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PUBLISHER: KuicK Research | PRODUCT CODE: 2069635

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PUBLISHER: KuicK Research | PRODUCT CODE: 2069635

Global Cancer Peptide Drug Market Opportunity, Approved Drug Dosage, Price, Sales & Clinical Trials Insight 2031

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Description

Table of Contents

List of Tables

Global Cancer Peptide Drug Market Opportunity, Approved Drug Dosage, Price, Sales & Clinical Trials Insight 2031 Report Finding & Highlights:

  • Research Methodology
  • Global Cancer Peptide Drug Market Opportunity: > USD 25 Billion By 2031
  • Global & Regional Market trends Insight
  • Insight On Cancer Peptides In Clinical Trials: > 240 Drugs
  • Cancer Peptide Clinical Trials Insight By Company, Country, Indication & Phase
  • Number Of Approved Cancer Peptides: > 30 Drugs
  • Insight On Approved Cancer Peptide By Brand Name, Indication, Company, Location, Collaborations
  • Approved Peptide Cancer Drugs Sales Insights, Patent, Dosage and Price Analysis
  • Venom Peptides As New Opportunity For Cancer Peptide Therapy

Need For Peptide Therapeutics In Cancer Treatment & Why This Report?

Global cancer peptide therapeutics market has transformed itself into a scientifically diverse yet active clinical field in cancer drug development due to its highly desirable potential for molecularly targeted and versatile cancer treatment modalities. Peptides hold a key position as they can be rationally designed to target and modulate complex cancer biology: receptor signaling pathways, intracellular protein interactions, cancer immune system targeting, and delivery to the tumor environment. As such, they represent a significant aspect of the next generation oncology research and development market.

In this report, we undertake a comprehensive analysis of global cancer peptide therapeutics market, highlighting clinical development efforts, partnership and collaboration activities, investment trends, and the development of novel scientific avenues, all aimed at assisting investors, pharmaceutical companies and stakeholders make their decision in the cancer treatment landscape with an effective use of peptide based innovative approaches.

Clinical Development Insight Included In Report

The report offers an extensive analysis of current oncology programs involving peptides at various levels of clinical development, starting with the first human studies to advanced stages and even registration studies, as well as the further assessment of already existing peptide therapies. The scope of clinical trials covers various cancer types, both commonly encountered and quite rare ones, thus demonstrating the increasing importance of peptide based solutions in oncology treatment.

The analysis also covers the important characteristics of these clinical trials, including whether monotherapy or combinations were used, targeted patient populations, lines of therapy, routes of administration, clinical trial designs, sponsoring organizations, development partners, and licensing agreements. The report also provides an assessment of the results achieved in terms of efficacy and safety from clinical trials using peptides in oncology therapies, specifically focusing on the percentage of responders, progression free survival rates, and overall survival figures. It further evaluates the potential for peptides to be used in combination therapies with chemotherapy, immunotherapies, and other antineoplastic treatments.

Major Companies Driving Peptide Therapeutics R&D

In this regard, the peptide oncology landscape includes strong contributions from big pharma companies as well as small biotechnology firms. In particular, significant involvement of companies like Eli Lilly and Novartis in peptide based approaches through licensing, partnerships, and radioligand development programs can be observed. Peptide based techniques are currently used by these companies in the framework of their comprehensive oncology pipelines as part of combination approaches or targeted treatment strategies for a wide variety of cancers.

Additionally, smaller biotechnology companies like Avacta Therapeutics and Gate2Brain have been actively developing promising peptide based anticancer compounds in preclinical and clinical studies. Such companies have been collaborating with more mature players on translating novel peptides into treatment candidates within the field. The involvement of big pharma in this field, together with the innovative efforts of emerging biotechnology firms, ensures ongoing progress in peptide oncology.

