Antibody Drug Conjugate Market by Target Disease Indication (Breast Cancer, B-cell Lymphoma, Lung Cancer, Multiple Myeloma, Acute Lymphoblastic Leukemia, Gastric Cancer, Renal Cancer, Cervical Cancer and Other Target Disease Indications), Therapeutic Area

Antibody Drug Conjugate Market by Target Disease Indication (Breast Cancer, B-cell Lymphoma, Lung Cancer, Multiple Myeloma, Acute Lymphoblastic Leukemia, Gastric Cancer, Renal Cancer, Cervical Cancer and Other Target Disease Indications), Therapeutic Area (Hematological Cancer and Solid Tumor), Linker (Valine-Citrulline, Succinimidyl-4-(N-Maleimidomethyl) Cyclohexane-1-Carboxylate, Tetrapeptide-based Linker, Maleimide, Maleimidocaproyl, Valine-Alanine, Hydrazone (4-(4-Acetylphenoxy) Butanoic Acid (AcBut) and Other Linkers), Payload (Monomethyl Auristatin E, DM1, Duocarmycin, SN-38 / Irinotecan, Monomethyl Auristatin F, SG3199, Ozogamicin, DM4 and Other Payloads), Target Antigens (HER-2 (ERBB2), CD79b, Trop-2, BCMA (TNFRSF17 / BCM), CD19, CD22, Tissue Factor, CD30, CEACAM5, Nectin 4 and Others) And Key Geographical Regions (North America (US, Canada), Europe (Germany, UK, France, Italy, Spain), and Asia-Pacific (China, Australia, Japan)): Industry Trends and Global Forecasts, Till 2035



ANTIBODY DRUG CONJUGATE MARKET: OVERVIEW

As per Roots Analysis, the global antibody drug conjugate market is estimated to grow from USD 7.72 billion in the current year to USD 23.3 billion by 2035, at a CAGR of 9.63% during the forecast period, till 2035.

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

Target Disease Indication

Breast Cancer

B-cell Lymphoma

Lung Cancer

Multiple Myeloma

Acute Lymphoblastic Leukemia

Gastric Cancer

Renal Cancer

Cervical Cancer

Other Target Disease Indications

Therapeutic Area

Hematological Cancer

Solid Tumor

Linker

Valine-Citrulline

Succinimidyl-4-(N-Maleimidomethyl) Cyclohexane-1-Carboxylate

Tetrapeptide-based Linker

Maleimide, Maleimidocaproyl

Valine-Alanine

Hydrazone (4-(4-Acetylphenoxy) Butanoic Acid (AcBut)

Other Linkers

Payload

Monomethyl Auristatin E

DM1

Duocarmycin

SN-38 / Irinotecan

Monomethyl Auristatin F

SG3199

Ozogamicin

DM4

Other Payloads

Target Antigens

HER-2 (ERBB2)

CD79b

Trop-2

BCMA (TNFRSF17 / BCM)

CD19

CD22

Tissue Factor

CD30

CEACAM5

Nectin 4

Others

Key Geographical Regions

North America

Europe

Asia-Pacific

ANTIBODY DRUG CONJUGATE MARKET: GROWTH AND TRENDS

Over the years, various technical developments, such as enhanced pharmacokinetic and pharmacodynamic properties and antibody engineering have paved the way for antibody drug conjugates to be considered as a viable therapeutic modality for the treatment of solid tumors and hematological malignancies. Till date, over 280 antibody drug conjugates have been either approved or being investigated in clinical studies, whereas more than 250 candidates are in the early stages of development. Examples of the USFDA approved drugs include Zynlonta, Akalux, Aidixi.

Antibody drug conjugates have emerged as a potential option to selectively eliminate the tumor population, with minimal side effects. Till date, several clinical trials have shown the therapeutic superiority (over conventional cancer treatment options) and efficacy of antibody-drug conjugates. Therefore, the rising population of various oncological disorders is one of the key drivers for the antibody drug conjugate market. Driven by the availability of innovative technology platforms, lucrative funding opportunities and encouraging clinical trial results, the antibody drug conjugates market is poised to grow in the long-run, as multiple product candidates are expected to receive marketing approval in the coming decade.

ANTIBODY DRUG CONJUGATE MARKET: KEY INSIGHTS

The report delves into the current state of the antibody drug conjugate market and identifies potential growth opportunities within the industry. Some key findings from the report include:

1. The landscape of ADCs has steadily evolved over the past decade; more than 530 ADC therapy programs are being evaluated by over 140 drug developers, worldwide.

2. Currently, 47% of the ADCs are in discovery / preclinical stages of development; of these, close to 160 ADCs utilize auristatin and maytansinoid payloads.

3. In order to gain a competitive edge, ADC developers are actively exploring novel targets for the treatment of a wide array of indications.

4. Since 2010, 560+ clinical trials have been registered to evaluate the safety and efficacy of various ADCs; majority of these studies have been conducted across various sites in the US.

5. Developers have already evaluated more than 190 ADCs in combination with other therapeutic modalities for the treatment of various oncological disorders.

6. The growing interest in this field is evident from the rise in partnership activity over the years; in fact, the maximum partnerships, till date, were inked recently.

7. Considering the enormous opportunities associated with ADCs for the treatment of cancer, investors have readily extended funds, worth nearly USD 30 billion, in the last decade.

8. Several researchers from renowned universities, currently involved in evaluating efficacy and safety of ADCs, have emerged as prominent KOLs.

9. Over the years, the intellectual capital related to the therapeutic applications of ADCs has grown at a commendable pace; more than 3,330 patents have been filed by both industry and non-industry players.

10. A number of grants, worth over USD 135 million, have been awarded for research activity related to ADCs; nearly 90% of these grants extend a support period of up to 10 years.

11. Stakeholders are exploring diverse commercialization strategies across different stages of a drug’s launch cycle; for drugs nearing patent expiry, these developers are expected to adopt lifecycle management strategies.

12. Presently, around 35 players, across the globe, claim to have the required capabilities to offer contract manufacturing / conjugation services for ADCs; of these, over 10 players claim to be one-stop-shops.

13. With a promising developmental pipeline, the global market is anticipated to witness an annualized growth of nearly 10% over the next decade.

ANTIBODY DRUG CONJUGATE MARKET: KEY SEGMENTS

Breast Cancer is Likely to Dominate the Antibody Drug Conjugate Market During the Forecast Period

Based on the target disease indication, the market is segmented into breast cancer, b-cell lymphoma, lung cancer, multiple myeloma, acute lymphoblastic leukemia, gastric cancer, renal cancer, cervical cancer and other target disease indications. Currently, a number of antibody drug conjugates have been approved for the treatment of breast cancer patients. This segment is expected to capture the largest share as more drug candidates receive approvals in the future.

