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1891243

免疫檢查點抑制劑市場-產業趨勢及全球預測(至2030年)-依關鍵免疫檢查點標靶、標靶適應症、作用機轉、治療方式、治療方法及主要地區劃分

Immune Checkpoint Inhibitors Market: Industry Trends and Global Forecasts, till 2030 - Distribution by Key Immune Checkpoint Targets, Target Indications, Mechanism of Action, Therapeutic Modalities Used, Therapy and Key Geographical Regions
出版日期: | 出版商: Roots Analysis | 英文 318 Pages | 商品交期: 最快1-2個工作天內

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免疫檢查點抑制劑市場概況

預計2025年,免疫檢查點抑制劑市場規模將達620億美元,到2035年將成長至2,460億美元,預測期內複合年增長率(CAGR)為14.7%。

市場規模和機會分析基於以下參數進行細分:

免疫檢查點抑制劑市場

市場規模和機會分析基於以下參數進行細分:

免疫檢查點蛋白類型

  • PD-1
  • PD-L1
  • CTLA-4
  • 其他

標靶適應症

  • 肺癌
  • 乳癌
  • 膀胱癌
  • 子宮頸癌
  • 大腸直腸癌
  • 黑色素瘤
  • 霍奇金淋巴瘤
  • 其他

治療類型

  • 抗體片段
  • 單株抗體
  • 小分子分子
  • 其他療法

給藥途徑

  • 靜脈注射
  • 皮下注射
  • 細胞內注射
  • 其他

地理區域

  • 北美
  • 歐洲
  • 亞太地區
  • 中東和非洲
  • 拉丁美洲

免疫檢查點抑制劑市場 - 成長與趨勢

癌症是全球主要的死亡原因之一,光是2019年美國就有60萬人死於癌症。世界衛生組織(WHO)預測,未來20年全球新增癌症病例將增加70%。化療、手術和放射療法等傳統療法仍然是公認的標準治療方案。然而,它們的療效非常有限,尤其是在治療晚期癌症方面。此外,化療和放療的非特異性和高毒性已被證實會顯著影響患者的生活品質。

目前,市面上已有多種標靶癌症治療藥物,還有更多藥物正在研發中。其中,免疫檢查點療法展現出巨大的潛力,它是一種有效且強效的治療選擇,能夠抑制腫瘤細胞逃避免疫監視。 2011年,百時美施貴寶公司的抗CTLA-4單株抗體Yervoy®(伊匹木單抗)成為首個獲得FDA核准用於治療轉移性黑色素瘤的免疫檢查點抑制劑。包括伊匹木單抗在內的早期免疫檢查點抑制劑,針對PD-1/PD-L1和CTLA-4,已顯示出顯著延長晚期癌症患者存活期的潛力。儘管PD-1/PD-L1免疫檢查點抑制劑療效顯著,但在部分患者群體中仍觀察到明顯的抗藥性,這阻礙了這個相對較新的治療類別的療效。

多年來,免疫檢查點調節的研究取得了顯著進展,發現了多種抑制性受體(LAG-3、TIM-3、TIGIT、VISTA、B7-H3)和刺激性受體(OX40、ICOS、GITR、4-1BB、CD40),這些受體目前正被用於開發下一代免疫檢查點靶向療法。此外,涉及免疫檢查點阻斷和共刺激的聯合療法的臨床研究,包括新發現的檢查點和已知的免疫檢查點抑制劑,已證實其具有增強療效的潛力。重要的是,這些分子也展現出調節免疫耐受性以及預防或治療自體免疫疾病的能力。因此,在令人鼓舞的臨床結果和後期療法範圍不斷擴大的支持下,免疫檢查點抑制劑和刺激劑市場預計將在預測期內實現顯著增長。

免疫檢查點抑制劑市場 - 主要發現

本報告深入分析了全球免疫檢查點抑制劑市場的現狀,並指出了該行業潛在的成長機會。報告的主要發現包括:

  • 臨床研究的成功很大程度上取決於其終點和結果指標。這些指標應清晰、可靠、易於測量、靈敏且具有臨床意義。
  • 自2000年以來,全球已註冊超過3600項旨在評估標靶PD-1/PD-L1的免疫檢查點抑制劑的臨床試驗。
  • 目前,已有超過450篇科學論文發表了已完成和正在進行的臨床試驗的結果。 這些出版品大多發表在影響因子介於 1 到 20 之間的同儕審查期刊上。
  • 本報告詳細總結了 85 篇以上臨床研究論文的關鍵發現,這些論文介紹並討論了已獲批准和正在研發的 PD-1/PD-L1 標靶藥物的結果。
免疫檢查點抑制劑市場-IMG1
  • 本報告涵蓋的 I 期臨床試驗涉及多種旨在阻斷 PD-1 信號通路以治療包括轉移性癌症在內的各種腫瘤的新型分子實體。
  • II 期臨床試驗主要關注療法的安全性和有效性。這些試驗通常針對特定適應症進行,並可能探索藥物或療法的合併應用。
  • III期臨床研究試驗是複雜的多中心研究,患者來自世界各地,並根據既定的選擇標準進行篩選。了解副作用特徵是主要目標之一。
免疫檢查點抑制劑市場-IMG2
  • 研究設計至關重要,它不僅優化和簡化流程,還有助於確定指導研究的關鍵目標(例如,優效性、非劣效性、等效性)。
  • 現代臨床研究正在評估多種新型PD-1/PD-L1抑制劑,許多已核准的產品也正在與其他產品聯合使用進行研究。
  • 由於這些療法具有標靶性,PD-L1表現被認為是設計免疫檢查點抑制劑臨床試驗的重要標準。
  • 許多臨床試驗旨在客觀地確定一種新的治療藥物或合併療法是否具有足夠的生物活性,值得進一步研究。
  • 後期臨床試驗的重點通常在於評估不同患者族群長期治療相關的療效和毒性。
  • 雖然已有多種PD-1/PD-L1標靶藥物上市,但仍有多種新的生物製劑候選藥物正在評估中,預計在不久的將來上市。

免疫檢查點抑制劑市場代表性公司

  • 百時美施貴寶
  • 葛蘭素史克
  • Incyte
  • 諾華
  • Trillium Therapeutics

免疫檢查點抑制劑市場概覽

  • 市場規模及機會分析:本報告對全球免疫檢查點抑制劑市場進行了詳細分析,重點關注以下關鍵市場細分:[A] 主要免疫檢查點靶點,[B] 標靶適應症,[C] 作用機制,[D] 治療方式,[H] 治療類型,[I] 給藥途徑,以及 [J] 主要地理區域。
  • 市場概況:對已上市和在研分子進行全面評估,考慮以下各項參數:[A] 先導候選藥物的研發階段,[B] 靶向免疫檢查點,[C] 作用機制,[D] 治療類型,[E] 給藥途徑,[F] 靶向疾病適應症,[G] 靶向治療領域,以及 [H] 治療類型。
  • 公司簡介:詳細介紹新一代免疫檢查點調節劑的公司概況。報告主要關注:[A] 公司概述,[B] 財務資訊(如有),[C] 產品組合,以及 [E] 近期發展和未來展望。
  • 資助分析:對超過 490 項授予從事下一代免疫檢查點療法相關研究機構的資助項目進行詳細分析,分析參數包括:[A] 資助年份,[B] 資助金額,[C] 資助管理機構,[D] 資助機構,[E] 支持期限,[F] 資助申請類型,[G] 資助目標,[H] 資助機制,[K] 資助機構重點領域,[L] 計畫負責人,[M] 受資助機構類型。
  • 夥伴關係與合作:對該領域利害關係人之間達成的各種合作與夥伴關係進行全面分析。分析參數包括:[A] 合作年份,[B] 合作類型,以及 [C] 地理活動範圍。
  • 標靶競爭分析:對生物標靶進行詳細分析,考慮以下因素:基於特定標靶的先導化合物數量、[A]候選療法的研發階段、[B]資助數量以及[C]發表論文數量。採用五維蜘蛛網分析法,重點在於最常見的免疫檢查點標靶。
  • 大型製藥公司:對主要製藥公司進行詳細分析。基於以下參數:[A]在研療法數量、[B]標靶疾病適應症、[C]合作活動以及[D]標靶組合。