Report Indicating Future Development Of Cancer Peptide Therapeutics

This report outlines an organized assessment of the ongoing development of peptide therapies against cancer, detailing developments from early research programs through to clinical trials and even to later stage validation studies. Peptides continue to demonstrate increasing utility in targeting multiple cancers, ranging from more common solid cancers to some of the rarer forms. One particular area of interest is the use of synthetic peptides in targeting protein-protein interactions within the cell and oncogenic signal transduction pathways involved in driving tumor proliferation and survival.

Moreover, developments in tumor penetration and delivery of peptides in cancer are noted, along with efforts towards improving selectivity within the tumor environment without causing toxicity to other parts of the body. In addition, developments in the peptide based immunotherapy approaches, including those targeting T-cell proliferation and stimulation, have been discussed, alongside peptide guidance of radiopharmaceuticals to tumors. Overall, this shows a wide range of ongoing progress in the field of peptide therapy in oncology

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Table of Contents

1. Introduction To Peptide Therapeutics

  • 1.1 Overview Of Peptide Therapeutics
  • 1.2 Classification Of Anticancer Peptides
  • 1.3 Designing & Functioning of Peptide Drugs
  • 1.4 Significance Of Peptides As Cancer Therapeutics
  • 1.5 Role of Peptides in Cancer Immunotherapy

2. Different Approaches Of Peptides In Cancer Therapeutics

  • 2.1 Hormonal Peptides
  • 2.2 Peptide Based Radionuclide Drug Carriers
  • 2.3 Peptide Vaccines
  • 2.4 Cytotoxic Drug Carriers
  • 2.5 Anticancer Peptides
  • 2.6 Tumor-Targeting and Cell-Penetrating Peptides
  • 2.7 Peptide Nanomedicines
  • 2.8 Receptor Antagonist and PPI-Modulating Peptides
  • 2.9 Emerging Approaches

3. Global Cancer Peptide Drug Market Insight

  • 3.1 Current Market Scenario
  • 3.2 Future Market Opportunities

4. Cancer Peptide Research & Market Trends by Country

  • 4.1 US
  • 4.2 China
  • 4.3 Europe
  • 4.4 Canada
  • 4.5 UK
  • 4.6 Australia
  • 4.7 Japan
  • 4.8 South Korea
  • 4.9 India
  • 4.10 Middle East
  • 4.11 Latin America

5. Cancer Peptide Research & Market Trends By Indication

  • 5.1 Breast Cancer
  • 5.2 Hematological Malignancies
  • 5.3 Urothelial Cancer
  • 5.4 Prostate Cancer
  • 5.5 Lung Cancer
  • 5.6 Skin Cancer
  • 5.7 Gastrointestinal Cancer
  • 5.8 Gynecological Cancer
  • 5.9 CNS Cancers

6. Marketed Cancer Peptides Drugs & Generics Insight - Availability, Cost, Dosage, Indication & Patent Insight

  • 6.1 Firmagon (Degarelix)
  • 6.1 Eligard (Leuprolide)
  • 6.2 Lupron (Leuprolide Acetate)
  • 6.3 Gonax (Degarelix Acetate)
  • 6.4 Trelstar (Triptorelin)
  • 6.5 Decapeptyl/Decapeptyl DR (Treptorelin Acetate or Pamoate)
  • 6.6 Velcade (Bortizomib)
  • 6.7 Ninlaro (Ixazomib)
  • 6.8 Kyprolis (Carfilzomib)
  • 6.9 Istodax (Romidepsin)
  • 6.10 Zoladex (Goserelin)
  • 6.11 Cosmegen (Dactinomycin)
  • 6.12 Somatuline Depot (Lanreotide)
  • 6.13 Sandostatin/ Sandostatin LAR (Octreotide Acetate)
  • 6.14 Bynfezia Pen (Octreotide)
  • 6.15 Lutathera (Lutetium Lu 177 dotatate)
  • 6.16 Mepact (Mifamurtide)
  • 6.17 Netspot (Gallium Ga 68 dotatate)
  • 6.18 Camcevi (Leuprolide)