Currently, Solid Tumor Holds Maximum Share within the Antibody Drug Conjugate Market

Based on the therapeutic area, the market is segmented into hematological cancer and solid tumor. It is worth highlighting that antibody drug conjugate market for solid tumor is likely to grow at a relatively higher CAGR, during the forecast period.

Maleimidocaproyl is the Fastest Growing Segment in the Antibody Conjugate Market During the Forecast Period

Based on the type of linker, the market is segmented into valine-citrulline, succinimidyl-4-(n-maleimidomethyl) cyclohexane-1-carboxylate, tetrapeptide-based linker, maleimidocaproyl, valine-alanine, hydrazone (4-(4-acetylphenoxy) butanoic acid (acbut) and other linkers. It is worth highlighting that the current antibody drug conjugate market is dominated by valine-citrulline linkers.

Monomethyl auristatin E (MMAE) Payload is Likely to Dominate the Antibody Drug Conjugate Market During the Forecast Period

Based on the type of payload, the market is segmented into Monomethyl Auristatin E, DM1, Duocarmycin, SN-38 / Irinotecan, Monomethyl Auristatin F, SG3199, Ozogamicin, DM4 and other Payloads. The current market is expected to be driven by MMAE payload used in antibody drug conjugates, followed by DM1; a similar trend is anticipated in the long term.

Currently, HER-2 (ERBB2) Target Antigen Holds the Maximum Share within the Antibody Drug Conjugate Market

Based on the target antigen, the market is segmented into HER-2 (ERBB2), CD79b, Trop-2, BCMA (TNFRSF17 / BCM), CD19, CD22, tissue factor, CD30, CEACAM5, Nectin 4 and others.

The market is expected to be driven by HER-2 (ERBB2) antigen, CD79b target antigen and TROP-2 antigen in mid-long term. It is worth highlighting that the antibody drug conjugate market for tissue factor is likely to grow at a relatively higher CAGR during the forecast period.

North America Accounts for the Largest Share of the Market

Based on key geographical regions, the market is segmented into North America, Europe and Asia-Pacific. Majority share is expected to be captured by drug developers based in North America and Europe. It is worth highlighting that over the years, the market in Asia-Pacific is expected to grow at a higher CAGR.

Example Players in the Antibody Drug Conjugates Market

ADC Therapeutics

Astellas Pharma

AstraZeneca

Byondis

Daiichi Sankyo

Genentech

Gilead Sciences

ImmunoGen

Pfizer

RemeGen

Primary Research Overview

The opinions and insights presented in this study were influenced by discussions conducted with multiple stakeholders. The research report features detailed transcripts of interviews held with the following industry stakeholders:

Founder and Chief Executive Officer, Oxford Biotherapeutics

Founder and Chief Operating Officer, Angiex

Co-Founder and Chief Executive Officer, Syndivia

President and Chief Executive Officer, BSP Pharmaceuticals

Former Chief Executive Officer, PolyTherics (an Abzena company)

Founder and Chief Executive Officer, CureMeta

Chief Business Officer and Head of Strategy, CytomX Therapeutics

Former Chief Business Officer, NBE-Therapeutics

Chief Commercial Officer, Cerbios-Pharma

Senior Vice President and Chief Scientific Officer, Eisai

Chief Business Officer, AbTis

Former Vice President and Head of Chemistry, AmbrX

Vice President, Business Development, Synaffix

Former Director, Pierre Fabre

Former Group Product Manager, Catalent Pharma Solutions

Former Head of Bioconjugates Commercial Development, Lonza

Former Site Head, Piramal Healthcare

General Manager, Business Development, CDMO Business, Ajinomoto Bio-Pharma Services

Professor, Cardiff University

ANTIBODY DRUG CONJUGATE MARKET: RESEARCH COVERAGE

The report features an in-depth analysis of the antibody drug conjugate market, focusing on key market segments, including target disease indication, therapeutic area, linker, payload, target antigens and key geographical regions.

A comprehensive evaluation of close to 400 antibody drug conjugates / ADC therapeutics that have been either approved or being evaluated in different stages of development, considering various parameters, such as status of development (Approved, Phase III, Phase II, Phase I and Discovery / Preclinical), target disease indication (breast cancer, lung cancer, gastric cancer, ovarian cancer, non-Hodgkin’s lymphoma, hepatic cancer, b-cell lymphoma, acute myeloid leukemia, brain cancer and renal cancer), therapeutic area (solid tumors, hematological cancers, autoimmune disorders / inflammatory disorders and others), line of treatment (1st line, ≥1st line, 2nd line, ≥2nd line, 3rd line, ≥3rd line, ≤4th line, Last line and others), dosing frequency (q3 weeks, q2 weeks, q1 weeks, q4 weeks, once and q6 weeks), type of therapy (combination therapy and monotherapy), target antigen (HER-2 (ERBB2), Trop-2, EGFR, FOLR1 (folate receptor alpha), CD30, B7-H3 (CD276), Nectin 4 and c-MET), antibody isotype (IgG1, IgG2 and IgG4), payload / cytotoxin / warhead (monomethyl auristatin E (MMAE), DM4, DM1, SG3199, SN-38 / irinotecan, duocarmycin and monomethyl auristatin F (MMAF)), type of payload (auristatin, Maytansinoid, camptothecin, exatecan derivative topoisomerase I inhibitor, pyrrolobenzodiazepine dimer, topoisomerase I inhibitor (unspecified), DNA topoisomerase I inhibitor, Seco-DUBA, calicheamicin (ozogamicin), glucocorticoid and pyrrolobenzodiazepine (PBD)), linkers (valine-citrulline, peptide linker, tetrapeptide-based linker, N-succinimidyl 4-(2-pyridyldithio) -butanoate (SPDB), valine-alanine, succinimidyl-4-(N-maleimidomethyl) cyclohexane-1-carboxylate and maleimide linker) and type of linkers (cleavable and non-cleavable). In addition, it includes information on various antibody drug conjugate developers, based on their year of establishment, company size, location of headquarters and most active players (in terms of number of therapies).

