RNAi治療藥及診斷藥：課題及機會

RNAi治療藥及診斷藥：課題及機會 是由出版商PharmaVision & Espicom在2009年07月所出版的。 這份英文市場調查報告書包含226 PAGES 價格從美金1655起跳。

簡介

RNAi治療藥市場預計將自2013年起開始持續成長，加上首度產品上市，2020年之前可望有超過29億美元的銷售成績。目前已有100個以上針對自我免疫疾病及炎症性疾病、癌症、心血管疾病、中樞神經系統疾病等的RNAi計畫在進行當中。

本報告書內容包括：RNAi治療藥開發產品線分析、針對各疾病的開發動向、未來市場動向等。內容綱要摘記如下：

第1章 RNA干涉及給藥技術

• 關鍵重點
• 介紹
• RNAi的自然現象
• 針對RNAi抑制劑的正反兩面意見
• RNAi研發
• RNAi治療藥
• RNAi診斷藥
• RNAi治療：藥物開發
• RNAi治療藥及診斷藥開發的主要科學課題
• 報告書的架構

第2章 RNAi治療藥：產品線分析

• 關鍵重點
• RNAi治療藥的主要治療領域
• 做為診斷藥的RNAi
• 本報告書中分析的企業

第3章 針對癌症的RNAi治療藥

• 關鍵重點
• 介紹
• RNAi治療藥：siRNA
• RNAi治療藥：shRNA
• 針對癌症治療藥開發的替代RNA對策
• 癌症之miRNA
• miRNA診斷藥
• mRNA拮抗藥
• 反意核酸
• 結論
• 我們對於癌症RNAi治療藥・診斷藥的觀點

第4章 針對中樞神經系統疾病的RNAi治療藥

• 關鍵重點
• 介紹
• 神經變異性疾病
• 結論
• 我們對於中樞神經系統疾病RNAi治療藥的觀點

第5章 針對病毒傳染病的RNAi治療藥

• 關鍵重點
• 介紹
• 結論
• 我們對於病毒傳染病RNAi治療藥的觀點

第6章 針對眼疾的RNAi治療藥

• 關鍵重點
• 介紹
• 結論
• 我們對於眼疾RNAi治療藥的觀點

第7章 針對心血管疾病、代謝性疾病、其他症狀的RNAi治療藥

• 關鍵重點
• 介紹
• 針對心血管疾病的RNAi治療藥
• 針對代謝性疾病的RNAi治療藥
• 其他治療領域中的RNAi治療藥
• 結論
• 我們對於心血管疾病、代謝性疾病、其他病症RNAi治療藥的觀點

第8章 RNAi治療藥・診斷藥的課題及機會

• 關鍵重點
• 介紹
• RNAi研究的安定性及功效問題
• RNAi研究的安全性問題
• 智慧財產
• RNAi治療藥給藥技術
  • 課題
  • 機會

第9章 未來的RNAi治療藥及診斷藥：市場動向

• 關鍵重點
• RNAi主要企業
• 主要RNAi治療藥企業
• 主要miRNA診斷藥企業
• 近年來的交易及合作
• 2020年之前的全球RNAi治療市場
• 摘要及結論
• 謝辭
• 參考文獻

圖表

目錄

Abstract

This new, cutting edge & insightful report can be used to interpret & assess the potential of RNAi-based medicines.

The market for RNAi-based therapeutics is forecast to grow from 2013 onwards, as the first products enter the marketplace, to generate sales in excess of US$2.9 billion by 2020. The first siRNA-based therapeutics will capitalize on the demand to treat viral infections and ocular conditions, and in the longer term companies will be able to target niche areas of high unmet clinical need such as cancer, cardiovascular disease, metabolic disorders, inflammatory and neurological conditions.

Since the 1990s scientists across the world have begun to harness the power of RNA interference (RNAi) to silence genes in a multitude of diseases. However, many challenges face those aiming to develop RNAi-based therapies including targeted delivery, the design and efficacy of gene silencing agents and the minimization of off-target and immunogenic effects.

Today there are over 100 RNAi-based projects under investigation to treat autoimmune and inflammatory diseases, cancer, cardiovascular disease, CNS disorders, metabolic disorders, ocular conditions, and viral infectious diseases. The majority of these projects are in the earliest discovery stages (36%) or in preclinical studies (54%). Of the projects that have reached clinical trials, only a handful have passed initial Phase I/II testing, with a total of three being investigated in Phase II studies.

For executives working in industry and commerce, the need to understand the issues, players and developers in this sector of high potential is essential. Delivering RNAi-Based Therapeutics & Diagnostics: Challenges & Opportunities is a 225+page report, published in July 2009 by UK pharma consultancy PharmaVision which is available from Espicom Business Intelligence.