7. Marketed Cancer Peptides Drugs Sales Insight

  • 7.1 Kyprolis
  • 7.2 Zoladex
  • 7.3 Lutathera
  • 7.4 Sandostatin
  • 7.5 Somatuline
  • 7.6 Decapeptyl SR
  • 7.7 Ninlaro
  • 7.8 Velcade
  • 7.9 Lupron

8. Global Peptide Cancer Drugs Clinical Trials Insight By Company, Country, Indication & Phase

  • 8.1 Research
  • 8.2 Preclinical
  • 8.3 Phase 0
  • 8.4 Phase I
  • 8.5 Phase I/II
  • 8.6 Phase II
  • 8.7 Phase II/III
  • 8.8 Phase III
  • 8.9 Preregistration
  • 8.10 Registered

9. Marketed Peptide Cancer Drugs Clinical Insight By Company, Country & Indication

10. Venom Peptides: New Era For Cancer Peptide Therapy

  • 10.1 Bee Venom-Derived Peptides
  • 10.2 Scorpion Venom-Derived Peptides
  • 10.3 Snake Venom-Derived Peptides
  • 10.4 Spider Venom-Derived Peptides
  • 10.5 Cone Snail Venom-Derived Peptides

11. Global Peptide Cancer Drug Market Dynamics

  • 11.1 Favorable Market Parameters & Opportunities
  • 11.2 Commercialization Challenges & Strategic Solutions

12. Therapeutic Peptide Targets

  • 12.1 Signal Transduction Pathways
  • 12.2 Cell Cycle Regulators
  • 12.3 Apoptosis/Cell-Death Modulators
  • 12.4 Tumor Suppressor Targeting peptides
  • 12.5 Transcription Factor-Targeting Peptides
  • 12.6 DNA Repair Pathway Inhibitors
  • 12.7 Anti-Angiogenic Peptides
  • 12.8 Immunomodulatory Peptides
  • 12.9 Membrane-Disrupting/Oncolytic Peptides

13. Peptide Drugs v/s Conventional Cancer Therapeutics

  • 13.1 Peptide Therapeutics v/s Chemotherapy
  • 13.2 Peptide Therapeutics vs Immunotherapies
  • 13.3 Peptide Therapeutics vs Gene Therapy

14. Competitive Landscape

  • 14.1 3B Pharmaceuticals
  • 14.2 APIM Therapeutics
  • 14.3 AsclepiX Therapeutics
  • 14.4 Bicycle Therapeutics
  • 14.5 Biohaven Labs
  • 14.6 BrightPath Biotherapeutics
  • 14.7 Bristol-Myers Squibb
  • 14.8 Gnubiotics Sciences
  • 14.9 IDP Pharma
  • 14.10 Janux Therapeutics
  • 14.11 Medikine
  • 14.12 Modulation Therapeutics
  • 14.13 Novartis
  • 14.14 Oncopeptides
  • 14.15 Parabilis Medicines
  • 14.16 PeptiDream
  • 14.17 Perspective Therapeutics
  • 14.18 Pharm-Sintez
  • 14.19 Sapience Therapeutics
  • 14.20 Vigeo Therapeutics
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List of Figures