目錄

第一章:前言

第二章:摘要整理

第三章:導論

  • 章節概要
  • 癌症免疫療法簡介
  • 癌症免疫療法基礎
  • 免疫檢查點調節劑
  • 第一代免疫檢查點調節劑
  • 新一代免疫檢查點調節劑
  • 免疫檢查點調節療法面臨的挑戰
  • 未來展望

第四章:目前市場概況:已上市及在研產品

  • 章節概要
  • 新一代免疫檢查點抑制劑免疫檢查點抑制劑和刺激劑:已上市和在研產品線
  • 下一代免疫檢查點抑制劑和刺激劑:產品線分析
  • 下一代免疫檢查點抑制劑和刺激劑:藥物研發商列表

第五章 市場概況:CD47標靶療法

  • 章節概述
  • 下一代免疫檢查點抑制劑:CD47標靶療法研發產品線
  • 下一代免疫檢查點抑制劑CD47標靶治療管線分析
  • 下一代免疫檢查點抑制劑:CD47標靶療法研發公司列表

第六章:市場概況:4-1BB標靶療法

  • 章節概述
  • 下一代免疫檢查點刺激劑:4-1BB標靶療法研發管線
  • 下一代免疫檢查點刺激劑:4-1BB標靶療法管線分析
  • 下一代免疫檢查點刺激劑:4-1BB標靶療法研發公司列表

第七章:臨床試驗分析

  • 章節概述
  • 研究範圍與方法
  • 下一代免疫檢查點抑制劑和刺激劑:臨床試驗分析

第八章:公司簡介:新一代抑制劑和刺激劑

  • 章節概述
  • 百時美施貴寶
  • 葛蘭素史克
  • Incyte
  • 諾華
  • Trillium Therapeutics

第九章:學術資助分析

  • 章節概述
  • 研究範圍與方法
  • 新一代免疫檢查點抑制劑和刺激劑:美國國立衛生研究院 (NIH) 資助分析

第十章:合作關係

第十一章:目標競爭分析

第十二章:大藥廠計畫

第十三章:市場規模與機會分析

第十四章:結論

第十五章:高階主管洞察

第十六章:附錄一:表格資料

第十七章,附錄二:公司與機構列表

Product Code: RA10043

Immune Checkpoint Inhibitors Market: Overview

As per Roots Analysis, the immune checkpoint inhibitors market is estimated to be worth USD 62 billion in 2025 and reach USD 246 billion in 2035, growing at a CAGR of 14.7% during the forecast period.

The market sizing and opportunity analysis has been segmented across the following parameters:

Immune Checkpoint Inhibitors Market

The market sizing and opportunity analysis has been segmented across the following parameters:

Type of Immune Checkpoint Proteins

  • PD-1
  • PD-L1
  • CTLA-4
  • Others

Target Disease Indication

  • Lung Cancer
  • Breast Cancer
  • Bladder Cancer
  • Cervical Cancer
  • Colorectal Cancer
  • Melanoma
  • Hodgkin Lymphoma
  • Others

Type of Therapeutic Modality

  • Antibody Fragments
  • Monoclonal Antibodies
  • Small Molecules
  • Other Modalities

Route of Administration

  • Intravenous
  • Subcutaneous
  • Intracellular
  • Others

Geographical Regions

  • North America
  • Europe
  • Asia-Pacific
  • Middle East & Africa
  • Latin America

Immune Checkpoint Inhibitors Market: Growth and Trends

Cancer is recognized as a major cause of mortality globally, responsible for 0.6 million fatalities in 2019, in the US alone. The World Health Organization projects that the global incidence of new cancer cases will increase by 70% in the next 20 years. Traditional treatment methods, including chemotherapy, surgical procedures, and radiation therapy, remain the established standard of care. Nonetheless, their effectiveness is significantly constrained, particularly in the treatment of advanced-stage cancers. Further, the non-specific and extremely toxic characteristics of chemotherapy and radiation therapy are recognized to considerably affect the quality of life of individuals.

Numerous targeted cancer treatments are currently available in the market, in addition to the therapies under development. Among these, immune checkpoint therapies have demonstrated significant potential as effective and powerful treatment alternatives, capable of hindering tumor cells from escaping immune detection. In 2011, Yervoy(R) (ipilimumab), an anti-CTLA-4 monoclonal antibody from Bristol-Myers Squibb, was the first immune checkpoint inhibitor approved by the FDA for treating metastatic melanoma. Yervoy(R), together with other early immune checkpoint inhibitors (focusing on PD-1/PD-L1 and CTLA-4), demonstrated potential to significantly extend the lives of individuals with advanced tumors. Nonetheless, despite the effectiveness of PD 1 / PD-L1 immune checkpoint inhibitors, a significant level of resistance to treatment was observed in some patient groups, which hindered the therapeutic effectiveness of this relatively new category of treatments.

Throughout the years, considerable advancements have happened in immune checkpoint modulation research, uncovering various inhibitory (LAG-3, TIM-3, TIGIT, VISTA, and B7-H3) and stimulatory receptors (OX40, ICOS, GITR, 4-1BB, and CD40) that are currently being utilized for the creation of next-generation immune checkpoint-focused therapies. Additionally, clinical research on combinatorial immune checkpoint blockade and co-stimulation, which includes both newly discovered checkpoints and established immune checkpoint inhibitor therapies, has shown the ability to enhance therapeutic advantages. It is important to note that these molecules have also demonstrated the ability to regulate immune tolerance and to prevent or treat autoimmune diseases. Consequently, supported by encouraging clinical outcomes and increasing applicability of therapies under late-stage investigation, the immune checkpoint inhibitors and stimulators market is expected to experience significant growth throughout the forecast period.

Immune checkpoint Inhibitors Market: Key Insights

The report delves into the current state of global immune checkpoint inhibitors market and identifies potential growth opportunities within industry. Some key findings from the report include:

  • The success of any clinical research study is heavily dependent on its endpoints and outcome measures used, which should be well defined and reliable, readily measurable, sensitive, and clinically meaningful.
  • Since 2000, over 3,600 clinical trials focused on the evaluation of PD-1 / PD-L1 targeting immune checkpoint inhibitors have been registered across the world.
  • Presently, there are over 450 scientific articles showcasing the results of completed and ongoing clinical studies; most of these publications are featured in peer-reviewed journals having impact factors ranging from 1 to 20.
  • The report features detailed summaries of the key takeaways from 85+ clinical research publications, which showcase and discuss the results of both approved and under development PD-1 / PD-L1 targeting drugs.
Immune Checkpoint Inhibitors Market - IMG1
  • Phase I trials captured in the report feature a variety of new molecular entities designed for PD-1 signaling blockade for the treatment of various types of tumors, including metastatic cancers.
  • Phase II trials are primarily focused on how safe a treatment is and how well it works; typically, these studies are conducted for specific indications and may involve combinations of drugs / therapies.
  • Phase III of clinical research is an elaborate, multicenter study, involving patients shortlisted based on established selection criteria from across the world; understanding the side effects profile is a key objective.
Immune Checkpoint Inhibitors Market - IMG2
  • The importance of trial design is paramount; it not only serves to optimize, and economize the process, but also helps define critical objectives (such as superiority, non-inferiority, or equivalence) directing the course of research.
  • In the contemporary clinical research scenario, multiple new PD-1 / PD-L1 inhibitors are being evaluated, and several of the approved products are also being investigated in combination with other product classes.
  • Considering the target-specific nature of these therapies, the expression of PD-L1 is considered an important criterion while designing trials of immune checkpoint blockade-directed treatment options.
  • A number of trials have been designed to objectively determine whether the new therapeutic agent, or combination regimen, has sufficient biological activity in order to warrant further research.
  • The focus of late phase clinical studies is usually on assessing long term therapy related outcomes and affiliated toxicities, across different groups of patients.
  • Although multiple PD-1 / PD-L1 targeting drugs are already in the market, several new biological drug candidates are under evaluation and are likely to enter the market in the foreseen future.