A comprehensive competitive analysis of biological targets, examining factors, such as number of antibody drug conjugates being developed against them, number of unique target disease indications and number of companies developing antibody-drug conjugates for the target. In addition, it includes a six-dimensional spider-web analysis, featuring the most popular biological targets based on a number of relevant parameters, including number of publications, number of grants received to support research on a particular target, number of companies involved in drug development based on a singular target, highest phase of development for the singular target, number of therapies and number of indications.

In-depth profiles of key industry players in antibody drug conjugate market, focusing on company overviews, financial information (if available), product portfolio, recent developments, and an informed future outlook.

Detailed profiles of marketed ADC therapeutics, focusing on overview of the therapy, its mechanism of action, target antigen, linker, payload, type of therapy and details related to sales generated (wherever available).

Examination of completed, ongoing, and planned clinical studies of various drug conjugates based on several parameters, such as trial registration year, trial status, trial phase, enrolled patient population, type of sponsor / collaborator, target population, study design, most active industry players, and non-industry players (in terms of number of trials) and key geographical regions.

An in-depth examination that emphasizes the key opinion leaders (KOLs) within this field includes an evaluation of various principal investigators overseeing clinical trials associated with antibody drug conjugates, based on several relevant parameters, such as type of KOL, qualification(s), type of organization, affiliated organization, geographical location of KOLs and target disease indications. In addition, the chapter highlights the most prominent KOLs, based on our proprietary and third-party scoring criteria.

An assessment of various therapeutics that are being evaluated in combination with antibody-drug conjugates. The study also presents the likely evolution of these therapeutics across different indications.

An analysis of partnerships established in this sector, since 2014, covering product licensing agreements, technology licensing agreements, research and development agreements, clinical trial agreements, mergers / acquisitions, product development agreements, technology utilization agreements, product development and commercialization agreements, manufacturing agreements, technology integration agreements and others), purpose of partnership (research and development, product development and commercialization, product development, clinical evaluation, portfolio enhancement, product development and manufacturing, manufacturing, research and others.

A detailed evaluation of the investments made in the ADC domain, encompassing seed financing, venture capital financing, debt financing, grants, capital raised from IPOs and subsequent offerings based on several parameters, such as number of funding instances, amount invested, type of funding, leading companies and investors, and geographical analysis.

Detailed analysis of various patents filed / granted related to antibody drug conjugates based on type of patent, patent publication year, patent application year, geographical location, type of players, assigned CPC symbol, type of organization, and leading industry / academic players (in terms of size of intellectual property portfolio). It also includes a patent benchmarking analysis and a detailed valuation analysis.

A comprehensive evaluation of various grants that have been awarded to research institutes engaged in conducting research related to antibody drug conjugates, since 2016, based on various important parameters, such as year of grant award, amount awarded, funding institute center, support period, type of grant application, purpose of grant award, activity code, study section involved, popular NIH departments (based on number of grants awarded), prominent program officers, leading recipient organizations and key regions.

A detailed analysis of the commercialization strategies employed by different drug developers for their respective products, prior to launch, during / post launch. It also includes a proprietary framework to outline the essential steps and guidelines that companies can follow while developing their marketing strategies.

An analysis of the key promotional strategies that have been adopted by the developers of marketed products, namely Adcetris, Besponsa, Enhertu, Kadcyla, Mylotarg, Polivy, and Trodelvy.

Assessment of the success protocol model for the recently approved ADC therapeutics, based on several relevant parameters, such as dosing frequency, drug efficacy, drug exclusivity, fatality rate, geographical reach, intra-class competition, line of treatment, prevalence, price, type of therapy, and existing competition among developers.

An overview of various conjugation and linker technologies along with the types that are presently being employed in the designing and development of antibody drug conjugates. In addition, it presents a list of the conjugation and linker technologies that are presently being employed in the designing and development of antibody drug conjugates.

An overview of research aimed at enhancing the analysis of non-clinical data to support first-in-human (FIH) dose selection for antibody drug conjugates. It also examines the various methods employed to estimate FIH doses. Additionally, it highlights potential FIH starting doses and the estimated dose escalations necessary to achieve the maximum tolerated dose (MTD) in humans.

A comprehensive discussion on the various factors that are likely to influence the pricing of antibody drug conjugate products. This includes an exploration of different models and approaches that pharmaceutical companies may consider while determining the prices of their lead therapy candidates that are likely to be marketed in the near future.

A case study on manufacturing of antibody drug conjugates, highlighting the key challenges, and a list of contract service providers that are involved in the ADC market.

A case study on companies offering companion diagnostics that can potentially be used to make treatment related decisions involving antibody-drug conjugates, providing information on the geographical location of key diagnostic developers, affiliated disease biomarkers, assay techniques involved, target indications, the type of sample required (tumor tissue, blood, bone marrow and others) and the drug candidates for which a particular test was developed.

A SWOT analysis, focusing on key drivers and challenges that are likely to impact the industry’s evolution. Further, it includes a Harvey ball analysis, highlighting the relative effect of each SWOT parameter on the overall industry.

KEY QUESTIONS ANSWERED IN THIS REPORT

How many companies are currently engaged in this market?

Which are the leading companies in this market?

What kind of partnership models are commonly adopted by industry stakeholders?

What are the factors that 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

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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.