  • Figure 1-1: Functional Role Of Peptides In The Human Body
  • Figure 1-2: Historical Timeline Of Peptide Therapeutics
  • Figure 1-3: Anticancer Peptides - Classification
  • Figure 1-4: Traditional Structure-Based Design Strategies Used In Peptide Drug Discovery
  • Figure 1-5: Peptides - Significance As Cancer Therapeutics
  • Figure 1-6: Peptides - Role In Cancer Immunotherapy
  • Figure 2-1: Hormonal Peptides In Cancer Therapy
  • Figure 2-2: GnRH Therapy Mechanism
  • Figure 2-3: Somatostatin-Based Targeted Therapy
  • Figure 2-4: GHRH-IGF Axis
  • Figure 2-5: Peptide Radiopharmaceutical Structure
  • Figure 2-6: Peptide-Based Radionuclide Drug Carriers
  • Figure 2-7: Theranostic Workflow
  • Figure 2-8: Peptide Vaccine Immunotherapy
  • Figure 2-9: Peptide-Based Drug Delivery In Cancer
  • Figure 2-10: Structural Classification Of Anticancer Peptides
  • Figure 2-11: Mechanistic Overview Of Anticancer Peptides
  • Figure 2-12: Functional Roles Of Tumor-Targeting Peptides & Cell-Penetrating Peptides In Cancer Therapy
  • Figure 2-13: Major Internalization Pathways Of Cell-Penetrating Peptides
  • Figure 2-14: Design Of Bifunctional Peptide Constructs
  • Figure 2-15: Activatable Cell-Penetrating Peptide Strategy
  • Figure 2-16: Integration Of Peptides & Nanotechnology For Precision Oncology
  • Figure 2-17: Classification Of Receptor Antagonist & PPI-Modulating Peptides
  • Figure 2-18: Inhibition Of Oncogenic Protein-Protein Interactions
  • Figure 2-19: Modern Technologies For Peptide Discovery
  • Figure 2-20: Stabilization Of a-Helical Peptides By Stapling
  • Figure 2-21: Structural Advantages Of Cyclic Peptide Therapeutics
  • Figure 2-22: Foldamer-Based Mimics Of Protein Secondary Structures
  • Figure 2-23: Artificial Intelligence-Driven Next-Generation Peptide Design
  • Figure 3-1: Global - Peptide Therapeutic Market Size (US$ Billion), 2024 - 2031
  • Figure 3-2: Global - Peptide Oncology Drugs Market Size (US$ Billion), 2024 - 2031
  • Figure 3-3: Global Cancer Peptide Therapeutics Market - Future Opportunities
  • Figure 5-1: 17-328 Phase 1 (NCT03362060) Study - Initiation & Completion Year
  • Figure 5-2: TH1902-CTR-0001 Phase 1 (NCT04706962) Study - Initiation & Completion Year
  • Figure 5-3: PQ203-001 Phase 1 (NCT07190469) Study - Initiation & Completion Year
  • Figure 5-4: NCI-2014-02621 Phase 1 (NCT02334865) Study - Initiation & Completion Year
  • Figure 5-5: 20190675 Phase 1 (NCT04365179) Study - Initiation & Completion Year
  • Figure 5-6: BT5528-100 Phase 1/2 (NCT04180371) Study - Initiation & Completion Year
  • Figure 5-7: 202412028 Phase 1 (NCT06529822) Study - Initiation & Completion Year
  • Figure 5-8: PRMC 20-027 Phase 1 (NCT05010200) Study - Initiation & Completion Year
  • Figure 5-9: TB001 Version 2.1_2024-10-25 Phase 1/2 (NCT06400160) Study - Initiation & Completion Year
  • Figure 5-10: RAD301.2022-001 Phase 1 (NCT05799274) Study - Initiation & Completion Year
  • Figure 5-11: CFXX489A12101 Phase 1 (NCT06562192) Study - Initiation & Completion Year
  • Figure 5-12: CGCJ904A12101 Phase 1 (NCT07261631) Study - Initiation & Completion Year
  • Figure 5-13: NCI-2017-01781 Phase 1 (NCT03300817) Study - Initiation & Completion Year
  • Figure 5-14: TH1902-CTR-0001 Phase 1 (NCT04706962) Study - Initiation & Completion Year
  • Figure 5-15: NeoLIPA Phase 2 (NCT06651151) Study - Initiation & Completion Year
  • Figure 5-16: KEYNOTE-D18 Phase 3 (NCT05155254) Study - Initiation & Completion Year
  • Figure 5-17: ST316-101 Phase 1 (NCT05848739) Study - Initiation & Completion Year
