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市場調查報告書
市場調查報告書:EMMA09: 生命科學・體外診斷領域的新微流體市場
EMMA09 - Emerging Markets for Microfluidic Appliations in Life Sciences and In-Vitro Diagnostics
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本報告已在2011年09月30日停止出版。
更改為出版
Emerging Markets For Microfluidic Application
出版日期 : 2011年09月
商品編碼: 216532
本報告書內容包括:生命科學・體外診斷領域之微流體的新應用及其市場調查分析、市場預測 (至2014年)、2007年起的市場變遷及變化、主要應用別市場動向、各種技術概要及進化、供應鏈分析、價值鏈個案研究等。內容綱要摘記如下: 第1章 實施概要第2章 介紹第3章 微流體市場:2009年至2014年
- 微流體市場
- 本書的目標市場
- 市場的地區分布
- 微流體的影響
- 微流體的應用
- 微流體元素:市場規模・預 測
- CAGR:2006年至2008年・2009年至2014 年
- 市場分析
第4章 2007年之後的變遷
- 市場結構
- 診斷・給藥技術總體市場:2006年至2008年
- 微流體設備市場的進化
- 市場詳細介紹:2008年
- 材料:應用別
- 針對微流體的投資
- M&A、等
第5章 微流體的各種應用
- 各種應用
- 應用概要
- 分析用設備
- 臨床用・動物診斷用拋棄型檢驗筒
- 藥品・生命科學用微流體設備
- 醫護站用微流體設備
- 毛細管電泳晶片
- 產業・環境測試用微流體設備
- 微分液器
- 給藥用微流體設備
第6章 微流體技術
- 主要微流體技術:概要
- 微流體:流體運動策略
- 微流體:原型及製造
- 應用別材料
- 微流體的技術及材料
- 微流體技術:主要動向・總論
- 機能整合
- 包裝技術及進步
第7章 微流體的供應鏈
- 介紹
- 微流體產業鏈需求的競爭力
- 顧客期望
- 玻璃產業的供應鏈
- 聚合物產業的供應鏈
- 矽產業的供應鏈
第8章 微流體的價值鏈
第9章 總論附錄
微流體技術
聚合物晶片製造技術
Abstract
Introduction
- This report presents the microfluidics market 2006-2008 and market
forecasts 2009-2014 for life sciences and in-vitro-diagnostics applications,
and analyses the market.
- Stepping back on what happened since 2007, publication date of our last
EMMA report, helps understand the major trends and validate our previous
market forecast.
- The report includes 7 main sections:
- Microfluidic markets 2009-2014
- What Happened since 2007
- Microfluidic Applications
- Microfluidic Technologies
- Microfluidic supply chain
- Microfluidic Value chain
- Conclusion
Methodology
- To forecast the growth of the Microfluidic, we are tracking applications
across the range of markets from life science fields to industrial
applications on a daily basis, through interview with key players.
- The data presented in this report are based on sales data of approximately
150 players involved in the microfluidic market for:
- Clinical and veterinary diagnostics: Laboratory equipments for clinical
and veterinary diagnostics
- Point of care diagnostics: Out of the lab diagnostic equipments, for
near patient testing, intensive care, doctor office.
- Pharmaceutical and life sciences research: Principally microfluidic
devices for drug discovery, screening
- Analytical devices: Microfluidic cartridges for Mass spectrometry,
Chromatography and HPLC sample preparation
- Industrial and environmental testing: Microfluidic-based tests for
quality and process control, water testing (pesticides, bacteries...).
Includes as well millitary and security applications.
- Drug delivery: Microfluidic devices for drug delivery, such as inhalers,
microneedles, implantable micropumps...
Table of Contents
1 - Executive Summary
2 - Introduction
3-Microfluidic markets 2009-2014
- Microfluidic markets
- Markets considered in this report
- Market geographical distribution
- Market distribution
- Impact of microfluidics
- Microfluidic applications
- Microfluidic components market value and forecast - Data
- Microfluidic components market value nd forecast - Market in M$
- Microfluidic components market value nd forecast - Market in Munits
- Compound Annual Growth Rates 2006-2008 and 2009-2014
- Market analysis
4- What Happened since 2007
- Microfluidics, a structured market
- Market data versus EMMA2007 forecasts
- Total diagnostics & Drug Delivery Markets 2006-2008; in M$
- Microfluidic Devices Market Evolution 2006-2008, in M$
- Market Breakdown in 2008
- Materials by Application
- Some product introduction 1/3)
- Some product introduction (2/3)
- Some product introduction (3/3)
- Investments in microfluidics since 2007
- M&A in microfluidics since 2007
- Life & Death
5- Microfluidic Applications
- Microfluidics Applications
- Microfluidic Applications description
- Microfluidics for Analytical devices
- Microfluidics for Analytical devices (1/2)
- Microfluidics for Analytical devices (2/2)
- Agilent - HPLC-Chip/MS Technologies (US) HPLC Eksigent Technologies (US)
- nanoLC™ HPLC systems
- Nanostream (US) : Veloce Micro Parallel Liquid Chromatography (μPLC)
System
- Advion Biosciences (US) - NanoMate System for MS sample electrospray
- Cartridges for clinical and veterinary diagnostics
- Cartridges for clinical and veterinary diagnostics (1/2)
- Cartridges for clinical and veterinary diagnostics (2/2)
- MicroParts/ Merlin Diagnostik Lilliput chip
- Directif GmbH - November AG Lab on a Chip
- Abaxis - Piccolo® Xpress
- Microfluidic devices for Pharmaceutical and life science applications
- Microfluidic devices for Pharmaceutical and life science applications
(1/2)
- Microfluidic devices for Pharmaceutical and life science applications
(2/2)
- Gyros Gyrolab Bioaffy™ CD
- Fluidigm Dynamic Array for Single Cell Gene Expression
- CEA Leti Smartdrop
- Miniaturized cell based assays
- Cell based assays
- Miniaturized cell based assays Applications
- Ion channel drug discovery and screening