Example Players in the Immune Checkpoint Inhibitors Market

  • Bristol-Myers Squibb
  • GlaxoSmithKline
  • Incyte
  • Novartis
  • Trillium Therapeutics

Immune Checkpoint Inhibitors Market: Research Coverage

  • Market Sizing and Opportunity Analysis: The report features an in-depth analysis of the global immune checkpoint inhibitors market, focusing on key market segments, including [A] key immune checkpoint targets, [B] target indication, [C] mechanism of action, [D] therapeutic modalities used, [H] type of therapy, [I] route of administration, and [J] key geographical regions
  • Market Landscape: A comprehensive evaluation of marketed / pipeline molecules, considering various parameters, such as [A] phase of development of lead candidates, [B] target immune checkpoints, [C] mechanism of action, [D] type of therapeutic modality used, [E] route of administration and [F] target disease indication, [G] target therapeutic area and [H] type of therapy.
  • Company Profiles: In-depth profiles of next generation immune checkpoint modulators, focusing on [A] company overview, [B] financial information (if available), [C] product portfolio, and [E] recent developments and an informed future outlook.
  • Grants Analysis: An in-depth analysis of more than 490 grants that have been awarded to research institutes engaged in next generation immune checkpoint therapy-related projects, based on parameters, such as [A] year of grant award, [B] amount awarded, [C] administration institute center, [D] funding institute center, [E] support period, [F] type of grant application, [G] purpose of grant award, [H] grant mechanism, [I] popular target immune checkpoints, [J] responsible study section, [K] focus area, [L] prominent program officers, and [M] type of recipient organizations.
  • Partnerships and Collaborations: A comprehensive analysis of various collaborations and partnerships that have been inked amongst stakeholders in this domain, based on [A] year of partnership, [B] type of partnership and [C] regional activity.
  • Target Competitiveness Analysis: A detailed analysis of the biological targets, taking into consideration the number of lead molecules based on a particular target, [A] phase of development of candidate therapies, [B] number of grants and [C] number of publications, a five-dimensional spider-web analysis, highlighting the most popular immune checkpoint targets.
  • Big Pharma Players: A detailed analysis of the big pharma players, based on parameters, such as [A] number of therapies under development, [B] target disease indications, [C] partnership activity, and [D] target portfolio.

Key Questions Answered in this Report

  • How many companies are currently engaged in this market?
  • Which are the leading companies in this market?
  • What factors are likely to influence the evolution of this market?
  • What is the current and future market size?
  • What is the CAGR of this market?
  • How is the current and future market opportunity likely to be distributed across key market segments?

Reasons to Buy this Report

  • The report provides a comprehensive market analysis, offering detailed revenue projections of the overall market and its specific sub-segments. This information is valuable to both established market leaders and emerging entrants.
  • Stakeholders can leverage the report to gain a deeper understanding of the competitive dynamics within the market. By analyzing the competitive landscape, businesses can make informed decisions to optimize their market positioning and develop effective go-to-market strategies.
  • The report offers stakeholders a comprehensive overview of the market, including key drivers, barriers, opportunities, and challenges. This information empowers stakeholders to stay abreast of market trends and make data-driven decisions to capitalize on growth prospects.

Additional Benefits

  • Complimentary PPT Insights Packs
  • Complimentary Excel Data Packs for all Analytical Modules in the Report
  • 15% Free Content Customization
  • Detailed Report Walkthrough Session with Research Team
  • Free Updated report if the report is 6-12 months old or older

TABLE OF CONTENTS

1. PREFACE

  • 1.1. Scope of the Report
  • 1.2. Research Methodology
  • 1.3. Chapter Outlines

2. EXECUTIVE SUMMARY

3. INTRODUCTION

  • 3.1. Chapter Overview
  • 3.2. Introduction to Cancer Immunotherapy
  • 3.3. Fundamentals of Cancer Immunotherapy
  • 3.4. Immune Checkpoint Modulators
  • 3.5. First Generation Immune Checkpoint Modulators
  • 3.6. Next Generation Immune Checkpoint Modulators
    • 3.6.1. Types of Next Generation Immune Checkpoint Modulators
  • 3.7. Challenges-related to Immune Checkpoint Modulation-based Therapy
  • 3.8. Future Perspectives

4. CURRENT MARKET LANDSCAPE: MARKETED AND DEVELOPMENT PIPELINE

  • 4.1. Chapter Overview
  • 4.2. Next Generation Immune Checkpoint Inhibitors and Stimulators: Marketed and Development Pipeline
  • 4.3. Next Generation Immune Checkpoint Inhibitors and Stimulators: Pipeline Analysis
    • 4.3.1. Analysis by Phase of Development
    • 4.3.2. Analysis by Target Immune Checkpoint
    • 4.3.3. Analysis by Mechanism of Action
    • 4.3.4. Analysis by Therapeutic Modality
    • 4.3.5. Analysis by Route of Administration
    • 4.3.6. Analysis by Target Disease Indication
    • 4.3.7. Analysis by Therapeutic Area
    • 4.3.8. Analysis by Popular Oncological Indication(s) and Popular Target Immune Checkpoint
    • 4.3.9. Analysis by Popular Non-Oncological Indication(s) and Popular Target Immune Checkpoint
    • 4.3.10. Analysis by Popular Disease Indication(s) and Popular Target Immune Checkpoint in Highest Phase of Development
  • 4.4. Next Generation Immune Checkpoint Inhibitors and Stimulators: List of Drug Developers
    • 4.4.1. Analysis by Year of Establishment
    • 4.4.2. Analysis by Company Size and Geographical Location
    • 4.4.3. Leading Developer Companies: Analysis by Number of Pipeline Therapies
    • 4.4.4. Popular Targets: Distribution by Number of Developers
    • 4.4.5 World Map Representation: Analysis by Geography

5. MARKET LANDSCAPE: THERAPIES TARGETING CD47

  • 5.1. Chapter Overview
  • 5.2. Next Generation Immune Checkpoint Inhibitors: Development Pipeline of CD47 Targeting Therapies
  • 5.3. Next Generation Immune Checkpoint Inhibitors: Pipeline Analysis of CD47 Targeting Therapies
    • 5.3.1. Analysis by Phase of Development
    • 5.3.2. Analysis by Therapeutic Modality
    • 5.3.3. Analysis by Route of Administration
    • 5.3.4. Analysis by Target Disease Indication
  • 5.4. Next Generation Immune Checkpoint Inhibitors: List of Companies Developing CD47 Targeting Therapies
    • 5.4.1. Analysis by Year of Establishment
    • 5.4.2. Analysis by Company Size and Geographical Location
    • 5.4.3. Leading Developers: Analysis by Number of Therapies
    • 5.4.4. World Map Representation: Analysis by Geography

6. MARKET LANDSCAPE: THERAPIES TARGETING 4-1BB

  • 6.1. Chapter Overview
  • 6.2. Next Generation Immune Checkpoint Stimulators: Development Pipeline of 4-1BB Targeting Therapies
  • 6.3. Next Generation Immune Checkpoint Stimulators: Pipeline Analysis of 4-1BB Targeting Therapies
    • 6.3.1. Analysis by Phase of Development
    • 6.3.2. Analysis by Therapeutic Modality
    • 6.3.3. Analysis by Route of Administration
    • 6.3.4. Analysis by Target Disease Indication
  • 6.4. Next Generation Immune Checkpoint Stimulators: List of Companies Developing 4-1BB Targeting Therapies
    • 6.4.1. Analysis by Year of Establishment
    • 6.4.2. Analysis by Company Size and Geographical Location
    • 6.4.3. Leading Developers: Analysis by Number of Therapies
    • 6.4.4. World Map Representation: Analysis by Geography