This new report will enable you to

• Assess the commercial potential of RNAi-based therapies in all of the key therapeutic areas: cancer, CNS disorders, viral infectious diseases, ocular diseases, cardiovascular, metabolic and other conditions
• Identify key pharma & delivery specialists advancing RNAi-based therapeutics & diagnostics
• Gain an in-depth understanding of the technological & delivery issues which face companies developing RNAi-based therapies
• Evaluate the options available for chemically and structurally modifying RNAi silencing agents and delivering them to target tissues now & in the future
• Discover which companies are tackling efficacy and safety issues & are in a prime position to exploit new opportunities
• Analyse how the market will evolve over the next decade highlighting key trends, opportunities & challenges.
• The report answers keys questions such as
• Which companies & academic institutes are actively involved in RNAi-based therapeutic research?
• What are the key areas of therapeutic focus for RNAi-based therapeutics in the near & long-term?
• What are the key obstacles companies & delivery technologists need to overcome to commercialize RNAi-derived therapies?
• How will delivery technologies drive the development of innovative RNAi-based therapies in the future?
• Which RNAi technologies & agents are likely to win in the near-term & long-term, & why?
• Where are the market opportunities now & in the future?
• When are RNAi-based medicines likely to reach the market?
• What do we predict will be the value of the RNAi-based therapeutics by 2015 & 2020?

Table of Contents

Chapter 1 RNA Interference & Delivery

• Key Findings
• Introduction
• RNAi a Natural Phenomenon
  • Antisense technologies
  • RNAi silencing agents
  • RNA silencing pathways
  • microRNAs and antagomirs
  • miRNA gene silencing
• Pros & Cons of RNAi Silencing Agents
• RNAi R&D
  • High throughput in vitro screening
  • RNAi in vivo screening
  • RNAi diagnostic makers
• RNAi Therapeutics
• RNAi Diagnostics
• RNAi Therapy - A Discovery Timeline
• Major Scientific Challenges for the Development of RNAi-Based Diagnostics Therapies
• Report Structure

Chapter 2 RNAi-Based Therapeutics: Pipeline Analysis

• Key Points
• Key Therapy Areas Covered by RNAi-Based Therapies
  • Product pipelines
• RNAi for Diagnostics
• RNAi Companies Analyzed in This Report

Chapter 3 RNAi-Based Therapies for Cancer

• Key Findings
• Introduction
  • RNAi delivery in cancer
• RNAi-Based Therapies -siRNA
  • Case study: ALN-VSP (Alnylam Pharmaceuticals)
  • Case study: CALAA-01 (Calando Pharmaceuticals)
  • Case study: Dicer substrate RNA (Dicerna Pharmaceuticals)
  • Case study: Intratumoral siRNA (Genesis Research & Development Corporation)
  • Case study: NPX delivery technology (Intradigm Corporation)
  • Case study: SNS-01 (Senesco Technologies)
  • Case study: Atu027 (Silence Therapeutics)
  • Case study: STP702 (Sirnaomics)
  • Case study: PLK SNALP (Tekmira Pharmaceutical Corporation)
• RNAi-Based Therapies -shRNA
  • Case study: CEQ501 (Cequent Pharmaceuticals)
• Alternative RNA Approaches to Develop Cancer Therapies
• miRNA in Cancer
  • Case study: miRNAs (Mirna Therapeutics)
  • Case study: miRNAs (Regulus Therapeutics)
  • Case study: SPC2996 & EZN3042 (Santaris Pharma A/S/Enzon Pharmaceuticals)
• MiRNA-Based Diagnostics
• mRNA Antagonists
  • Case study: LOR-2040 (Lorus Therapeutics)
• Antisense
  • Case study: OGX-011 (Isis Pharmaceuticals/OncoGenex) & LY2181308 (Isis Pharmaceuticals/Eli Lilly)
  • Case study: TF siRNA (siRNAsense A/S/Polyplus Transfection)
• Conclusions
• Our Opinion on RNAi-Based Therapies & Diagnostics for Cancer
  • Where the technology is now, its evolution, achievements and pitfalls
  • Competition
  • Potential future applications
  • Activity in the market, major players and winners

Chapter 4 RNAi-Based Therapies for CNS Disorders

• Key Findings
• Introduction
• Neurodegenerative Diseases
  • Amyotrophic lateral sclerosis
  • Case study: SOD1 siRNA (RXi Therapeutics)
  • Case study: SOD1 shRNA (Oxford BioMedica)
  • Huntington' s Disease
  • Case study: ALN-HTT (Alnylam Pharmaceuticals/Medtronic)
  • Case study: AVV-HTT (Targeted Genetics Corporation)
  • Parkinson' s Disease
  • Case study: SNCA-siRNA (Alnylam Pharmaceuticals)
  • Case study: biotinylated siRNA (ArmaGen Technologies)
  • Other CNS conditions
• Conclusions
• Our Opinion on RNAi-Based Therapies for CNS disorders
  • Where the technology is now, its evolution, achievements and pitfalls
  • Competition
  • Potential future applications
  • Activity in the market, major players and winners