  • Figure 5-18: FOG-001-101 Phase 1/2 (NCT05919264) Study - Initiation & Completion Year
  • Figure 5-19: RYZ801-101 Phase 1/2 (NCT06726161) Study - Initiation & Completion Year
  • Figure 5-20: AMPLIFY-7P Phase 1/2 (NCT05726864) Study - Initiation & Completion Year
  • Figure 5-21: CDMRP-CA170223 Phase 2 (NCT03796884) Study - Initiation & Completion Year
  • Figure 5-22: TH1902-CTR-0001 Phase 1 (NCT04706962) Study - Initiation & Completion Year
  • Figure 5-23: CBX-12-201 Phase 2 (NCT06315491) Study - Initiation & Completion Year
  • Figure 5-24: BT5528-100 Phase 1/2 (NCT04180371) Study - Initiation & Completion Year
  • Figure 5-25: RAD301.2022-001 Phase 1 (NCT05799274) Study - Initiation & Completion Year
  • Figure 5-26: NCI-2015-00694 Phase 2 (NCT02455557) Study - Initiation & Completion Year
  • Figure 5-27: INTERCEPT-H3 Phase 1 (NCT04808245) Study - Initiation & Completion Year
  • Figure 5-28: ViCTOry Phase 1 (NCT05609994) Study - Initiation & Completion Year
  • Figure 5-29: NeoVax Phase 1 (NCT02287428) Study - Initiation & Completion Year
  • Figure 5-30: PRiME Phase 1 (NCT03299309) Study - Initiation & Completion Year
  • Figure 5-31: ST101-101 Phase 1/2 (NCT04478279) Study - Initiation & Completion Year
  • Figure 6-1: Firmagon - Patent Issue & Expiration Years
  • Figure 6-2: Firmagon - Price Per Unit & Supply Of Powder For Subcutaneous Injection (US$), June'2026
  • Figure 6-3: Firmagon - Starting & Maintenance Dosage (mg)
  • Figure 6-4: Firmagon - Treatment Costs Of Initial Cycle & Maintenance Cycle (US$), June'2026
  • Figure 6-5: Eligard - Cost Of Subcutaneous Powder For Injection By Dose (US$), June'2026
  • Figure 6-6: Eligard - Recommended Dosage For Prostate Cancer On Monthly Basis (mg)
  • Figure 6-7: Eligard - Prostate Cancer Annual Treatment Cost By Dose (US$), June'2026
  • Figure 6-8: Lupron Sustained Release Preparation - Patent Issue & Expiration Year
  • Figure 6-9: Lupron - Price Of Lupron Depot Intramuscular Kits (US$), June'2026
  • Figure 6-10: Lupron - Price of Lupron Depot Intramuscular Powder By Dose (US$), June'2026
  • Figure 6-11: Lupron - Annual Treatment Costs By Intramuscular Kit Dose (US$), June'2026
  • Figure 6-12: Lupron - Annual Treatment Costs By Intramuscular Powder Dose (US$), June'2026
  • Figure 6-13: Gonax - Cost of Supply Of Powder For Subcutaneous Injection (US$), June'2026
  • Figure 6-14: Gonax - Starting & Maintenance Dosage (mg)
  • Figure 6-15: Trelstar - Patent Issue & Expiration Year
  • Figure 6-16: Trelstar - Cost Per Unit & Supply Of Powder For Intramuscular Injection (US$), June'2026
  • Figure 6-17: Trelstar - Annual Treatment Cost By Dose (US$), June'2026
  • Figure 6-18: Decapeptyl SR - Price For A Supply of 3mg, 11.25mg & 22.5mg Powder For Injection (GBP/US$), June'2026
  • Figure 6-19: Decapeptyl SR - Recommended Dosage For Prostate Cancer (mg/week)
  • Figure 6-20: Decapeptyl SR - Annual Prostate Cancer Treatment Cost By Dose (US$), June'2026
  • Figure 6-21: Velcade - Price Of 3.5 mg Powder For Injection (US$), June'2026
  • Figure 6-22: Bortizomib - Price Of Injectable Powder For Injection By Dose (US$), June'2026
  • Figure 6-23: Ninlaro - Patent Issue & Expiration Year
  • Figure 6-24: US & EU - Price Per Unit & Supply Of Ninlaro Capsule (US$), June'2026
  • Figure 6-25: Ninlaro - Recommended Dose & Dose Reductions For Multiple Myeloma Treatment (mg/week)
  • Figure 6-26: Kyprolis - Price Of 10mg, 30mg & 60mg Intravenous Powder For Injection (US$), June'2026
  • Figure 6-27: Kyprolis - Initial Dose & Maintenance Dose For Multiple Myeloma Treatment (mg/m2/week)