7. CLINICAL TRIAL ANALYSIS

  • 7.1. Chapter Overview
  • 7.2. Scope and Methodology
  • 7.3. Next Generation Immune Checkpoint Inhibitors and Stimulators: Clinical Trial Analysis
    • 7.3.1. Analysis by Trial Registration Year
    • 7.3.2. Analysis by Trial Phase
    • 7.3.3. Analysis by Trial Recruitment Status
    • 7.3.4. Analysis by Trial Registration Year and Number of Patients Enrolled
    • 7.3.5. Analysis by Study Design
    • 7.3.6. Analysis by Sponsor / Collaborator
    • 7.3.7. Leading Players: Analysis by Number of Registered Trials
    • 7.3.8. Word Cloud: Key Focus Areas
    • 7.3.9. Analysis by Target Immune Checkpoint
    • 7.3.10. Analysis by Target Therapeutic Area
    • 7.3.11. Popular Indications: Analysis by Number of Registered Trials
    • 7.3.12. Popular Interventions: Analysis by Number of Registered Trials
    • 7.3.13. Geographical Analysis by Number of Registered Trials
    • 7.3.14. Geographical Analysis by Number of Patients Enrolled

8. COMPANY PROFILES: NEXT GENERATION INHIBITORS AND STIMULATORS

  • 8.1. Chapter Overview
  • 8.2. Bristol-Myers Squibb
    • 8.2.1. Company Overview
    • 8.2.2. Financial Information
    • 8.2.3. Next Generation Immune Checkpoint Therapeutics Portfolio
    • 8.2.4. Recent Developments and Future Outlook
  • 8.3. GlaxoSmithKline
    • 8.3.1. Company Overview
    • 8.3.2. Financial Information
    • 8.3.3. Next Generation Immune Checkpoint Therapeutics Portfolio
    • 8.3.4. Recent Developments and Future Outlook
  • 8.4. Incyte
    • 8.4.1. Company Overview
    • 8.4.2. Financial Information
    • 8.4.3. Next Generation Immune Checkpoint Therapeutics Portfolio
    • 8.4.4. Recent Developments and Future Outlook
  • 8.4. Novartis
    • 8.4.1. Company Overview
    • 8.4.2. Financial Information
    • 8.4.3. Next Generation Immune Checkpoint Therapeutics Portfolio
    • 8.4.4. Recent Developments and Future Outlook
  • 8.5. Trillium Therapeutics
    • 8.5.1. Company Overview
    • 8.5.2. Financial Information
    • 8.5.3. Next Generation Immune Checkpoint Therapeutics Portfolio
    • 8.5.4. Recent Developments and Future Outlook

9. ACADEMIC GRANTS ANALYSIS

  • 9.1. Chapter Overview
  • 9.2. Scope and Methodology
  • 9.3. Next Generation Immune Checkpoint Inhibitors and Stimulators: Analysis of Grants Awarded by the National Institutes of Health (NIH)
    • 9.3.1. Analysis by Year of Grant Award
    • 9.3.2. Analysis by Amount Awarded
    • 9.3.3. Analysis by Administering Institute Center
    • 9.3.4. Analysis by Funding Institute Center
    • 9.3.5. Analysis by Support Period
    • 9.3.6. Analysis by Funding Institute Center and Support Period
    • 9.3.7. Analysis by Type of Grant Application
    • 9.3.8. Analysis by Purpose of Grant Award
    • 9.3.9. Analysis by Grant Mechanism
    • 9.3.10. Word Cloud: Emerging Focus Areas
    • 9.3.11. Popular Target Immune Checkpoints: Analysis by Number of Grants
    • 9.3.12. Analysis of Grant Amount Awarded by Target Immune Checkpoints
    • 9.3.13. Analysis by Study Section Involved
    • 9.3.14. Popular NIH Departments: Analysis by Number of Grants
    • 9.3.15. Analysis by Types of Recipient Organizations
    • 9.3.16. Popular Recipient Organizations: Analysis by Number of Grants
    • 9.3.17. Prominent Program Officers: Analysis by Number of Grants
    • 9.3.18. Regional Analysis of Recipient Organizations

10. PARTNERSHIPS AND COLLABORATIONS

  • 10.1. Chapter Overview
  • 10.2. Partnership Models
  • 10.3. Next Generation Immune Checkpoint Inhibitors and Stimulators: List of Partnerships and Collaborations
    • 10.3.1. Analysis by Year of Partnership
    • 10.3.2. Analysis by Type of Partnership
    • 10.3.3. Analysis by Number of Partnership and Target Immune Checkpoint
    • 10.3.4. Analysis by Year of Partnership and Type of Partner
    • 10.3.5. Analysis by Type of Partnership and Type of Partner
    • 10.3.6. Most Active Players: Analysis by Number of Partnerships
  • 10.4. Regional Analysis
    • 10.4.1. Intercontinental and Intracontinental Agreements

11. TARGET COMPETITIVENESS ANALYSIS

  • 11.1. Chapter Overview
  • 11.2. Scope and Methodology
  • 11.3. Key Parameters
  • 11.4. Competitiveness Analysis: Key Targets for Next Generation Immune Checkpoint Inhibitors and Stimulators
    • 11.3.1. Four-Dimensional Bubble Analysis
    • 11.3.2 Five-Dimensional Spider Web Analysis

12. BIG PHARMA INITIATIVES

  • 12.1. Chapter Overview
  • 12.2. Big Pharma Initiatives Focused on Next Generation Immune Checkpoint
    • 12.2.1. Analysis by Number of Initiatives
    • 12.2.2. Analysis by Number of Targets
    • 12.2.3. Analysis by Product Development Strategy
    • 12.2.4. Analysis by Target Immune Checkpoint
    • 12.2.5. Grid Representation: Analysis by Product Development Strategy and Target Immune Checkpoint
    • 12.2.6. Analysis by Type of Intervention
  • 12.3. Analysis by Target Disease Indication(s)
    • 12.3.1. Heat Map: Big Pharma Initiatives Focused on Oncological Indications
    • 12.3.2. Heat Map: Big Pharma Initiatives Focused on Non-Oncological Indications