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1 Preface
1.1. Antibody Drug Conjugate Market Overview
1.2. Key Market Insights
1.3. Scope Of The Report
1.4. Research Methodology
1.5. Key Questions Answered
1.6. Chapter Outlines
2 Executive Summary
3 Introduction
3.1 Chapter Overview
3.2 Pillars Of Cancer Therapy
3.3 Overview Of Antibody Drug Conjugates
3.3.1 History Of Antibody Drug Conjugates
3.3.2 Difference Between Small Molecule Drugs, Monoclonal Antibody Therapies And Antibody Drug Conjugates
3.3.3 Components Of Antibody Drug Conjugates
3.3.3.1 Antibody
3.3.3.2 Cytotoxin
3.3.3.3 Linker
3.3.4 Advantages Of Antibody Drug Conjugates Therapeutics Over Traditional Therapeutics
3.3.5 Pharmacokinetic Properties Of Antibody-drug Conjugates
3.3.5.1. Absorption
3.3.5.2. Distribution
3.3.5.3. Metabolism And Elimination
3.4 Concluding Remarks
4. Market Overview
4.1. Chapter Overview
4.2. Antibody Drug Conjugates: Therapies Pipeline
4.2.1. Analysis By Status Of Development
4.2.2. Analysis By Target Disease Indication
4.2.3. Analysis By Therapeutic Area
4.2.4. Analysis By Line Of Treatment
4.2.5. Analysis By Dosing Frequency
4.2.6. Analysis By Type Of Therapy
4.2.7. Analysis By Target Antigen
4.2.8. Analysis By Antibody Isotype
4.2.9. Analysis By Payload / Cytotoxin / Warhead
4.2.10. Analysis By Type Of Payload
4.2.11. Analysis By Linker
4.2.12. Analysis By Type Of Linker (Cleavable / Non-cleavable)
4.3. Antibody Drug Conjugate: List Of Therapy Developers
4.3.1. Analysis By Year Of Establishment
4.3.2. Analysis By Company Size
4.3.3. Analysis By Location Of Headquarters
4.3.4. Analysis By Company Size And Location Of Headquarters
4.3.5. Most Active Players: Analysis By Number Of Therapies
5. Target Competitiveness Analysis
5.1. Chapter Overview
5.2. Key Parameters
5.3. Methodology
5.4. Target Competitiveness Analysis: Key Targets Of Antibody Drug Conjugates
5.4.1. Three-dimensional Bubble Analysis
5.4.1.1. Targets Of Approved / Marketed Drugs
5.4.1.2. Targets Of Phase Iii Drugs
5.4.1.3. Targets Of Phase Ii Drugs
5.4.1.4. Targets Of Phase I Drugs
5.4.1.5. Targets Of Pre-clinical Drugs
5.4.2. Six-dimensional Spider Web Analysis
6 Company And Drug Profiles
6.1 Chapter Overview
6.2 Adc Therapeutics
6.2.1 Company Overview
6.2.2 Financial Information
6.2.3 Pipeline Overview
6.2.3.1 Zynlonta
6.2.4 Recent Developments And Future Outlook
6.3 Astellas Pharma
6.3.1 Company Overview
6.3.2 Financial Information
6.3.3 Pipeline Overview
6.3.3.1 Padcev
6.3.4 Recent Developments And Future Outlook
6.4 Astrazeneca
6.4.1 Company Overview
6.4.2 Financial Information
6.4.3 Pipeline Overview
6.4.3.1 Enhertu
6.4.4 Recent Developments And Future Outlook
6.5 Byondis
6.5.1 Company Overview
6.5.2 Financial Information
6.5.2.1 Pipeline Overview
6.5.3 Trastuzumab Duocarmazine
6.5.4 Recent Developments And Future Outlook
6.6 Daiichi Sankyo
6.6.1 Company Overview
6.6.2 Financial Information
6.6.3 Pipeline Overview
6.6.3.1 Enhertu
6.6.4 Recent Developments And Future Outlook
6.7 Genentech (Subsidiary Of Roche)
6.7.1 Company Overview
6.7.2 Financial Information
6.7.3 Pipeline Overview
6.7.3.1 Kadcyla
6.7.3.2 Polivy
6.7.4 Recent Developments And Future Outlook
6.8 Gilead Sciences
6.8.1 Company Overview
6.8.2 Financial Information
6.8.3 Pipeline Overview
6.8.3.1 Trodelvy
6.8.4 Recent Developments And Future Outlook
6.9 Immunogen
6.9.1 Company Overview
6.9.2 Financial Information
6.9.3 Pipeline Overview
6.9.3.1 Elahere
6.9.4 Recent Developments And Future Outlook
6.10 Pfizer
6.10.1 Company Overview
6.10.2 Financial Information
6.10.3 Pipeline Overview
6.10.3.1 Mylotarg
6.10.3.2 Besponsa
6.10.4 Recent Developments And Future Outlook
6.11 Remegen
6.11.1 Company Overview
6.11.2 Financial Information
6.11.3 Pipeline Overview
6.11.3.1 Disitamab Vedotin
6.11.4 Recent Developments And Future Outlook
6.12 Seagen
6.12.1 Company Overview
6.12.2 Financial Information
6.12.3 Pipeline Overview
6.12.3.1 Adcetris
6.12.3.2 Padcev
6.12.3.3 Tivdak
6.12.4 Recent Developments And Future Outlook
7 Clinical Trial Analysis
7.1 Chapter Overview
7.2 Scope And Methodology
7.3 Antibody Drug Conjugates: Clinical Trial Analysis
7.3.1 Analysis By Trial Registration Year
7.3.2 Analysis By Trial Status
7.3.3 Analysis By Trial Status And Patients Enrolled
7.3.4 Analysis By Trial Registration Year And Trial Status
7.3.5 Analysis By Trial Registration Year And Patients Enrolled
7.3.6 Analysis By Trial Phase
7.3.7 Analysis By Trial Phase And Patients Enrolled
7.3.8 Analysis By Type Of Sponsor / Collaborator
7.3.9 Analysis By Target Population
7.3.10 Analysis By Study Design
7.3.11 Most Active Industry Players: Analysis By Number Of Trials
7.3.12 Most Active Non-industry Players: Analysis By Number Of Trials
7.3.13 Analysis Of Clinical Trials By Geography
7.3.14 Analysis Of Patients Enrolled By Geography
8. Key Opinion Leaders
8.1 Chapter Overview
8.2 Assumption And Key Parameters
8.3 Methodology
8.4 Antibody Drug Conjugates: Key Opinion Leaders
8.4.1 Analysis By Type Of Kols
8.4.2 Analysis By Qualification
8.4.3 Analysis By Affiliated Organization
8.4.4 Analysis By Type Of Organization
8.4.5 Analysis By Geographical Location Of Kols
8.4.6 Most Prominent Kols: Analysis By Kols Activeness, Expertise And Strength
8.4.7 Most Prominent Kols: Analysis By Ra Score