  • Figure 6-28: Kyprolis - Initial Dose & Maintenance Dose As Monotherapy For Multiple Myeloma Treatment (mg/m2 Twice a Week)
  • Figure 6-29: Romidepsin - FDA Approval Year By Indication
  • Figure 6-30: Istodax & Romidepsin - Price Per Supply Of Intravenous Powder (US$), June'2026
  • Figure 6-31: Zoladex - Cost Of Implant By Dose (US$), June'2026
  • Figure 6-32: Zoladex - Recommended Dose For Prostate Cancer Management On Monthly Basis (mg/week)
  • Figure 6-33: Zoladex - Annual Treatment Cost Using 3.6mg & 10.8mg Implant (US$), June'2026
  • Figure 6-34: Dactinomycin - Price For Generic & Branded 0.5 mg Powder For Injection (US$), June'2026
  • Figure 6-35: Somatuline Depot - Price Per Unit & supply of Subcutaneous Solution By Dose (US$), June'2026
  • Figure 6-36: Lanreotide - Price Per Unit & Supply Of Subcutaneous Solution (US$), June'2026
  • Figure 6-37: Somatuline Depot - Treatment Cost Of 1 Cycle & Annual Treatment Cost of GEP-NETs & Carcinoid Syndrome (US$), June'2026
  • Figure 6-38: Sandostatin - Price Per Unit & 10-Vial Supply By Dose (US$), June'2026
  • Figure 6-39: Sandostatin LAR - Price Of Intramuscular Powder For Injection By Dose (US$), June'2026
  • Figure 6-40: Octreotide - Price Per Unit & Supply Of 10 mL Injectable Solution (US$), June'2026
  • Figure 6-41: Octreotide - Price Per Unit & Supply Of 5 mL Injectable Solution (US$), June'2026
  • Figure 6-42: Octreotide - Price Per Unit & Supply Of Intramuscular Powder For Injection By Dose (US$), June'2026
  • Figure 6-43: Sandostatin - Mean Initial Dose For Treatment Of Carcinoid Tumor & Vasoactive Intestinal Peptide Tumor (mg/day)
  • Figure 6-44: Bynfezia Pen - Patent Issue & Expiration Year
  • Figure 6-45: Bynfezia Pen - Price Per Unit & Supply Of Subcutaneous Solution (US$), June'2026
  • Figure 6-46: Bynfezia Pen - Mean Dose For First 2 Week & Subsequent Weeks (mcg/day)
  • Figure 6-47: Lutathera - Patent Issue & Expiration Years
  • Figure 6-48: Lutathera - RDP & ODE Regional Expiry Years
  • Figure 6-49: Mepact - Recommended Number Of Dose Administration/Week for 12 & 24 Weeks Treatment
  • Figure 7-1: Kyprolis - Global Sales (US$ Million), 2020-2026
  • Figure 7-2: Kyprolis - Global Sales By Region (US$ Million), Q1'2026
  • Figure 7-3: Kyprolis - Global Sales By Region (US$ Million), 2025
  • Figure 7-4: Kyprolis - US Annual Sales (US$ Million), 2020-2026
  • Figure 7-5: Kyprolis - ROW Annual Sales (US$ Million), 2020-2026
  • Figure 7-6: Zoladex - Global Sales (US$ Million), 2020-2026
  • Figure 7-7: Zoladex - Global Sales By Region (US$ Million), Q1'2026
  • Figure 7-8: Zoladex - Global Sales By Region (US$ Million), 2025
  • Figure 7-9: Zoladex - US Annual Sales (US$ Million), 2020-2026
  • Figure 7-10: Zoladex - Europe Annual Sales (US$ Million), 2020-2026
  • Figure 7-11: Zoladex - Emerging Markets Annual Sales (US$ Million), 2020-2026
  • Figure 7-12: Zoladex - ROW Annual Sales (US$ Million), 2020-2026
  • Figure 7-13: Lutathera - Global Sales (US$ Million), 2020-2026
  • Figure 7-14: Lutathera - Global Sales By Region (US$ Million), 2024-2026
  • Figure 7-15: Lutathera - Global Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-16: Lutathera - US Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-17: Lutathera - ROW Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-18: Sandostatin - Global Sales (US$ Million), 2020-2026
  • Figure 7-19: Sandostatin - Global Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-20: Sandostatin - US Annual Sales (US$ Million), 2020-2026
  • Figure 7-21: Sandostatin - US Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-22: Sandostatin - ROW Annual Sales (US$ Million), 2020-2026
