncology Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Cancer type (Lung cancer, Breast cancer, Prostate cancer, Melanoma, and others), By Treatment type (Checkpoint Inhibitors, Car T cell Therapy, Cancer Vaccines, and others), By Biomarker (PD-L1, BRCA, KRAS, EGFR, and others), By End-user (Hospital & Clinics, Research Institutes,
| Forecast Period | 2024-2028 |
| Market Size (2022) | 51.20 billion |
| CAGR (2023-2028) | 9.90% |
| Fastest Growing Segment | Checkpoint Inhibitors Segment |
| Largest Market | North America |
Market Overview
Global Precision Immuno-Oncology Market has valued at USD 51.20 billion in 2022 and is anticipated to witness an impressive growth in the forecast period with a CAGR of 9.90% through 2028. Precision Immuno-Oncology refers to a specialized approach in cancer treatment that combines the principles of precision medicine with immunotherapy to provide highly targeted and personalized therapies for cancer patients. It involves tailoring treatment strategies based on the unique characteristics of an individual's cancer, including the genetic and molecular features of the tumor and the patient's immune system. Precision Immuno-Oncology often involves the use of combination therapies. This approach combines immunotherapy with targeted therapies, chemotherapy, radiation therapy, or other immune-modulating agents to enhance treatment efficacy and overcome resistance mechanisms. The global increase in cancer incidence, including various types of solid tumors and hematological malignancies, drives the demand for effective and precise oncology treatments like immuno-oncology.
The development of innovative immunotherapy approaches, such as immune checkpoint inhibitors, CAR-T cell therapy, and personalized vaccines, has significantly driven the precision immuno-oncology market. These therapies harness the immune system to target and eliminate cancer cells. The identification of specific biomarkers, such as PD-L1 expression levels, tumor mutational burden (TMB), and genetic mutations, has revolutionized cancer treatment. Biomarker testing helps in patient stratification and personalized treatment plans. Advancements in genomics and molecular profiling technologies have allowed for a deeper understanding of the genetic and molecular characteristics of tumors. This knowledge informs treatment decisions and supports the development of targeted therapies. Patients are becoming more informed about cancer treatment options, including immunotherapy, through advocacy groups, online resources, and healthcare providers. This increased awareness can lead to greater patient demand for precision immuno-oncology.
Key Market Drivers
Advancements in Immunotherapy
Immune checkpoint inhibitors (ICIs) have been a game-changer in cancer treatment. Drugs like pembrolizumab, nivolumab, and atezolizumab target proteins like PD-1 and PD-L1, allowing the immune system to recognize and attack cancer cells. They have shown remarkable success in various cancer types, including melanoma, lung cancer, and bladder cancer. Chimeric Antigen Receptor T-cell (CAR-T) therapy involves engineering a patient's T cells to express a receptor that targets cancer cells. CAR-T therapies like Kymriah and Yescarta have been approved for certain hematological malignancies and are being explored for other cancer types. Personalized cancer vaccines, like mRNA-based vaccines, are designed to stimulate the patient's immune system to target specific tumor antigens. These vaccines are tailored to the individual patient's genetic profile and tumor characteristics. Tumor-Infiltrating Lymphocytes (TILs) therapy involves extracting T cells from a patient's tumor, expanding them in the lab, and then reinfusing them back into the patient. This approach has shown promise in treating solid tumors. Advances in biomarker identification, such as PD-L1 expression levels and microsatellite instability (MSI), enable oncologists to select patients who are more likely to respond to immunotherapy. This precision medicine approach optimizes treatment outcomes. Researchers are exploring combination therapies that incorporate immunotherapy with other treatments like targeted therapy, radiation therapy, and chemotherapy. Combinations aim to enhance efficacy while minimizing resistance.
Natural Killer (NK) cell therapies are emerging as a potential alternative to CAR-T cell therapy. NK cells can target cancer cells without the need for genetic modification, making them a versatile and promising immunotherapy approach. Ongoing research has led to a better understanding of immune-related adverse events (irAEs) associated with immunotherapy. Strategies for managing and reducing irAEs have improved patient safety. Liquid biopsies, which analyze circulating tumor DNA (ctDNA) and other biomarkers from a blood sample, allow for non-invasive monitoring of treatment response and the early detection of resistance. AI-driven algorithms are being used to analyze large datasets, identify novel biomarkers, predict patient responses to treatment, and optimize treatment plans, contributing to the precision of immunotherapy. Clinical trials in immuno-oncology have evolved to incorporate biomarker-driven patient selection, adaptive trial designs, and real-world evidence, speeding up the development of new therapies. Neoantigens, unique to individual tumors, are being explored as targets for immunotherapy. Neoantigen vaccines and adoptive cell therapies are being developed to harness the immune system's ability to recognize these specific markers. This factor will help in the development of the Global Precision Immuno-Oncology Market.