- Patch-clamp
- Cell transfection
- Living or fixed cells
- Primary cells and stem cells
- Drug discovery programs
- Toxicology and initial ADME studies
- Shear flow analysis
- ACEA Bioscience's real-time cell assay technology
- ADVALYTIX - AmpliGrid™ Platform
- Advanced Liquid logic
- Applied Biophysics
- Bellbrooks Laboratories
- Bionas - Adcon plate & reader
- Cellectricon
- Cellix
- Cytoo
- Evotec - High Throughput Screening
- Fluxion Bioscience: BioFlux
- Nanion Technologies GmbH
- Nanopoint
- Raindance Technologies
- SpinX Technologies (CH) - gCards™ and SpinX Lab™ for HTS
- Microfluidic devices for Point of Care
- Microfluidic devices for Point of Care (1/2)
- Microfluidic devices for Point of Care (2/2)
- Abbott / I stat
- Abbott / I stat
- Biosite POC system
- STmicroelectronics:In-Check platform
- In STmicroelectronics:In-Check platform
- Clondiag Chip Technology AssayProcessor
- POC ongoing developments: Siemens Medical Solutions
- POC ongoing developments: Philips Magnetic Biosensor
- POC ongoing developments: DALSA Semiconducteur BioMEMS (1/2)
- POC ongoing developments: DALSA Semiconducteur BioMEMS (2/2)
- Capillary Electrophoresis chips
- Capillary Electrophoresis chips (1/2)
- Capillary Electrophoresis chips (2/2)
- CALIPER Life Sciences (US) (1/2)
- CALIPER Life Sciences (US) (2/2)
- Shimazu Biotech
- Qiagen Qiaxcel
- Capilix Capella platform
- Microfluidic devices for Industrial and environmental testing
- Microfluidic devices for Industrial and environmental testing (1/2)
- Microfluidic devices for Industrial and environmental testing (2/2)
- Cepheid - GeneXpert™ Systems (1/2)
- Cepheid - GeneXpert™ Systems (2/2)
- Genesystems (Pall Life Sciences)
- Microdispensers
- Microdispensing (1/2)
- Microdispensing (2/2)
- Microfluidics positioning in the Liquid Handling market
- Microdispensers and workflow platforms
- Overview of low liquid-handling systems
- LabCyte Echo 550 Liquid handler
- Biodot
- BioFluidix TopSpot 5
- GeSim Nano- Nano Plotters Perkin Elmer PiezoArray
- MicroDrop microdosing System
- Scienion FlexArrayer
- Agilent - Ink Jet SurePrint technology
- Shimatzu Biotech: Chemical Inkject Printer CHIP 1000
- Microfluidic devices for drug delivery
- Microfluidic devices for drug delivery (1/2)
- Microfluidic devices for drug delivery (2/2)
- Boehringer MicroParts Respimat®
- Medspray: spray nozzles Micro Infusion pumps
- Medtronic Minimed Inc.
- Debiotech Nanopump™
- MicroCHIPS
- ChipRx Inc.
- Active needle-free transdermal systems
- Transdermal Microneedle developments (1/2)
- Transdermal Microneedle developments (2/2)
6- Microfluidic Technologies
- Microfluidics technologies Overview
- Microfluidic Fluid motion strategy
- Microfluidic Prototyping and Production
- Materials by Application
- Silicon as a substrate for Life Science applications
- Glass as a substrate for Life Science applications
- Polymers as a substrate for Life Science applications
- Microfluidic technologies and materials Synthesis
- Microfluidic technologies: Main trends and conclusion
- Functions integration
- Functions integration, a main challenge
- Functions needed for Life Science applications
- A multi-disciplinary challenge
- Material combination, a main challenge
- Packaging techniques and their evolution
- Packaging evolution
- Advanced packaging: The challenges
- From 2D to 3D...
- Packaging for Life Science applications
- Capillary DALSA Semiconducteur: Electrophoresis (CE) and DNA Separation
7- Microfluidic supply chain
- Introduction
- Competences required along the microfluidic industrial chain
- Expectations of the microfluidic customers
- Glass industrial supply chain
- Polymer industrial supply chain
- Silicon Industrial supply chain
8- Microfluidic Value chain
- Value chain analysis
- Case Study: Microarray component value chain (1/2)
- Case Study: Microarray component value chain (2/2)
- Case Study: CALIPER Life Sciences LabChip
- Case Study: Cost Analysis Caliper Labchip
- Case Study: Caliper Labchip; Material Variation
- Case Study: Caliper Labchip; Production location
- Conclusion on the value chain
9- Conclusion
- Conclusion (1/3)
- Conclusion (2/3)
- Conclusion (3/3)
APPENDIX
- APPENDIX 1 : Manufacturing Technologies
- Microfluidic technologies
- Chemical etching (1/2)
- Chemical etching (2/2)
- Photo-etching of glass
- Sand blasting/Powder blasting
- Electro Discharge Machining (EDM)
- Mechanical micromachining
- Laser Micromachining
- Micromolding - Injection molding
- Soft Lithography
- Hot Embossing
- Polymer chip manufacturing techniques
- Polymer microfluidic components
- Polymer microtechnologies flowchart
- Polymer microcomponents technology
- Prototyping / Production : Polymer microtechnologies
- Prototyping / Production Lamination / PCB techniques Post processing
Bonding
- Post processing Surface functionalization
APPENDIX 2 :Yole Developpement Presentation
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