  • Figure 7-23: Sandostatin - ROW Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-24: Somatuline - Global Sales (US$ Million), 2020-2026
  • Figure 7-25: Somatuline - Global Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-26: Somatuline - North America Sales (US$ Million), 2022-2026
  • Figure 7-27: Somatuline - NA Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-28: Somatuline - Europe Sales (US$ Million), 2022-2026
  • Figure 7-29: Somatuline - Europe Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-30: Somatuline - ROW Sales (US$ Million), 2022-2026
  • Figure 7-31: Somatuline - ROW Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-32: Decapeptyl - Global Sales (US$ Million), 2020-2026
  • Figure 7-33: Decapeptyl - Global Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-34: Decapeptyl - Europe Sales (US$ Million), 2022-2026
  • Figure 7-35: Decapeptyl - Europe Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-36: Decapeptyl - ROW Sales (US$ Million), 2022-2026
  • Figure 7-37: Decapeptyl - ROW Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-38: Ninlaro - Global Sales (US$ Million), 2020-2026
  • Figure 7-39: Ninlaro - Global Quarterly Sales (US$ Million), Q1-Q4'2025
  • Figure 7-40: Velcade - Global Sales (US$ Million), 2020-2024
  • Figure 7-41: Velcade - Global Quarterly Sales (US$ Million), Q1-Q4'2023
  • Figure 7-42: Global - Lupron Annual Sales (US$ Million), 2019-2021
  • Figure 7-43: US - Lupron Annual Sales (US$ Million), 2019-2021
  • Figure 7-44: ROW - Lupron Annual Sales (US$ Million), 2019-2021
  • Figure 8-1: Global - Peptide Cancer Drug Clinical Pipeline by Phase (Number of Drugs), 2026
  • Figure 10-1: Venom-Derived Peptides In Cancer Therapy
  • Figure 10-2: Bee Venom-Derived Peptides In Cancer Therapy
  • Figure 10-3: Melittin - Mechanism Of Action
  • Figure 10-4: Scorpion Venom-Derived Peptides In Cancer Therapy
  • Figure 10-5: Hallmarks Of Cancer Targeted By Scorpion Venom Peptides
  • Figure 10-6: Snake Venom-Derived Peptides As Anticancer Agents
  • Figure 10-7: Spider Venom-Derived Peptides In Cancer Therapy
  • Figure 10-8: Nanotechnology-Enhanced Lycosin-I Therapy
  • Figure 10-9: Cone Snail Venom-Derived Peptides In Cancer Therapy
  • Figure 11-1: Global Peptide Cancer Drug Market - Drivers & Opportunities
  • Figure 11-2: Global Peptide Cancer Drug Market - Key Challenges & Corresponding Solutions
  • Figure 12-1: Classification & Molecular Targets of Anticancer Therapeutic Peptides
  • Figure 12-2: Therapeutic Peptide Targets In Cancer Signal Transduction Networks
  • Figure 12-3: Cell Cycle & Major Peptide Intervention Points
  • Figure 12-4: Checkpoint & Mitotic Targets For Therapeutic Peptides
  • Figure 12-5: Major Peptide Targets In Apoptosis Signaling
  • Figure 12-6: BH3 Mimetic Mechanism
  • Figure 12-7: Transcription Factor-Targeting Peptides In Cancer
  • Figure 12-8: Mechanisms Of Peptide Inhibition Of Transcription Factors
  • Figure 12-9: Dominant-Negative Peptide Strategy
  • Figure 12-10: Challenges & Solutions In Transcription Factor Peptide Therapy
  • Figure 12-11: DNA Damage Response & Sites Of Peptide Intervention
  • Figure 12-12: Synthetic Lethality In DNA Repair
  • Figure 12-13: Anti-Angiogenic Peptides - Examples
  • Figure 12-14: Anti-Angiogenic Peptides - Classification
  • Figure 12-15: Overall Mechanism Of Immunomodulatory Peptides
  • Figure 12-16: Dual Action Pathway
  • Figure 12-17: Membrane-Disrupting Peptides - Overall Mechanism
  • Figure 12-18: Cancer Selectivity Mechanism