13. MARKET SIZING AND OPPORTUNITY ANALYSIS

  • 13.1. Chapter Overview
  • 13.2. Forecast Methodology and Key Assumptions
  • 13.3. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market, Till 2030
  • 13.4. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Individual Product Sales Forecasts
    • 13.4.1. DARZALEX(R) (Janssen Pharmaceuticals)
      • 13.4.1.1. Target Patient Population
      • 13.4.1.2. Sales Forecast
    • 13.4.2. SAR650984 (Sanofi)
      • 13.4.2.1. Target Patient Population
      • 13.4.2.2. Sales Forecast
    • 13.4.3. RRx-001 (EpicentRx)
      • 13.4.3.1. Target Patient Population
      • 13.4.3.2. Sales Forecast
    • 13.4.4. GSK3359609 (GlaxoSmithKline)
      • 13.4.4.1. Target Patient Population
      • 13.4.4.2. Sales Forecast
    • 13.4.5. Omburtamab (Y-mAbs Therapeutics)
      • 13.4.5.1. Target Patient Population
      • 13.4.5.2. Sales Forecast
    • 13.6.7. APXOO5M (Apogenix)
      • 13.6.7.1. Target Patient Population
      • 13.6.7.2. Sales Forecast
    • 13.7.8. BI 655064 (Boehringer Ingelheim)
    • 13.7.1. Target Patient Population
      • 13.4.7.2. Sales Forecast
    • 13.4.8. BMS-986015 (Bristol-Myers Squibb)
      • 13.4.8.1. Target Patient Population
      • 13.4.8.2. Sales Forecast
    • 13.4.9. CFZ533 (Novartis)
      • 13.4.9.1. Target Patient Population
      • 13.4.9.2. Sales Forecast
    • 13.4.10. GBR 830 (Glenmark)
      • 13.4.10.1. Target Patient Population
      • 13.4.10.2. Sales Forecast
    • 13.4.11. KHK4083 (Kyowa Kirin)
      • 13.4.11.1. Target Patient Population
      • 13.4.11.2. Sales Forecast
    • 13.12.13. LAG525 (Novartis)
      • 13.12.13.1. Target Patient Population
      • 13.12.13.2. Sales Forecast
  • 13.5. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Region
    • 13.5.1. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in US, Till 2030
    • 13.5.2. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in UK, Till 2030
    • 13.5.3. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Germany, Till 2030
    • 13.5.4. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in France, Till 2030
    • 13.5.5. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Italy Till 2030
    • 13.5.6. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Spain, Till 2030
    • 13.5.7. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Australia, Till 2030
    • 13.5.8. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Japan, Till 2030
    • 13.5.9. Next Generation Immune Checkpoint Inhibitors and Stimulators Market in India, Till 2030
  • 13.6. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Therapeutic Area
    • 13.6.1. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Oncological Indications, Till 2030
    • 13.6.2. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Non-oncological Indications, Till 2030
  • 13.7. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Target Disease Indication
    • 13.7.1. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Atopic Dermatitis, Till 2030
    • 13.7.2. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Breast Cancer, Till 2030
    • 13.7.3. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Chronic Lymphocytic Leukemia, Till 2030
    • 13.7.4. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Colorectal Cancer, Till 2030
    • 13.7.5. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Head and Neck Cancer, Till 2030
    • 13.7.6. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Lung Cancer, Till 2030
    • 13.7.7. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Lupus Nephritis, Till 2030
    • 13.7.8. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Melanoma, Till 2030
    • 13.7.9. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Multiple Myeloma, Till 2030
    • 13.7.10. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Neuroblastoma, Till 2030
    • 13.7.11. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Primary Sjogren's Syndrome, Till 2030
    • 13.7.12. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Ulcerative Colitis, Till 2030
  • 13.7. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Target Immune Checkpoint
    • 13.8.1. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for B7-H3 Targeting Therapies, Till 2030
    • 13.8.2. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD38 Targeting Therapies, Till 2030
    • 13.8.3. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD40 Targeting Therapies, Till 2030
    • 13.8.4. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD47 Targeting Therapies, Till 2030
    • 13.8.5. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for ICOS Targeting Therapies, Till 2030
    • 13.8.6. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for KIR Targeting Therapies, Till 2030
    • 13.8.7. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for LAG-3 Targeting Therapies, Till 2030
    • 13.8.8. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for OX40 Targeting Therapies, Till 2030
  • 13.9. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Mechanism of Action
    • 13.9.1. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Inhibitory Therapies, Till 2030
    • 13.9.2. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Stimulatory Therapies, Till 2030
  • 13.10. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Type of Therapeutic Modality
    • 13.10.1. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Monoclonal Antibody, Till 2030
    • 13.10.2. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Small Molecules, Till 2030
  • 13.11. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Type of Therapy
    • 13.11.1. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Monotherapy, Till 2030
    • 13.11.2. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Combination Therapy, Till 2030
    • 13.11.3. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Both, Till 2030
  • 13.12. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Route of Administration
    • 13.12.1. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Intracerebroventricular Therapies, Till 2030
    • 13.12.2. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Intravenous Therapies, Till 2030
    • 13.12.3. Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Subcutaneous Therapies, Till 2030