8.4.8 Most Prominent Kols: Comparison Of Ra Score And Third-party Score
9 Combination Therapies
9.1 Chapter Overview
9.2 Combination Therapies: History Of Development
9.3 Combination Therapies: Fda Guidelines
9.3.1 Combination Of Marketed Drugs
9.3.2 Combinations Of Marketed Drugs With New Molecular Entities
9.3.3 Combination Of New Molecular Entities
9.4 Combination Therapies: Antibody Drug Conjugates
9.4.1 Completed / Ongoing Clinical Studies Of Antibody Drug Conjugates
9.4.1.1 Analysis By Type Of Therapy
9.4.2 Completed / Ongoing Clinical Studies Of Antibody Drug Conjugate-based Combination Therapies
9.4.2.1 Analysis By Phase Of Development
9.4.2.2 Analysis By Trial Status
9.4.2.3 Analysis By Target Disease Indication
9.4.2.4 Most Popular Antibody Drug Conjugates Used In Combination Therapies: Analysis By Number Of Trials
9.4.2.5 Most Popular Drug Class Used In Combination Therapies: Analysis By Number Of Trials
9.4.2.6 Analysis By Target Disease Indication And Drug Class Used In Antibody Drug Conjugate-based Combination Therapies
10. Partnerships And Collaborations
10.1 Chapter Overview
10.2 Partnership Models
10.3 Antibody Drug Conjugates: 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 Year And Type Of Partnership
10.3.4 Analysis By Purpose Of Partnership
10.3.5 Analysis By Type Of Partner
10.3.6 Most Active Players: Analysis By Number Of Partnerships
10.3.7 Analysis By Geography
10.3.7.1 International And Local Agreements
10.3.7.2 Intercontinental And Intracontinental Agreements
11 Funding And Investment Analysis
11.1 Chapter Overview
11.2 Types Of Funding
11.3 Antibody Drug Conjugates: List Of Funding And Investment Analysis
11.3.1 Analysis By Year Of Funding
11.3.2 Analysis By Amount Invested
11.3.3 Analysis By Type Of Funding
11.3.4 Analysis By Year And Type Of Funding
11.3.5 Analysis By Type Of Investor
11.3.6 Analysis By Amount Invested By Geography
11.3.6.1 Analysis By Region
11.3.6.2 Analysis By Country
11.3.7. Most Active Players: Analysis By Number Of Funding Instances
11.3.8. Most Active Players: Analysis By Amount Invested
11.3.9. Key Investors: Analysis By Number Of Funding Instances
12 Patent Analysis
12.1 Chapter Overview
12.2 Scope And Methodology
12.3 Antibody Drug Conjugates: Patent Analysis
12.3.1 Analysis By Patent Publication Year
12.3.2 Analysis By Patent Application Year
12.3.3 Analysis By Annual Number Of Granted Patents And Patent Applications
12.3.4 Analysis By Patent Jurisdiction
12.3.5 Analysis By Cpc Symbols
12.3.6 Analysis By Type Of Applicant
12.3.7 Leading Industry Players: Analysis By Number Of Patents
12.3.8 Leading Non-industry Players: Analysis By Number Of Patents
12.3.9 Leading Individual Assignees: Analysis By Number Of Patents
12.4 Antibody Drug Conjugate: Patent Benchmarking Analysis
12.4.1 Analysis By Patent Characteristics
12.5 Antibody Drug Conjugate: Patent Valuation
12.6 Leading Patents By Number Of Citations
13 Academic Grants Analysis
13.1 Chapter Overview
13.2 Scope And Methodology
13.3 Antibody Drug Conjugates: Grants Analysis
13.3.1 Analysis By Year Of Grant Award
13.3.2 Analysis By Amount Awarded
13.3.3 Analysis By Funding Institute
13.3.4 Analysis By Support Period
13.3.5 Analysis By Type Of Grant Application
13.3.6 Analysis By Purpose Of Grant Award
13.3.7 Analysis By Activity Code
13.3.8 Analysis By Study Section Involved
13.3.9 Popular Nih Departments: Analysis By Number Of Grants
13.3.9.1 Prominent Program Officers: Analysis By Number Of Grants
13.3.9.2 Popular Recipient Organizations: Analysis By Number Of Grants
13.3.9.3 Popular Recipient Organizations: Analysis By Grant Amount
13.3.10. Analysis By Region Of Recipient Organization
14 Key Commmercialization Strategies
14.1 Chapter Overview
14.2 Successful Drug Launch Strategy: Roots Framework
14.3 Successful Drug Launch Strategy: Product Differentiation
14.4 Common Commercialization Strategies Adopted Across Different Stages Of Product Development
14.5 Key Commercialization Strategies Adopted By The Companies Focused On Antibody Drug Conjugates
14.5.1 Participation In The Global Events
14.5.2 Collaboration With External Stakeholders And Pharmaceuticals Firms
14.5.3 Geographical Expansion
14.5.4 Awareness Through Product Website
14.6 Concluding Remarks
15 Promotional Analysis
15.1 Chapter Overview
15.2 Channels Used For Promotional Campaigns
15.3 Summary Of Product Website
15.4 Summary Of Patient Support Services And Informative Downloads
15.5 Adcetris: Promotional Analysis
15.5.1 Drug Overview
15.5.2 Product Website Analysis
15.5.2.1 Message For Healthcare Professional
15.5.2.2 Message For Patients
15.5.2.3 Informative Downloads
15.5.2.4 Patient Support Services
15.6 Besponsa: Promotional Analysis
15.6.1 Drug Overview
15.6.2 Product Website Analysis
15.6.2.1 Message For Healthcare Professional
15.6.2.2 Message For Patients
15.6.2.3 Informative Downloads
15.6.2.4 Patient Support Services
15.7 Enhertu: Promotional Analysis
15.7.1 Drug Overview
15.7.2 Product Website Analysis
15.7.2.1 Message For Healthcare Professional
15.7.2.2 Message For Patients
15.7.2.3 Informative Downloads
15.7.2.4 Patient Support Services
15.8 Kadcyla: Promotional Analysis
15.8.1 Drug Overview
15.8.2 Product Website Analysis
15.8.2.1 Message For Healthcare Professional
15.8.2.2 Message For Patients