List of Tables

  • Table 1-1: Source Or Chemical Nature Of Early Peptides
  • Table 2-1: Classification Of Hormonal Peptide Therapeutics
  • Table 2-2: Major Receptor Targets For Peptide Radionuclide Delivery
  • Table 2-3: Types Of Peptide Cancer Vaccines
  • Table 2-4: Common Cytotoxic Payloads
  • Table 2-5: Types Of Peptide-Based Drug Delivery Systems
  • Table 2-6: Classification Of Cell-Penetrating Peptides
  • Table 2-7: Comparison Between TTPs & CPPs
  • Table 2-8: Stimuli-Responsive Peptide Nanomedicine Systems
  • Table 2-9: Nanocarrier Platforms In Peptide Nanomedicine
  • Table 2-10: Comparison Of Conventional Drug Delivery & Peptide Nanomedicine
  • Table 2-11: Peptide Engineering Strategies For PPI Inhibitors
  • Table 2-12: Types Of PPI-Modulating Peptides
  • Table 2-13: Comparison Of PPI-Modulating Peptides & Receptor Antagonist Peptides
  • Table 2-14: Limitations Addressed By Emerging Peptide Therapeutics
  • Table 2-15: Comparison Of Emerging Peptide Platforms
  • Table 2-16: Artificial Intelligence Tools In Peptide Design
  • Table 2-17: Advantages Of AI-Guided Peptide Discovery
  • Table 3-1: Global Cancer Peptide Therapeutics Market - Recent Fundings & Investments
  • Table 3-2: Global Cancer Peptide Therapeutics Market - Recent Collaborations
  • Table 6-1: Trelstar - Recommended Dose (mg/week)
  • Table 6-2: Velcade - Dosage Regimen For Patients With Previously Untreated Multiple Myeloma
  • Table 6-3: Kyprolis -Expiration Year Of Patents
  • Table 10-1: Broad Classification Of Venom Sources For ACPs
  • Table 10-2: Most Common Venom Sources Investigated For Anticancer Peptides
  • Table 10-3: Well-Known Venom-Derived Anticancer Peptides & Their Mechanisms
  • Table 10-4: Major Bee Venom Peptides & Their Anticancer Functions
  • Table 10-5: Major Scorpion Venom Peptides & Their Anticancer Activities
  • Table 10-6: Major Snake Venom-Derived Anticancer Peptides
  • Table 10-7: Major Spider Venom-Derived Anticancer Peptides
  • Table 10-8: Major Cone Snail Venom Peptides & Anticancer Activities
  • Table 12-1: MAPK Signaling Components Targeted By Therapeutic Peptides
  • Table 12-2: Major Signal Transduction Pathways & Their Cancer Functions
  • Table 12-3: Delivery & Engineering Strategies For Cell Cycle Peptides
  • Table 12-4: DNA Repair Targets & Therapeutic Outcomes
  • Table 12-5: Types Of Immunomodulatory Peptides
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