Increasing Biomarker Discovery
Biomarkers help identify specific genetic, molecular, or protein characteristics of a patient's tumor. This information guides oncologists in selecting the most appropriate precision immuno-oncology therapy. Personalized treatment plans based on biomarkers can lead to more effective outcomes and better patient responses. Biomarker-driven therapies, such as immune checkpoint inhibitors and targeted therapies, have demonstrated higher response rates in patients whose tumors carry specific biomarkers. This increased efficacy encourages both healthcare providers and patients to seek precision immuno-oncology options. Biomarker-driven treatments are often associated with fewer side effects compared to traditional chemotherapy. This factor can improve patient quality of life and make precision immuno-oncology treatments more appealing. Biomarkers enable the design of clinical trials that target specific patient populations, increasing the likelihood of detecting treatment effects and expediting drug development. This attracts pharmaceutical companies and researchers to invest in precision immuno-oncology research.
By tailoring treatments based on biomarkers, healthcare systems can potentially reduce the costs associated with ineffective therapies and the management of treatment-related adverse events. This cost-effectiveness drives the adoption of precision immuno-oncology. Regulatory agencies, such as the FDA, often grant expedited approvals for therapies that demonstrate strong efficacy and safety profiles in biomarker-defined patient populations. This encourages pharmaceutical companies to develop and seek approval for precision immuno-oncology drugs. Patient advocacy groups and informed patients are increasingly advocating for biomarker testing and personalized treatment options. Patients are more likely to seek out healthcare providers who offer precision immuno-oncology and biomarker-driven therapies. Biomarkers can identify patients who are unlikely to benefit from certain treatments. This information helps avoid overtreatment, reducing the physical and emotional burden on patients. Liquid biopsies and other biomarker-based tests allow for the early detection of cancer recurrence or treatment resistance. Regular monitoring using biomarkers can lead to timely treatment adjustments. Advances in genomics, proteomics, and molecular biology have expanded our understanding of cancer biology and the role of biomarkers. This knowledge has spurred the development of new biomarker-driven therapies. This factor will pace up the demand of the Global Precision Immuno-Oncology Market.
Rising Patient Awareness
Patients who are aware of precision immuno-oncology and its benefits are more likely to seek out information about these advanced treatments. They can make informed decisions about their treatment options, including requesting biomarker testing and personalized therapies. Informed patients often become advocates for their own health. They may actively engage with healthcare providers to explore precision immuno-oncology options and participate in shared decision-making regarding their treatment plans. Patients have access to a wealth of health information through the internet, patient advocacy organizations, and social media. This access allows them to educate themselves about the latest advancements in cancer treatment, including precision immuno-oncology. Patient awareness can lead to increased demand for biomarker testing, such as PD-L1 expression testing or genomic profiling. Patients who understand the importance of these tests may request them to determine their eligibility for specific treatments. Informed patients may actively seek out clinical trial opportunities, especially those involving precision immuno-oncology. Their participation in trials can accelerate the development of new therapies and expand treatment options.
Patients who are aware of precision immuno-oncology may prioritize treatment options that offer better efficacy with fewer side effects. This consideration can lead to a preference for precision therapies over traditional treatments like chemotherapy. Informed patients may seek second opinions from oncologists or specialized cancer centers to explore the full range of precision immuno-oncology options found at to them. Online and in-person patient support communities and advocacy groups provide a platform for patients to share their experiences and knowledge about precision immuno-oncology. These communities can further raise awareness and empower patients to advocate for their care. Patients who are informed about precision immuno-oncology may feel more empowered to actively engage in their treatment decisions, ask questions, and discuss treatment options with their healthcare providers. Healthcare providers and advocacy organizations are investing in patient education materials and initiatives to ensure that patients have access to accurate and up-to-date information about precision immuno-oncology. Increased awareness of precision immuno-oncology can help reduce the stigma associated with cancer and its treatment. This can encourage more patients to seek timely medical care and explore advanced treatment options. This factor will accelerate the demand of the Global Precision Immuno-Oncology Market.
Key Market Challenges
Tumor Heterogeneity
Tumor heterogeneity refers to the presence of diverse cell populations within a single tumor. These populations may have distinct molecular profiles, genetic mutations, and immune characteristics. This diversity makes it challenging to identify a single, effective targeted therapy or immunotherapy that can address all aspects of the tumor. Heterogeneous tumors can develop resistance to therapies. While a treatment may initially target and eliminate some tumor cell populations, it may not be effective against others. This can lead to partial responses, disease recurrence, or the emergence of treatment-resistant clones within the tumor. Tumor heterogeneity can result in variations in biomarker expression within the same tumor. For example, the level of PD-L1 expression or the presence of specific genetic mutations may vary across different regions of the tumor. This complicates the selection of patients for precision immuno-oncology treatments based on biomarker testing. Identifying the most therapeutically relevant target within a heterogeneous tumor can be challenging. Some subpopulations of cells may carry driver mutations or immune evasion mechanisms that are more critical for treatment decisions than others.