Chapter 5 RNAi-Based Therapies for Viral Infectious Diseases 104

• Key Findings
• Introduction
  • Respiratory Syncytial Virus
  • Case study: ALN-RSV01 (Alnylam Pharmaceuticals)
  • Hepatitis C
  • Case study:TT-033 (Oncolys BioPharma/Pfizer/Tacere Therapeutics)
  • Case study: miR-122 (Regulus Therapeutics)
  • Case study: SPC3649 (Santaris Pharma A/S)
  • Human Immunodeficiency Virus
  • Case study: rHIV7-shl-TAR-CCR5RZ (Benitec Ltd/City of Hope)
  • Pandemic Influenza
  • Bioterrorism
  • Other Infectious Diseases
• Conclusions
• Our Opinion on RNAi-Based Therapies for Viral Infectious Diseases
  • Where the technology is now, its evolution, achievements and pitfalls
  • Competition
  • Potential future applications
  • Activity in the market

Chapter 6 RNAi-Based Therapies for Ocular Diseases

• Key Findings
• Introduction
  • Age-Related Macular Degeneration
  • Case study: AGN-745 (Allergan/Sirna Therapeutics)
  • Case study: VEGF-A165b sparing siRNA & Bevasiranib (Opko Health)
  • Case study: PF-4523655 (Quark Pharmaceuticals/Pfizer)
  • Diabetic Retinopathy & Diabetic Macular Edema
  • Glaucoma
• Conclusions
• Our Opinion on RNAi-Based Therapies for Ocular Diseases
  • Where the technology is now, its evolution, achievements and pitfalls
  • Competition
  • Potential future applications
  • Activity in the market

Chapter 7 RNAi-Based Therapies for Cardiovascular, Metabolic & Other Conditions

• Key Points
• Introduction
• RNAi-Based Therapeutics for Cardiovascular Diseases
  • Case study: miR-21 (Regulus Therapeutics)
  • Case Study: MHC miRNA inhibitors (MiRagen Therapeutics Inc)
• RNAi-Based Therapeutics for Metabolic Disorders
  • Case Study: ApoB SNALP (Tekmira Pharmaceutical Corporation)
  • Case study: MDR-04227 (MDRNA)
  • Case Study: PCSK9 siRNA (Alnylam Pharmaceuticals)
  • Case study: ApoB rxRNA and GeRP delivery (RXi Therapeutics)
• RNAi-Based Therapeutics in Other Therapeutic Areas
  • Case study: ALN-TTR siRNA (Alnylam Pharmaceuticals)
  • Case study: HSP47 siRNA (Nitto Denko Technical Corporation)
  • Case study: QPI-1002 (Silence Therapeutics/Quark Pharmaceuticals)
• Conclusion
• Our Opinion on RNAi-Based Therapies for Cardiovascular, Metabolic & Diseases
  • Where the technology is now, its evolution, achievements and pitfalls
  • Competition
  • Potential future applications
  • Activity in the market, major players and winners

Chapter 8 Challenges & Opportunities for RNAi-Based Therapeutics & Diagnostics

• Key Points
• Introduction
• Stability & Efficacy Issues for RNAi Research
  • Stability
  • Efficacy
• Safety Issues for RNAi Research
• Intellectual Property
• Delivering RNAi-Based Therapies
  • Challenges
  • Opportunities

Chapter 9 The Future of RNAi-Based Therapeutics & Diagnostics: Market Trends

• Key Points
• Key RNAi Companies
• Leading RNAi-Based Therapeutic Companies
• Leading miRNA-Based Therapeutic Companies
• Leading RNAi-Based Diagnostic Companies
• Recent Deals & Alliances
• The Global RNAi-Based Therapy Market 2008-2014
  • Analysis parameters
  • Market forecast 2008-2014
• Global RNAi-Based Therapy Market in 2020
  • Drivers and market trends
• Summary & Conclusions
• Acknowledgements
• Bibliography & Endnotes