14. CONCLUDING REMARKS

  • 14.1. Chapter Overview
  • 14.2. Key Takeaways

15. EXECUTIVE INSIGHTS

16. APPENDIX 1: TABULATED DATA

17. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS

List of Tables

  • Table 3.1 Types of Immunotherapies and Associated Mechanisms of Action
  • Table 3.2 First Generation Immune Checkpoint Therapies
  • Table 4.1 Next Generation Immune Checkpoint Inhibitors and Stimulators: List of Target Immune Checkpoints
  • Table 4.2 Next Generation Immune Checkpoint Inhibitors and Stimulators: Marketed and Development Pipeline
  • Table 4.3 Next Generation Immune Checkpoint Inhibitors and Stimulators: List of Drug Developers
  • Table 5.1 Immune Checkpoint Inhibitors for CD47: Development Pipeline
  • Table 5.2 Immune Checkpoint Inhibitors for CD47: List of Therapy Developers
  • Table 6.1 Immune Checkpoint Stimulators for 4-1BB: Development Pipeline
  • Table 6.2 Immune Checkpoint Stimulators for 4-1BB: List of Therapy Developers
  • Table 8.1 Next Generation Immune Checkpoint Inhibitors and Stimulators: List of Companies Profiled
  • Table 8.2 Bristol- Myers Squibb: Company Snapshot
  • Table 8.3 Drug Profile: BMS-986213
  • Table 8.4 Drug Profile: BMS-986016
  • Table 8.5 Drug Profile: BMS-986258
  • Table 8.6 Drug Profile: BMS-986207
  • Table 8.7 Drug Profile: BMS-986179
  • Table 8.8 Drug Profile: BMS-663513
  • Table 8.9 Drug Profile: BMS-986178
  • Table 8.10 Drug Profile: BMS-936561
  • Table 8.11 Bristol-Myers Squibb: Future Outlook
  • Table 8.12 GlaxoSmithKline: Company Snapshot
  • Table 8.13 Drug Profile: GSK3359609
  • Table 8.14 Drug Profile: GSK2831781
  • Table 8.15 Drug Profile: GSK3174998
  • Table 8.16 Drug Profile: TSR-022
  • Table 8.17 Drug Profile: TSR-033
  • Table 8.18 Drug Profile: TSR-075
  • Table 8.19 GlaxoSmithKline: Future Outlook
  • Table 8.20 Incyte: Company Snapshot
  • Table 8.21 Drug Profile: INCB024360
  • Table 8.22 Drug Profile: INCB001158
  • Table 8.23 Drug Profile: INCAGN01876
  • Table 8.24 Drug Profile: INCAGN1876
  • Table 8.25 Drug Profile: INCAGN1949
  • Table 8.26 Drug Profile: MCLA-145
  • Table 8.27 Drug Profile: INCAGN2385
  • Table 8.28 Drug Profile: INCAGN2390
  • Table 8.29 Incyte: Future Outlook
  • Table 8.30 Novartis: Company Snapshot
  • Table 8.31 Drug Profile: CFZ533
  • Table 8.32 Drug Profile: MBG453
  • Table 8.33 Drug Profile: LAG525
  • Table 8.34 Drug Profile: GWN323
  • Table 8.35 Drug Profile: NZV930
  • Table 8.36 Novartis: Future Outlook
  • Table 8.37 Trillium Therapeutics: Company Snapshot
  • Table 8.38 Drug Profile: TTI-622-01
  • Table 8.39 Drug Profile: TTI-622-01
  • Table 8.40 Drug Profile: TTI-622
  • Table 8.41 Drug Profile: CD200 Monoclonal Antibodies
  • Table 8.42 Trillium Therapeutics: Future Outlook
  • Table 10.1 Next Generation Immune Checkpoint Inhibitors and Stimulators: List of Partnerships and Collaborations
  • Table 13.1 Next Generation Immune Checkpoint Inhibitors and Stimulators: List of Forecasted Drug Candidates
  • Table 13.2 Darzalex: Target Patient Population (USD Million)
  • Table 13.3 SAR650984: Target Patient Population (USD Million)
  • Table 13.4 RRx-001: Target Patient Population (USD Million)
  • Table 13.5 GSK3359609: Target Patient Population (USD Million)
  • Table 13.6 Enoblituzumab: Target Patient Population (USD Million)
  • Table 13.7 Omburtamab: Target Patient Population (USD Million)
  • Table 13.8 APX005M: Target Patient Population (USD Million)
  • Table 13.9 BI 655064: Target Patient Population (USD Million)
  • Table 13.10 BMS-986015: Target Patient Population (USD Million)
  • Table 13.11 CFZ533: Target Patient Population (USD Million)
  • Table 13.12 GBR 830: Target Patient Population (USD Million)
  • Table 13.13 KHK4083: Target Patient Population (USD Million)
  • Table 13.13 LAG525: Target Patient Population (USD Million)
  • Table 14.1 Next Generation Immune Checkpoint Inhibitors and Stimulators: Summary of the Competitive Insights
  • Table 15.1 IGM Biosciences: Key Highlights
  • Table 16.1 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Phase of Development
  • Table 16.2 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Target Immune Checkpoint
  • Table 16.3 Next Generation Target Immune Checkpoint Inhibitors and Stimulators: Distribution by Highest Phase of Development
  • Table 16.4 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Mechanism of Action
  • Table 16.5 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Therapeutic Modality
  • Table 16.6 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Route of Administration
  • Table 16.7 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Oncological Indications
  • Table 16.8 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Non-Oncological Indications
  • Table 16.9 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Therapeutic Area
  • Table 16.10 Next Generation Immune Checkpoint Inhibitors and Stimulators Therapy Developers: Distribution by Year of Establishment
  • Table 16.11 Next Generation Immune Checkpoint Inhibitors and Stimulators Therapy Developers: Distribution by Company Size and Location of Headquarters
  • Table 16.12 Leading Developer Companies: Distribution by Number of Pipeline Therapies
  • Table 16.13 Leading Targets: Distribution by Number of Developers
  • Table 16.14 Word Map Representation: Distribution by Geography
  • Table 16.15 Immune Checkpoint Stimulators for CD47: Distribution by Phase of Development
  • Table 16.16 Immune Checkpoint Inhibitors for CD47: Distribution by Therapeutic Modality
  • Table 16.17 Immune Checkpoint Inhibitors for CD47: Distribution by Target Disease Indication
  • Table 16.18 Immune Checkpoint Inhibitors for CD47: Distribution by Route of Administration
  • Table 16.19 Immune Checkpoint Inhibitors for CD47 Therapy Developers: Distribution by Year of Establishment
  • Table 16.20 Immune Checkpoint Inhibitors for CD47 Therapy Developers: Distribution by Company Size
  • Table 16.21 Immune Checkpoint Inhibitors for CD47 Therapy Developers: Distribution by Location
  • Table 16.22 Immune Checkpoint Inhibitors for CD47 Therapy Developers: Distribution by Location
  • Table 16.23 Leading Developers: Distribution by Number of Pipeline Therapies for CD47
  • Table 16.24 Immune Checkpoint Stimulators for 4-1BB: Distribution by Phase of Development
  • Table 16.25 Immune Checkpoint Stimulators for 4-1BB: Distribution by Therapeutic Modality
  • Table 16.26 Immune Checkpoint Stimulators for 4-1BB: Distribution by Target Disease Indication
  • Table 16.27 Immune Checkpoint Stimulators for 4-1BB: Distribution by Route of Administration
  • Table 16.28 Immune Checkpoint Stimulators for 4-1BB Therapy Developers: Distribution by Year of Establishment
  • Table 16.29 Immune Checkpoint Stimulators for 4-1BB Therapy Developers: Distribution by Location
  • Table 16.30 Leading Developers: Distribution by Number of Pipeline Therapies for 4-1BB
  • Table 16.31 Clinical Trial Analysis: Distribution by Trial Status
  • Table 16.32 Clinical Trial Analysis: Cumulative Distribution of Trials by Registration Year, Since 2010
  • Table 16.33 Clinical Trial Analysis: Distribution by Trial Phase and Number of Patient's Enrolled
  • Table 16.34 Clinical Trial Analysis: Distribution by Trial Recruitment Status
  • Table 16.35 Clinical Trial Analysis: Distribution by Trial Registration Year and Number of Patients Enrolled
  • Table 16.36 Clinical Trial Analysis: Distribution by Study Design
  • Table 16.37 Clinical Trial Analysis: Distribution by Type of Sponsor / Collaborator
  • Table 16.38 Leading Players: Distribution by Number of Registered Trials
  • Table 16.39 Clinical Trial Analysis: Distribution by Target Immune Checkpoint
  • Table 16.40 Clinical Trial Analysis: Distribution by Therapeutic Area
  • Table 16.41 Popular Indications: Distribution by Registered Trials
  • Table 16.42 Clinical Trial Analysis: Phase-Wise Distribution of Most Popular Indications
  • Table 16.43 Popular Interventions: Analysis by Number of Registered Trials
  • Table 16.44 Clinical Trial Analysis: Geographical Distribution by Trial Recruitment Status
  • Table 16.45 Clinical Trial Analysis: Geographical Distribution by Number of Patients Enrolled
  • Table 16.46 Bristol-Myers Squibb: Annual Revenues, Since 2015 (USD Billion)
  • Table 16.47 GlaxoSmithKline: Annual Revenues, Since 2015 (USD Billion)
  • Table 16.48 Incyte: Annual Revenues, Since 2015 (USD Billion)
  • Table 16.49 Novartis: Annual Revenues, Since 2015 (USD Billion)
  • Table 16.50 Grant Analysis: Distribution by Year of Grant Award, Since 2016
  • Table 16.51 Grant Analysis: Distribution by Amount Awarded (USD Million), Since 2016
  • Table 16.52 Grant Analysis: Distribution by Administering Institute Center
  • Table 16.53 Grant Analysis: Distribution by Funding Institute Center
  • Table 16.54 Grant Analysis: Distribution by Support Period
  • Table 16.55 Grant Analysis: Distribution by Type of Grant Application
  • Table 16.56 Grant Analysis: Distribution by Purpose of Grant Award
  • Table 16.57 Grant Analysis: Distribution by Grant Mechanism Popular Target Immune Checkpoints: Distribution by Number of Grants
  • Table 16.58 Grant Analysis: Distribution of Grant Amount Awarded by Target Immune Checkpoints
  • Table 16.59 Grant Analysis: Distribution by Study Section Involved
  • Table 16.60 Grant Analysis: Distribution by Types of Recipient Organizations
  • Table 16.61 Popular NIH Departments: Distribution by Number of Grants
  • Table 16.62 Prominent Program Officers: Distribution by Number of Grants
  • Table 16.63 Grant Analysis: Distribution by Recipient Organizations
  • Table 16.64 Partnerships and Collaborations: Cumulative Year-wise Trend, Since 2017
  • Table 16.65 Partnerships and Collaborations: Distribution by Type of Partnership
  • Table 16.66 Partnerships and Collaborations: Year-wise Trend by Type of Partnership, Since2017
  • Table 16.67 Partnerships and Collaborations: Distribution by Target Immune Checkpoint
  • Table 16.68 Partnerships and Collaborations: Distribution by Year and Type of Partner
  • Table 16.69 Partnerships and Collaborations: Analysis by Type of Partnership and Type of Partner
  • Table 16.70 Most Active Players: Distribution by Number of Partnerships
  • Table 16.71 Partnership and Collaborations: Regional Distribution
  • Table 16.72 Partnerships and Collaborations: Intercontinental and Intracontinental Distribution
  • Table 16.73 Big Pharma Players: Distribution by Number of Initiatives
  • Table 16.74 Big Pharma Plyers: Analysis by Number of Unique Targets
  • Table 16.75 Big Pharma Plyers: Analysis by Product Development Strategy
  • Table 16.76 Big Pharma Players: Analysis by Product Development Strategy across Target Immune Checkpoint
  • Table 16.77 Big Pharma Players: Analysis by Type of Intervention
  • Table 16.78 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.79 DARZALEX: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.80 SAR650984: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.81 RRx-001: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.82 GSK3359609: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.83 Enoblituzumab: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.84 Omburtamb: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.85 APXOO5M: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.86 BI 655064: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.87 BMS-986015: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.88 CFZ533: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.89 GBR 830: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.90 KHK4083: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.91 LAG525: Sales Forecast, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.92 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Region (USD Million)
  • Table 16.93 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in North America, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.94 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in UK, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.95 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in EU4, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.96 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Germany, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.97 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in France, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.98 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Italy, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.99 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Spain, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.100 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Australia, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.101 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Japan, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.102 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in India, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.103 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Therapeutic Area (USD Million)
  • Table 16.104 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Oncological Disorders, Till 2030 (USD Million)
  • Table 16.105 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Non-oncological Disorders, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.106 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Atopic Dermatitis, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.107 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Breast Cancer, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.108 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Chronic Lymphocytic Leukemia, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.109 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Colorectal Cancer, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.110 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Head and Neck Cancer, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.111 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Lung Cancer, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.112 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Lupus Nephritis, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.113 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Melanoma, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.114 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Multiple Myeloma, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.115 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Neuroblastoma, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.116 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Primary Sjogren's Syndrome, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.117 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Ulcerative Colitis, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.118 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Target Immune Checkpoint, 2027 and 2030 (USD Million)
  • Table 16.119 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for B7-H3 Targeting Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.120 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD38 Targeting Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.121 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD40 Targeting Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.122 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD47 Targeting Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.123 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for ICOS Targeting Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.124 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for KIR Targeting Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.125 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for LAG-3 Targeting Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.126 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for OX40 Targeting Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.127 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Mechanism of Action (USD Million)
  • Table 16.128 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Inhibitory Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.129 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Stimulatory Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.130 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Type of Therapeutic Modality, 2025 and 2030 (USD Million)
  • Table 16.131 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Monoclonal Antibody, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.132 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Small Molecules, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.133 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Type of Therapy, 2027 and 2030 (USD Million)
  • Table 16.134 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Monotherapy, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.135 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Combination Therapy, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.136 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Both, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.137 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Route of Administration, 2027 and 2020 (USD Million)
  • Table 16.138 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Intracerebroventricular Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.139 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Intravenous Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 16.140 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Subcutaneous Therapies, Till 2030: Conservative, Base and Optimistic Scenarios (USD Million)