15.8.2.3 Informative Downloads
15.8.2.4 Patient Support Services
15.9 Mylotarg: Promotional Analysis
15.9.1 Drug Overview
15.9.2 Product Website Analysis
15.9.2.1 Message For Healthcare Professional
15.9.2.2 Message For Patients
15.9.2.3 Informative Downloads
15.9.2.4 Patient Support Services
15.10 Polivy: Promotional Analysis
15.10.1 Drug Overview
15.10.2 Product Website Analysis
15.10.2.1 Message For Healthcare Professional
15.10.2.2 Message For Patients
15.10.2.3 Informative Downloads
15.10.2.4 Patient Support Services
15.11 Trodelvy: Promotional Analysis
15.11.1 Drug Overview
15.11.2 Product Website Analysis
15.11.2.1 Message For Healthcare Professional
15.11.2.2 Message For Patients
15.11.2.3 Informative Downloads
15.11.2.4 Patient Support Services
16 Success Protocol Analysis
16.1 Chapter Overview
16.2 Antibody Drug Conjugates: Success Protocol Analysis
16.3 Adcetris (Seagen / Takeda Oncology)
16.3.1 Overview
16.3.2 Approval Timeline
16.3.3 Success Protocol Analysis
16.4 Aidixi (Remegen)
16.4.1 Overview
16.4.2 Approval Timeline
16.4.3 Success Protocol Analysis
16.5 Akalux (Rakuten Medical)
16.5.1 Overview
16.5.2 Approval Timeline
16.5.3 Success Protocol Analysis
16.6 Besponsa (Pfizer / Ucb)
16.6.1 Overview
16.6.2 Approval Timeline
16.6.3 Success Protocol Analysis
16.7 Blenrep (Glaxosmithkline)
16.7.1 Overview
16.7.2 Approval Timeline
16.7.3 Success Protocol Analysis
16.8 Elahere (Immunogen)
16.8.1 Overview
16.8.2 Approval Timeline
16.8.3 Success Protocol Analysis
16.9 Enhertu (Daiichi Sankyo / Astrazeneca)
16.9.1 Overview
16.9.2 Approval Timeline
16.9.3 Success Protocol Analysis
16.10 Kadcyla (Genentech / Immunogen)
16.10.1 Overview
16.10.2 Approval Timeline
16.10.3 Success Protocol Analysis
16.11 Padcev (Seagen / Astellas Pharma)
16.11.1 Overview
16.11.2 Approval Timeline
16.11.3 Success Protocol Analysis
16.12 Polivy (Genentech)
16.12.1 Overview
16.12.2. Approval Timeline
16.12.3. Success Protocol Analysis
16.13 Tivdak (Seagen / Genmab)
16.13.1 Overview
16.13.2 Approval Timeline
16.13.3 Success Protocol Analysis
16.14 Trodelvy (Gilead Sciences)
16.14.1 Overview
16.14.2 Approval Timeline
16.14.3 Success Protocol Analysis
16.15. Zynlonta (Adc Therapeutics)
16.15.1 Overview
16.15.2 Approval Timeline
16.15.3 Success Protocol Analysis
16.16 Concluding Remarks
17. Novel Conjugation And Linker Technology Platforms
17.1 Chapter Overview
17.2 Antibody Drug Conjugates: Conjugation Technologies
17.2.1 Chemical Conjugation
17.2.2 Enzymatic Conjugation
17.3 Antibody Drug Conjugates: List Of Conjugation Technologies
17.4 Antibody Drug Conjugates: Linker Technologies
17.4.1 Non-cleavable Linkers
17.4.2 Cleavable Linker
17.5 Antibody Drug Conjugates: List Of Linker And Linker-payload Technologies
17.6 Concluding Remarks
18 Assessment Of Non-clinical Data First In Human Dosing
18.1 Chapter Overview
18.2 Antibody Drug Conjugates: Non-clinical Studies
18.3 Ich S9 Guidelines
18.4 Investigational New Drug (Ind)-enabling Study Designs
18.4.1 Example Case: Kadcyla
18.5 Toxicities In Animal Models
18.6 Prediction Of Maximum Tolerated Dosage (Mtd) In Humans
18.7 Other Key Considerations For Study Design
19 Cost Price Analysis
19.1 Chapter Overview
19.2 Factors Contributing Towards The High Price Of Antibody-drug Conjugates
19.3 Antibody Drug Conjugates Market: Cost Price Analysis
19.3.1 On The Basis Of Associated Costs
19.3.2 On The Basis Of Competition
19.3.3 On The Basis Of Patient Segment
19.4 Reimbursement Considerations For Antibody-drug Conjugates
20 Case Study 1: Contract Manufacturing Of Antibody-drug Conjugates
20.1 Chapter Overview
20.2 Key Steps In Antibody Drug Conjugate Manufacturing Process
20.3 Technical Challenges Related To Antibody Drug Conjugate Manufacturing
20.4 Challenges Associated With Supply Chain And Method Transfer
20.5 Limitations Of In-house Manufacturing
20.6 Investments In Antibody Drug Conjugate Manufacturing Capability Expansions
20.7 Collaborations Established For Antibody-drug Conjugate Manufacturing
20.8 Growing Demand For Antibody-drug Conjugate Contract Manufacturing
20.9 Cmos With Linker Manufacturing Capabilities
20.10 Cmos With Hpapi / Cytotoxic Payload Manufacturing Capabilities
20.11 Cmos With Conjugation Capabilities
20.12 Antibody Drug Conjugate One-stop-shops
20.13 Increasing Demand For One-stop-shops
21 Case Study 2: Companion Diagnostics For Antibody Drug Conjugates Therapeutics
21.1 Chapter Overview
21.1.1 Advantages Of Companion Diagnostics
21.1.2 Challenges Associated With The Development Of Companion Diagnostics
21.2. Companion Diagnostics For Antibody Drug Conjugates
21.3 Companion Diagnostics For Antibody Therapeutics
21.3.1 Analysis By Target Antigen
21.3.2 Analysis By Type Of Cancer
21.4 Most Prominent Players: Analysis By Number Of Tests
22 Swot Analysis
22.1 Chapter Overview
22.2 Strengths
22.2.1 Improved Safety And Patient Adherence
22.2.2 Rise Of Next-generation Conjugation Technologies
22.2.3 Robust Pipeline With Multiple Late Stage Product Candidates
22.2.4 Growing Involvement Of Academic Institutes
22.3 Weaknesses
22.3.1 Technical Complexities Associated With Product Development
22.3.2 Manufacturing, Logistics And Supply Chain Challenges
22.3.3 Batch To Batch Inconsistencies
22.4 Opportunities
22.4.1 Increasing Collaborations And Vc Funding