List of Figures

• Figure 1: siRNA - RISC mediated gene silencing
• Figure 2: miRNA - RISC mediated gene silencing
• Figure 3: High throughput RNAi screening for functional genomics and target validation
• Figure 4: Rapid lead generation
• Figure 5: ArteMicec RNAi model
• Figure 6: RNAi therapeutics applications
• Figure 7: Stages of pharmaceutical development
• Figure 8: RNAi research: a timeline
• Figure 9: RNAi-based therapeutics: defining therapeutic areas
• Figure 10: Number of projects in the different stages of pharmaceutical development
• Figure 11: Number of projects in each therapeutic area
• Figure 12: Proportions of naked and targeted/vehicle assisted RNAi species
• Figure 13: Delivery routes for RNAi therapeutics
• Figure 14: Current approaches for cancer treatment
• Figure 15: Potential RNAi approaches for cancer treatment
• Figure 16: RONDEL delivery platform
• Figure 17: In vivo efficacy studies with CALAA-01
• Figure 18: Dicer substrate processing
• Figure 19: Intratumoral siRNA delivery mediated with A) liposome and B) nanoparticles
• Figure 20: RNAi NPX delivery platform
• Figure 21: SNS-01 in mouse lung model
• Figure 22: AtuPlex proprietary delivery system
• Figure 23: SNALP delivery technology
• Figure 24: Cequent' s tkRNAi delivery system
• Figure 25: LNA monomer structure
• Figure 26: Polyplus transfection In-vivo-jetPEI system - RNAi delivery to the lung
• Figure 27: Photochemical Internalization enhances siRNA' s gene silencing effect
• Figure 28: RNAi applications in CNS disorders
• Figure 29: Medtronic' s SynchroMed II implantable infusion pump
• Figure 30: Alzet osmotic pump for brain infusion
• Figure 31: Diffusion profile of pressure and diffusion delivery
• Figure 32: Molecular schematic of ArmaGen' s molecular Trojan horse
• Figure 33: RNAi viral infectious disease targets
• Figure 34: PARI Pharma' s eFlow nebuliser
• Figure 35: Tacere' s shRNA construct to target HCV
• Figure 36: Benitec' s RNAi approach to HIV
• Figure 37: Proof of concept Ebola siRNAs
• Figure 38: RNAi ocular disease targets
• Figure 39: RNAi applications in CV, metabolic & other disorders
• Figure 40: miR-21 mechanism of action in myocardial infarction
• Figure 41: ApoB SNALP preclinical data in mouse model
• Figure 42: ApoB nanotransporter in mouse model
• Figure 43: GeRP mechanism of delivery
• Figure 44: NDT' s siRNA delivery platform
• Figure 45: Mechanism of action of siRNA HSP47 in liver cirrhosis
• Figure 46: Challenges and opportunities for RNAi research
• Figure 47: Safety issues
• Figure 48: RNAi-based therapeutics: market drivers

List of Tables

• Table 1: Antisense drugs in clinical development
• Table 2: Pros and cons of RNAi silencing agents
• Table 3: Leading RNAi diagnostic companies
• Table 4: Novel non-coding RNA
• Table 5: Diseases targeted by RNAi-based therapeutics
• Table 6: RNAi and RNA therapeutic & diagnostic companies discussed in this report
• Table 7: Leading companies evaluating RNAi therapies for cancer
• Table 8: Academic institutions with an interest in RNAi based cancer research
• Table 9: Potentially pro-oncogenic and tumor suppressor miRNAs
• Table 10: Identification of key tumor suppressor miRNAs
• Table 11: Leading companies evaluating RNAi-based therapies for CNS disorders
• Table 12: Academic institutions with an interest in RNAi for the treatment CNS disorders
• Table 13: Leading companies evaluating RNAi-based therapies for viral infectious diseases
• Table 14: Academic institutions with an interest in RNAi for the treatment of viral infectious diseases
• Table 15: Leading companies evaluating RNAi-based therapies for ocular diseasess
• Table 16: Academic institutions with an interest in RNAi for the treatment of ocular diseases
• Table 17: Leading companies evaluating RNAi-based therapies for cardiovascular disease
• Table 18: Academic institutions with an interest in RNAi for the treatment of cardiovascular disease, metabolic & other conditions
• Table 19: Leading companies evaluating RNAi-based therapies for metabolic disorders
• Table 20: Academic institutions with an interest in RNAi for the treatment of metabolic disorders
• Table 21: Leading companies evaluating RNAi-based therapies for other conditions
• Table 22: A seminal RNAi patents
• Table 23: Summary of leading RNAi-based therapeutic companies
• Table 24: Recent RNAi acquisitions & licensing deals
• Table 25: Recent RNAi alliances
• Table 26: RNAi-based therapies included in the market forecast
• Table 27: Forecast of pipeline RNAi therapy products 2008-2014 (US$m)
• Table 28: Forecast of pipeline RNAi therapy products 2015-2020 (US$m)

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