Resistance Mechanisms
Tumors can adapt and develop resistance to immunotherapy and targeted therapies over time. This acquired resistance can lead to treatment failure and disease progression, reducing the long-term benefits of these therapies. Resistance mechanisms can vary among different tumor subpopulations, leading to heterogeneous responses within the same tumor. This heterogeneity complicates treatment decisions and may require combination therapies or tailored approaches. Tumors can acquire new mutations that render them resistant to therapy. These mutations may affect the target of the therapy or involve alternative signaling pathways, making it challenging to predict and overcome resistance. Tumors can create an immunosuppressive microenvironment that inhibits the immune system's ability to attack cancer cells. This microenvironment may involve the recruitment of regulatory T cells, myeloid-derived suppressor cells, and the upregulation of immune checkpoint proteins like PD-L1. Some tumors may downregulate or lose expression of the target antigen or protein that the therapy is designed to target. This can render the therapy ineffective, as there is no longer a specific target for the treatment. Tumors can alter the way they present antigens to immune cells, making it difficult for the immune system to recognize and attack cancer cells effectively. This can lead to immune evasion and resistance. Changes in the tumor microenvironment, including increased fibrosis, hypoxia, and nutrient deprivation, can create a hostile environment for immune cells, hindering their ability to infiltrate and attack the tumor. Some tumors may upregulate secondary immune checkpoints in response to treatment with immune checkpoint inhibitors, providing alternative inhibitory signals to immune cells.
Key Market Trends
Patient-Centric Approaches
Patient-centric care in precision immuno-oncology emphasizes personalized treatment plans tailored to the individual patient's unique characteristics. This includes considering the patient's biomarker profile, genomic data, and treatment preferences. Healthcare providers are increasingly engaging patients in shared decision-making. Patients are informed about their treatment options, including the benefits and potential risks, and are encouraged to actively participate in choosing the most suitable therapy. Providing patients with accessible and understandable information about their disease, treatment options, and potential side effects is a crucial aspect of patient-centric care. Education empowers patients to make informed choices and adhere to treatment plans. Improving patients' quality of life is a central goal. Precision immuno-oncology treatments are designed not only to extend survival but also to enhance patients' well-being and maintain or improve their functional status. Patient-centric approaches prioritize the proactive management of treatment-related side effects. Oncology teams work closely with patients to monitor and address side effects, ensuring that treatment is as tolerable as possible.
Segmental Insights
Treatment Type Insights
In 2022, the Global Precision Immuno-Oncology Market largest share was held by immune checkpoint inhibitors segment and is predicted to continue expanding over the coming years.
Cancer Type Insights
In 2022, the Global Precision Immuno-Oncology Market largest share was held by lung cancer segment and is predicted to continue expanding over the coming years.
Biomarker Insights
In 2022, the Global Precision Immuno-Oncology Market largest share was held by PD-L1 segment and is predicted to continue expanding over the coming years.
End-User Insights
In 2022, the Global Precision Immuno-Oncology Market largest share was held by
Regional Insights
The North America region dominates the Global Precision Immuno-Oncology Market in 2022.
Recent Developments
- In August 2022, Ipsen andMarengo Therapeutics, Inc. have joined forces in a strategic partnership aimedat progressing two preclinical candidates generated through Marengo's STARplatform into clinical trials. This collaboration will harness Marengo'sexclusive research and development capabilities, focusing on a novel T cell activationmechanism, while leveraging Ipsen's worldwide presence in the field of oncologyfor the clinical development and eventual commercialization of thesecandidates. Marengo's Selective T CellActivation Repertoire (STAR) platform comprises a library of multi-specificfusion proteins that target distinct TCR Vβ variants, combined with variousco-stimulatory elements to create potent T cell activators. What sets this platformapart is its ability to precisely modulate the T cell response within specificT cell subsets, resulting in the generation of natural, highly effective Tcells capable of eliminating solid tumor cells.
- In April 2021, NanoViewBiosciences has entered a partnership with Beth Israel Deaconess Medical Centreto conduct research on biomarkers transported by exosomes in cancer patientsreceiving immune checkpoint inhibitor therapy (ICIT). Under the "ExoPDL-1to Predict Immunotherapy Response in Cancer" (EPIC) study, the teamutilized NanoView's ExoView platform, based in Boston, to analyse PD-L1 andadditional biomarkers present in exosomes found in plasma samples fromindividuals undergoing ICIT treatment.
Key Market Players
- Adaptimmune Therapeutics Plc
- Agenus Inc.
- Amgen Inc
- AstraZeneca plc
- Bristol Myers SquibbCompany
- Celgene Corporation
- Eli Lilly and Company
- F. Hoffmann-La Roche Ltd.
- Gilead Sciences, Inc
- GlaxoSmithKline Plc
| By Cancer Type | By Treatment Type | By Biomarker | By End-User | By Region | By Region |
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