22.4.2 Widening Therapeutics Reach
22.4.3 Life Cycle Management
22.4.4 Combination Therapies
22.4.5 Opportunities For Cmos
22.5 Threats
22.5.1 Failure Of Clinical / Marketed Candidates
22.5.2 Increased Competition From Other Therapeutic Classes
23. Market Forecast And Opportunity Analysis
23.1 Chapter Overview
23.2 Forecast Methodology And Key Assumptions
23.3 Global Antibody Drug Conjugates Market, Till 2035
23.3.1 Global Antibody Drug Conjugates Market: Distribution By Target Disease Indication, 2023 And 2035
23.3.1.1 Antibody Drug Conjugates Market For Breast Cancer, Till 2035
23.3.1.2 Antibody Drug Conjugates Market For B-cell Lymphoma, Till 2035
23.3.1.3 Antibody Drug Conjugates Market For Lung Cancer, Till 2035
23.3.1.4 Antibody Drug Conjugates Market For Multiple Myeloma, Till 2035
23.3.1.5 Antibody Drug Conjugates Market For Renal Cancer, Till 2035
23.3.1.6 Antibody Drug Conjugates Market For Gastric Cancer, Till 2035
23.3.1.7 Antibody Drug Conjugates Market For Cervical Cancer, Till 2035
23.3.1.8 Antibody Drug Conjugates Market For Acute Lymphoblastic Leukemia, Till 2035
23.3.1.9 Antibody Drug Conjugates Market For Other Disease Indications, Till 2035
23.3.2 Antibody Drug Conjugates Market: Distribution By Therapeutic Area, Current Year And 2035
23.3.2.1 Antibody Drug Conjugates Market For Solid Tumors, Till 2035
23.3.2.2 Antibody Drug Conjugates Market For Hematological Cancer, Till 2035
23.3.3 Global Antibody Drug Conjugates Market: Distribution By Linker, 2023 And 2035
23.3.3.1 Antibody Drug Conjugates Market For Valine-citrulline Linker, Till 2035
23.3.3.2 Antibody Drug Conjugates Market For Tetrapeptide-based Linker, Till 2035
23.3.3.3 Antibody Drug Conjugates Market For Succinimidyl-4-(N-maleimidomethyl) Cyclohexane-1-carboxylate Linker, Till 2035
23.3.3.4 Antibody Drug Conjugates Market For Maleimide Linker, Till 2035
23.3.3.5 Antibody Drug Conjugates Market For Maleimidocaproyl Linker, Till 2035
23.3.3.6 Antibody Drug Conjugates Market For Valine-alanine Linker, Till 2035
23.3.3.7 Antibody Drug Conjugates Market For Hydrazone (4-(4-acetylphenoxy) Butanoic Acid (Acbut) Linker, Till 2035
23.3.3.8 Antibody Drug Conjugates Market For Other Linkers, Till 2035
23.3.4 Antibody Drug Conjugates Market: Distribution By Type Of Payload, Current Year And 2035
23.3.4.1 Antibody Drug Conjugates Market For Monomethyl Auristatin E Payloads, Till 2035
23.3.4.2 Antibody Drug Conjugates Market For Dm1 Payloads, Till 2035
23.3.4.3 Antibody Drug Conjugates Market For Sn-38 / Irinotecan Payloads, Till 2035
23.3.4.4 Antibody Drug Conjugates Market For Monomethyl Auristatin F Payloads, Till 2035
23.3.4.5 Antibody Drug Conjugates Market For Duocarmycin Payloads, Till 2035
23.3.4.6 Antibody Drug Conjugates Market For Sg3199 Payloads, Till 2035
23.3.4.7 Antibody Drug Conjugates Market For Ozogamicin Payloads, Till 2035
23.3.4.8 Antibody Drug Conjugates Market For Dm4 Payloads, Till 2035
23.3.4.9 Antibody Drug Conjugates Market For Other Payloads, Till 2035
23.3.5 Global Antibody Drug Conjugates Market: Distribution By Target Antigen, Current Year And 2035
23.3.5.1 Antibody Drug Conjugates Market For Her-2 (Erbb2), Till 2035
23.3.5.2 Antibody Drug Conjugates Market For Cd79b, Till 2035
23.3.5.3 Antibody Drug Conjugates Market For Trop-2, Till 2035
23.3.5.4 Antibody Drug Conjugates Market For Bcma (Tnfrsf17 / Bcm), Till 2035
23.3.5.5 Antibody Drug Conjugates Market For Cd19, Till 2035
23.3.5.6 Antibody Drug Conjugates Market For Nectin 4, Till 2035
23.3.5.7 Antibody Drug Conjugates Market For Tissue Factor, Till 2035
23.3.5.8 Antibody Drug Conjugates Market For Cd22, Till 2035
23.3.5.9 Antibody Drug Conjugates Market For Cd30, Till 2035
23.3.5.10 Antibody Drug Conjugates Market For Ceacam5, Till 2035
23.3.5.11 Antibody Drug Conjugates Market For Other Target Antigens, Till 2035
23.3.6 Antibody Drug Conjugates Market: Distribution By Geographical Regions, Current Year And 2035
23.3.6.1 Antibody Drug Conjugates Market In North America, Till 2035
23.3.6.1.1 Antibody Drug Conjugates Market In Us, Till 2035
23.3.6.1.2 Antibody Drug Conjugates Market In Canada, Till 2035
23.3.6.2 Antibody Drug Conjugates Market In Europe, Till 2035
23.3.6.2.1 Antibody Drug Conjugates Market In Germany, Till 2035
23.3.6.2.2 Antibody Drug Conjugates Market In Uk, Till 2035
23.3.6.2.3 Antibody Drug Conjugates Market In France, Till 2035
23.3.6.2.4 Antibody Drug Conjugates Market In Italy, Till 2035
23.3.6.2.5 Antibody Drug Conjugates Market In Spain, Till 2035
23.3.6.3 Antibody Drug Conjugates Market In Asia-pacific, Till 2035
23.3.6.3.1 Antibody Drug Conjugates Market In China, Till 2035
23.3.6.3.2 Antibody Drug Conjugates Market In Australia, Till 2035
23.3.6.3.3 Antibody Drug Conjugates Market In Japan, Till 2035
23.4 Antibody Drug Conjugates Market: Product-wise Sales Forecast, Till 2035
23.4.1 Adcetris
23.4.1.1 Sales Forecast (Usd Billion)
23.4.1.2 Net Present Value (Usd Billion)
23.4.1.3 Value Creation Analysis
23.4.2 Aidixi
23.4.2.1 Sales Forecast (Usd Billion)
23.4.2.2 Net Present Value (Usd Billion)
23.4.2.3 Value Creation Analysis
23.4.3 Besponsa
23.4.3.1 Sales Forecast (Usd Billion)
23.4.3.2 Net Present Value (Usd Billion)
23.4.3.3 Value Creation Analysis
23.4.4 Blenrep
23.4.4.1 Sales Forecast (Usd Billion)