List of Figures

  • Figure 3.1 Global Age-Standardized Incidence Rates for Cancer, 2018 (per 100,000 Individuals)
  • Figure 3.1 Mechanism of Immunotherapies
  • Figure 3.3 Immune Checkpoint Targets
  • Figure 4.1 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Phase of Development
  • Figure 4.2 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Target Immune Checkpoint
  • Figure 4.3 Next Generation Target Immune Checkpoint Inhibitors and Stimulators: Distribution by Highest Phase of Development
  • Figure 4.4 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Mechanism of Action
  • Figure 4.5 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Therapeutic Modality
  • Figure 4.6 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Route of Administration
  • Figure 4.7 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Oncological Indications
  • Figure 4.8 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Non-Oncological Indications
  • Figure 4.9 Next Generation Immune Checkpoint Inhibitors and Stimulators: Distribution by Therapeutic Area
  • Figure 4.10 Popular Oncological Indication(s): Distribution by Target Immune Checkpoints
  • Figure 4.11 Popular Non-Oncological Indication(s): Distribution by Target Immune Checkpoints
  • Figure 4.12 Popular Disease Indication(s): Distribution by Target Immune Checkpoint in Highest Phase of Development
  • Figure 4.13 Next Generation Immune Checkpoint Inhibitors and Stimulators Therapy Developers: Distribution by Year of Establishment
  • Figure 4.14 Next Generation Immune Checkpoint Inhibitors and Stimulators Therapy Developers: Distribution by Company Size and Geographical Location
  • Figure 4.15 Leading Developer Companies: Distribution by Number of Pipeline Therapies
  • Figure 4.16 Popular Targets: Distribution by Number of Developers
  • Figure 4.17 World Map Representation: Analysis by Geography
  • Figure 5.1 Immune Checkpoint Inhibitors for CD47: Distribution by Phase of Development
  • Figure 5.2 Immune Checkpoint Inhibitors for CD47: Distribution by Therapeutic Modality
  • Figure 5.3 Immune Checkpoint Inhibitors for CD47: Distribution by Route of Administration
  • Figure 5.4 Immune Checkpoint Inhibitors for CD47: Distribution by Target Disease Indication
  • Figure 5.5 Immune Checkpoint Inhibitors for CD47 Therapy Developers: Distribution by Year of Establishment
  • Figure 5.6 Immune Checkpoint Inhibitors for CD47 Therapy Developers: Distribution by Company Size and Geographical Location
  • Figure 5.7 Leading Developers: Distribution by Number of Pipeline Therapies for CD47
  • Figure 5.8 World Map Representation: Distribution by Geography
  • Figure 6.1 Immune Checkpoint Stimulators for 4-1BB: Distribution by Phase of Development
  • Figure 6.2 Immune Checkpoint Stimulators for 4-1BB: Distribution by Therapeutic Modality
  • Figure 6.3 Immune Checkpoint Stimulators for 4-1BB: Distribution by Route of Administration
  • Figure 6.4 Immune Checkpoint Stimulators for 4-1BB: Distribution by Target Disease Indication
  • Figure 6.5 Immune Checkpoint Stimulators for 4-1BB Therapy Developers: Distribution by Year of Establishment
  • Figure 6.6 Immune Checkpoint Stimulators for 4-1BB Therapy Developers: Distribution by Company Size and Geographical Location
  • Figure 6.7 Leading Developers: Distribution by Number of Therapies for 4-1BB
  • Figure 6.8 World Map Representation: Distribution by Geography
  • Figure 7.1 Clinical Trial Analysis: Scope and Methodology
  • Figure 7.2 Clinical Trial Analysis: Distribution by Trial Status
  • Figure 7.3 Clinical Trial Analysis: Cumulative Distribution of Trials by Registration Year, Since 2010
  • Figure 7.4 Clinical Trial Analysis: Distribution by Trial Phase
  • Figure 7.5 Clinical Trial Analysis: Cumulative Year-wise Trend by Trial Recruitment Status
  • Figure 7.6 Clinical Trial Analysis: Distribution by Number of Patients Enrolled by Trial Registration Year
  • Figure 7.7 Clinical Trial Analysis: Distribution by Study Design
  • Figure 7.8 Clinical Trial Analysis: Distribution by Type of Sponsor / Collaborator
  • Figure 7.9 Leading Players: Distribution by Number of Registered Trials
  • Figure 7.10 Word Cloud Analysis: Distribution by Focus Areas
  • Figure 7.11 Clinical Trial Analysis: Distribution by Target Immune Checkpoint
  • Figure 7.12 Clinical Trial Analysis: Distribution by Target Immune Checkpoint and Trial Registration Year
  • Figure 7.13 Clinical Trial Analysis: Distribution by Therapeutic Area
  • Figure 7.14 Popular Indication(s): Analysis by Number of Registered Trials
  • Figure 7.15 Clinical Trial Analysis: Phase-Wise Distribution of Most Popular Indications
  • Figure 7.16 Popular Interventions: Analysis by Number of Number of Registered Trials
  • Figure 7.17 Clinical Trial Analysis: Geographical Distribution by Number of Registered Trials
  • Figure 7.18 Clinical Trial Analysis: Geographical Distribution by Number of Patients Enrolled
  • Figure 8.1 Bristol-Myers Squibb: Annual Revenues, Since 2019 (USD Billion)
  • Figure 8.2 GlaxoSmithKline: Annual Revenues, Since 2019 (USD Billion)
  • Figure 8.3 Incyte: Annual Revenues, Since 2019 (USD Billion)
  • Figure 8.4 Novartis: Annual Revenues, Since 2019 (USD Billion)
  • Figure 9.1 Grant Analysis: Distribution by Year of Grant Award, Since 2016
  • Figure 9.2 Grant Analysis: Distribution by Amount Awarded (USD Million), Since 2019
  • Figure 9.3 Grant Analysis: Distribution by Administering Institute Center
  • Figure 9.4 Grant Analysis: Distribution by Funding Institute Center
  • Figure 9.5 Grant Analysis: Distribution by Support Period
  • Figure 9.6 Grant Analysis: Distribution by Funding Institute Center and Support Period
  • Figure 9.7 Grant Analysis: Distribution by Type of Grant Application
  • Figure 9.8 Grant Analysis: Distribution by Purpose of Grant Award
  • Figure 9.9 Grant Analysis: Distribution by Grant Mechanism
  • Figure 9.10 Word Cloud: Emerging Focus Areas
  • Figure 9.11 Popular Target Immune Checkpoints: Distribution by Number of Grants
  • Figure 9.12 Grant Analysis: Distribution of Grant Amount Awarded by Target Immune Checkpoints (USD Million)
  • Figure 9.13 Grant Analysis: Distribution by Study Section Involved
  • Figure 9.14 Popular NIH Departments: Distribution by Number of Grants
  • Figure 9.15 Grant Analysis: Distribution by Types of Recipient Organizations
  • Figure 9.16 Prominent Program Officers: Distribution by Number of Grants
  • Figure 9.17 Popular Recipient Organizations: Distribution by Number of Grants
  • Figure 9.18 Grant Analysis: Distribution by Recipient Organizations
  • Figure 10.1. Partnerships and Collaborations: Cumulative Year-wise Trend, Since 2017
  • Figure 10.2. Partnerships and Collaborations: Distribution by Type of Partnership
  • Figure 10.3. Partnerships and Collaborations: Year-wise Trend by Type of Partnership Since 2017
  • Figure 10.4. Partnerships and Collaborations: Distribution by Number of Partnerships and Target Immune Checkpoint
  • Figure 10.5. Partnerships and Collaborations: Distribution by Year of Partnership and Type of Partner
  • Figure 10.6. Partnerships and Collaborations: Distribution Type of Partnership and Type of Partner
  • Figure 10.7. Partnerships and Collaborations: Most Active Players
  • Figure 10.8. Partnerships and Collaborations: Regional Distribution
  • Figure 10.9. Partnerships and Collaborations: Intercontinental and Intracontinental Distribution
  • Figure 11.1. Target Competitiveness Analysis: Four-Dimensional Bubble Analysis
  • Figure 11.2. Target Competitiveness Analysis: Five-Dimensional Spider Web Analysis
  • Figure 12.1. Big Pharma Players: Logo Landscape
  • Figure 12.2. Big Pharma Players: Analysis by Number of Initiatives
  • Figure 12.3. Big Pharma Players: Analysis by Number of Unique Targets
  • Figure 12.4. Big Pharma Players: Analysis by Product Development Strategy
  • Figure 12.5. Big Pharma Players: Heat Map Analysis by Target Immune Checkpoint
  • Figure 12.6. Big Pharma Players: Analysis by Product Development Strategy across Target Immune Checkpoint
  • Figure 12.7. Heat Map Representation: Distribution of Big Pharma Initiatives Across Target Immune Checkpoints and Highest Stage of Development
  • Figure 12.8. Grid Representation: Analysis by Product Development and Target Immune Checkpoint
  • Figure 12.9. Big Pharma Players: Analysis by Type of Intervention
  • Figure 12.10. Heat Map Representation: Big Pharma Initiatives Focused on Oncological Indications
  • Figure 12.11. Heat Map Representation: Big Pharma Initiatives Focused on Non-Oncological Indications
  • Figure 12.12. Heat Map Representation: Distribution of Big Pharma Initiatives Across Target Immune Checkpoints and Indication
  • Figure 13.1 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market, Till 2030 (USD Million)
  • Figure 13.2 DARZALEX(R) Sales Forecast: Till 2030 (USD Million)
  • Figure 13.3 SAR650984 Sales Forecast: Till 2030 (USD Million)
  • Figure 13.4 RRx-001 Sales Forecast: Till 2030 (USD Million)
  • Figure 13.5 GSK3359609 Sales Forecast: Till 2030 (USD Million)
  • Figure 13.6 Enoblituzumab Sales Forecast: Till 2030 (USD Million)
  • Figure 13.7 Omburtamab Sales Forecast:Till 2030 (USD Million)
  • Figure 13.8 APX005M Sales Forecast: Till 2030 (USD Million)
  • Figure 13.9 BI 655064 Sales Forecast: Till 2030 (USD Million)
  • Figure 13.10 BMS-986015 Sales Forecast: Till 2030 (USD Million)
  • Figure 13.11 CFZ533 Sales Forecast: Till 2030 (USD Million)
  • Figure 13.12 GBR 830 Sales Forecast: 2024: 2030 (USD Million)
  • Figure 13.13 KHK4083 Sales Forecast: Till 2030 (USD Million)
  • Figure 13.14 LAG525 Sales Forecast: Till 2030 (USD Million)
  • Figure 13.15 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Region (USD Million)
  • Figure 13.16 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in North America, Till 2030 (USD Million)
  • Figure 13.17 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in UK, Till 2030 (USD Million)
  • Figure 13.18 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Germany, Till 2030 (USD Million)
  • Figure 13.19 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in France, Till 2030 (USD Million)
  • Figure 13.20 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Italy, Till 2030 (USD Million)
  • Figure 13.21 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Spain, Till 2030 (USD Million)
  • Figure 13.22 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Australia, Till 2030 (USD Million)
  • Figure 13.23 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in Japan, Till 2030 (USD Million)
  • Figure 13.24 Next Generation Immune Checkpoint Inhibitors and Stimulators Market in India, Till 2030 (USD Million)
  • Figure 13.25 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Therapeutic Area (USD Million)
  • Figure 13.26 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Oncological Indications, Till 2030 (USD Million)
  • Figure 13.27 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Non-Oncological Indications, Till 2030 (USD Million)
  • Figure 13.28 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Atopic Dermatitis, Till 2030 (USD Million)
  • Figure 13.29 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Breast Cancer, Till 2030 (USD Million)
  • Figure 13.30 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Chronic Lymphocytic Leukemia, Till 2030 (USD Million)
  • Figure 13.31 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Colorectal Cancer, Till 2030 (USD Million)
  • Figure 13.32 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Head and Neck Cancer, Till 2030 (USD Million)
  • Figure 13.33 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Lung Cancer, Till 2030 (USD Million)
  • Figure 13.34 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Lupus Nephritis, Till 2030 (USD Million)
  • Figure 13.35 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Melanoma, Till 2030 (USD Million)
  • Figure 13.36 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Multiple Myeloma, Till 2030 (USD Million)
  • Figure 13.37 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Neuroblastoma, Till 2030 (USD Million)
  • Figure 13.38 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Primary Sjogren's Syndrome, Till 2030 (USD Million)
  • Figure 13.39 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Ulcerative colitis, Till 2030 (USD Million)
  • Figure 13.40 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Target Immune Checkpoint, 2027 and 2030
  • Figure 13.41 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for B7-H3 Targeting Therapies, Till 2030 (USD Million)
  • Figure 13.42 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD38 Targeting Therapies, Till 2030 (USD Million)
  • Figure 13.43 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD40 Targeting Therapies, Till 2030 (USD Million)
  • Figure 13.44 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for CD47 Targeting Therapies, Till 2030 (USD Million)
  • Figure 13.45 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for ICOS Targeting Therapies, Till 2030 (USD Million)
  • Figure 13.46 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for KIR Targeting Therapies, Till 2030 (USD Million)
  • Figure 13.47 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for LAG-3 Targeting Therapies, Till 2030 (USD Million)
  • Figure 13.48 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for OX40 Targeting Therapies, Till 2030 (USD Million)
  • Figure 13.49 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Mechanism of Action, 2025 and 2030
  • Figure 13.50 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Inhibitory Therapies, Till 2030 (USD Million)
  • Figure 13.51 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Stimulatory Therapies, Till 2030 (USD Million)
  • Figure 13.52 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Type of Therapeutic Modality (USD Million)
  • Figure 13.53 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Monoclonal Antibody, Till 2030 (USD Million)
  • Figure 13.54 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Small Molecule Drugs, Till 2030 (USD Million)
  • Figure 13.55 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Type of Therapy, 2027 and 2030 (USD Million)
  • Figure 13.56 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Monotherapy, Till 2030 (USD Million)
  • Figure 13.57 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Combination Therapy, Till 2030 (USD Million)
  • Figure 13.58 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Both, Till 2030 (USD Million)
  • Figure 13.59 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market: Distribution by Route of Administration, Till 2030 (USD Million)
  • Figure 13.60 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Intracerebroventricular Therapies, Till 2030 (USD Million)
  • Figure 13.61 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Intravenous Therapies, Till 2030 (USD Million)
  • Figure 13.62 Global Next Generation Immune Checkpoint Inhibitors and Stimulators Market for Subcutaneous Therapies, Till 2030 (USD Million)