23.4.4.2 Net Present Value (Usd Billion)
23.4.4.3 Value Creation Analysis
23.4.5 Elahere
23.4.5.1 Sales Forecast (Usd Billion)
23.4.5.2 Net Present Value (Usd Billion)
23.4.5.3 Value Creation Analysis
23.4.6 Enhertu
23.4.6.1 Sales Forecast (Usd Billion)
23.4.6.2 Net Present Value (Usd Billion)
23.4.6.3 Value Creation Analysis
23.4.7 Kadcyla
23.4.7.1 Sales Forecast (Usd Billion)
23.4.7.2 Net Present Value (Usd Billion)
23.4.7.3 Value Creation Analysis
23.4.8 Padcev
23.4.8.1 Sales Forecast (Usd Billion)
23.4.8.2 Net Present Value (Usd Billion)
23.4.8.3 Value Creation Analysis
23.4.9 Polivy
23.4.9.1 Sales Forecast (Usd Billion)
23.4.9.2 Net Present Value (Usd Billion)
23.4.9.3 Value Creation Analysis
23.4.10. Tivdak
23.4.10.1 Sales Forecast (Usd Billion)
23.4.10.2 Net Present Value (Usd Billion)
23.4.10.3 Value Creation Analysis
23.4.11. Trodelvy
23.4.11.1 Sales Forecast (Usd Billion)
23.4.11.2 Net Present Value (Usd Billion)
23.4.11.3 Value Creation Analysis
23.4.12. Zynlonta
23.4.12.1 Sales Forecast (Usd Billion)
23.4.12.2 Net Present Value (Usd Billion)
23.4.12.3 Value Creation Analysis
23.4.13. Datopotamab Deruxtecan
23.4.13.1 Sales Forecast (Usd Billion)
23.4.13.2 Net Present Value (Usd Billion)
23.4.13.3 Value Creation Analysis
23.4.14. Patritumab Deruxtecan
23.4.14.1 Sales Forecast (Usd Billion)
23.4.14.2 Net Present Value (Usd Billion)
23.4.14.3 Value Creation Analysis
23.4.15. Shr-a1811
23.4.15.1 Sales Forecast (Usd Billion)
23.4.15.2 Net Present Value (Usd Billion)
23.4.15.3 Value Creation Analysis
23.4.16. Skb264
23.4.16.1 Sales Forecast (Usd Billion)
23.4.16.2 Net Present Value (Usd Billion)
23.4.16.3 Value Creation Analysis
23.4.17. Taa013
23.4.17.1 Sales Forecast (Usd Billion)
23.4.17.2 Net Present Value (Usd Billion)
23.4.17.3 Value Creation Analysis
23.4.18. Telisotuzumab Vedotin
23.4.18.1 Sales Forecast (Usd Billion)
23.4.18.2 Net Present Value (Usd Billion)
23.4.18.3 Value Creation Analysis
23.4.19. Trastuzumab Duocarmazine
23.4.19.1 Sales Forecast (Usd Billion)
23.4.19.2 Net Present Value (Usd Billion)
23.4.19.3 Value Creation Analysis
23.4.20. Tusamitamab Ravtansine
23.4.20.1 Sales Forecast (Usd Billion)
23.4.20.2 Net Present Value (Usd Billion)
23.4.20.3 Value Creation Analysis
23.4.21. Upifitamab Rilsodotin
23.4.21.1 Sales Forecast (Usd Billion)
23.4.21.2 Net Present Value (Usd Billion)
23.4.21.3 Value Creation Analysis
24 Executive Insights
24.1 Chapter Overview
24.2 Oxford Biotherapeutics
24.2.1 Company Snapshot
24.2.2 Interview Transcript: Christian Rohlff, Founder And Chief Executive Officer
24.3 Angiex
24.3.1 Company Snapshot
24.3.2 Interview Transcript: Paul Jaminet, Founder And Chief Operating Officer
24.4 Syndivia
24.4.1 Company Snapshot
24.4.2 Interview Transcript: Sasha Koniev, Co-founder And Chief Executive Officer
24.5 Bsp Pharmaceuticals
24.5.1 Company Snapshot
24.5.2 Interview Transcript: Aldo Braca, President And Chief Executive Officer And Giorgio Salciarini, Technical Business Development Senior Manager
24.6 Polytherics (An Abzena Company)
24.6.1 Company Snapshot
24.6.2 Interview Transcript: John Burt, Former Chief Executive Officer
24.7 Curemeta
24.7.1 Company Snapshot
24.7.2 Interview Transcript: Michael Schopperle, Founder And Chief Executive Officer
24.8 Cytomx Therapeutics
24.8.1 Company Snapshot
24.8.2 Interview Transcript: Jeff Landau, Chief Business Officer And Head Of Strategy
24.9 Nbe-therapeutics
24.9.1 Company Snapshot
24.9.2 Interview Transcript: Wouter Verhoeven, Former Chief Business Officer
24.10 Cerbios-pharma
24.10.1. Company Snapshot
24.10.2. Interview Transcript: Denis Angioletti, Chief Commercial Officer
24.11 Eisai
24.11.1. Company Snapshot
24.11.2. Interview Transcript: Toshimitsu Uenaka, President And Takashi Owa, Senior Vice President And Chief Scientific Officer
24.12 Abtis
24.12.1. Company Snapshot
24.12.2. Interview Transcript: Justin Oh, Chief Business Officer
24.13 Ambrx
24.13.1. Company Snapshot
24.13.2. Interview Transcript: Sukumar Sakamuri, Former Vice President And Head Of Chemistry
24.14 Synaffix
24.14.1. Company Snapshot
24.14.2. Interview Transcript: Anthony Deboer, Vice President, Business Development
24.15 Pierre Fabre
24.15.1. Company Snapshot
24.15.2. Interview Transcript: Christian Bailly, Former Director
24.16 Catalent Pharma Solutions
24.16.1. Company Snapshot
24.16.2. Interview Transcript: Jennifer L. Mitcham, Former Director, Smartag Adcs And Bioconjugates And Stacy Mcdonald, Former Group Product Manager
24.17 Lonza
24.17.1. Company Snapshot
24.17.2. Interview Transcript: Laurent Ducry, Former Head Of Bioconjugates Commercial Development
24.18 Piramal Healthcare
24.18.1. Company Snapshot
24.18.2. Interview Transcript: Mark Wright, Former Site Head
24.19 Ajinomoto Bio-pharma Services
24.19.1. Company Snapshot
24.19.2. Interview Transcript: Tatsuya Okuzumi, General Manager, Business Development, Cdmo Business
24.20 Cardiff University
24.20.1. Company Snapshot
24.20.2. Interview Transcript: Alan Burnett, Professor, School Of Medicine
24.21 Anonymous, Director, Business Development, Leading Cmo
24.22 Anonymous, Chief Executive Officer, Leading Cmo
25 Conclusion
26 Appendix 1: Tabulated Data
27 Appendix 2: List Of Companies And Organizations

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