表紙
市場調查報告書

整合型數位顯微鏡的技術創新、新用途

Technology Innovations and Emerging Applications of Integrated Digital Microscopy

出版商 Frost & Sullivan 商品編碼 930186
出版日期 內容資訊 英文 60 Pages
商品交期: 最快1-2個工作天內
價格
整合型數位顯微鏡的技術創新、新用途 Technology Innovations and Emerging Applications of Integrated Digital Microscopy
出版日期: 2020年03月17日內容資訊: 英文 60 Pages
簡介

整合型數位顯微鏡不以接目鏡輸出畫面,而是直接顯示在螢幕上,與傳統光學顯微鏡形成對照。因此,使用者可以用舒適的姿勢,在短時間內輕易地將樣本顯示在桌上型電腦上。也可以分析資料,簡單地和其他使用者分享。藉此便可迅速成像及分析在培養箱環境或緊閉層流櫃中的活細胞,並進行高含量成像。

本報告針對整合型數位顯微鏡市場,關注技術創新與新用途進行調查分析,也討論了數位顯微鏡業界的促進要素與課題、新的成長機會與智慧財產活動等。

第1章 執行摘要

  • 調查範圍
  • 調查方法
  • Frost&Sullivan的觀點:以數位顯微鏡的自動化,提升活細胞與高含量成像的重現性

第2章 技術快照

  • 數位顯微鏡 - 簡介、優點與極限
  • 生命科學中數位顯微鏡的用途
  • 用於理解細胞生物學及疾病機制的活細胞成像
  • 用於創藥、開發的高含量成像
  • 病理切片的數位成像用玻片掃瞄機
  • 相位差顯微鏡是在無標記成像中最常被使用的型態
  • 縮時成像有助於細胞動態及遊走的研究
  • 外科、微流控、法醫學、昆蟲學、植物學及動物學用的數位顯微鏡
  • 整合型數位顯微鏡的各種成像功能定義
  • 整合型數位顯微鏡的主要終端使用者條件
  • 基於整合型數位顯微鏡的使用方法的分類
  • 桌上型數位顯微鏡部門的主要加入市場企業
  • 對應培養箱的數位顯微鏡部門的主要加入市場企業:整合型培養箱
  • 對應培養箱的數位顯微鏡部門的主要加入市場企業:培養箱內部裝置
  • 對應培養箱的數位顯微鏡部門的主要加入市場企業:培養箱安裝選項
  • 裝置型、口袋型數位顯微鏡部門的主要加入市場企業

第3章 整合型數位顯微鏡:業界概要、動態評估

  • 人體工學與新興生科用途的需求提高帶動了整合型數位顯微鏡業界
  • 抵抗變化與缺乏彈性對整合型數位顯微鏡產業帶來影響
  • 整合型數位顯微鏡提供了有關細胞生物學的廣泛生物學相關資訊
  • 整合型數位顯微鏡的適當校準對高品質的影像來說不可或缺
  • 整合型數位顯微鏡產業中主要的市場促進要素及課題的影響
  • 整合型數位顯微鏡的主要終端使用者條件的狀況
  • 世界引進自動化技術的趨勢升高

第4章 技術檔案

  • 技術部門:桌上型數位顯微鏡
  • 使用於緊閉的層流櫃中的獨立型數位顯微鏡
  • 數位病理學用途的高速成像整合型數位顯微鏡
  • 技術部門:對應培養箱的數位顯微鏡
  • 即時影像細胞計數法與具備細胞培養功能的活細胞平板讀數器
  • 在培養箱中的即時自動活細胞分析系統
  • 用於高含量篩選的雷射基礎的自動成像與平台
  • 技術部門:裝置型數位顯微鏡
  • 具備彈性LED控制與讀取自動倍率功能的裝置型無線數位顯微鏡
  • 技術部門:口袋顯微鏡
  • 用於教育用途的攜帶型智慧型手機顯微鏡

第5章 整合型數位顯微鏡業界的成長機會

  • 在亞太地區具備用於生科實驗功能的數位顯微鏡的必要性
  • 追加彈性,改善整合型數位顯微鏡的引進
  • 活細胞成像、高含量篩選的創新者,是整合型數位顯微鏡業界的主要利害相關者
  • 結論、策略要務

第6章 生科部門中整合型數位顯微鏡的智慧財產情勢

第7章 主要企業

目錄
Product Code: D958

Exploring disruptive innovations and applications in live cell imaging, time-lapse imaging and high content imaging

An integrated digital microscope, in contrast to the traditional optical microscope, displays the image output directly on a monitor instead of an eyepiece. Thus, the sample can be viewed instantly and easily on a desktop, with the user in a comfortable position. The data can also be analyzed and shared with others with ease. This enables rapid imaging and analysis of live cells in an incubator environment or a closed laminar flow cabinet for long duration, as well as high content imaging.

Available in desktop, incubator-compatible, handheld, and wireless pocket-friendly formats, the integrated digital microscopy industry is driven by the technology advancements of the microscope components, improvements in the capabilities of digital camera, demand for ergonomics and ease in data transfer, and emerging advanced life science applications, which require digital microscopes.

This research service (RS) is a study on the technology innovations and emerging applications of integrated digital microscopy. The RS will also focus on the drivers and challenges in the digital microscopy industry. Emerging growth opportunities and IP activity in the area of the integrated digital microscopy have also been discussed.

Table of Contents

1.0. Executive Summary

  • 1.1. Scope of Research
  • 1.2. Research Methodology
  • 1.2. Research Methodology (continued)
  • 1.3. Frost & Sullivan Perspective-Automation of Digital Microscopes Improves Reproducibility in Live Cell and High Content Imaging

2.0. Technology Snapshot

  • 2.1. Digital Microscopes-Introduction, Advantages, and Limitations
  • 2.2. Applications of Digital Microscopy in Life Science
    • 2.2.1. Live Cell Imaging for Understanding Cell Biology and Mechanism of Diseases
    • 2.2.2. High Content Imaging for Drug Discovery and Development
    • 2.2.3. Slide Scanners for Digital Imaging of Pathology Slides
    • 2.2.4. Phase Contrast Microscopy is the Most Commonly Used Modality for Label-free Imaging
    • 2.2.5. Time-lapse Imaging is Useful in Studies on Cellular Dynamics and Migration
    • 2.2.6. Digital Microscope for Surgery, Microfluidics, Forensic Science, Entomology, Botany, and Zoology
  • 2.3. Definitions of Different Imaging Capabilities of Integrated Digital Microscope
  • 2.4. Key End-user Requirements in Integrated Digital Microscope
  • 2.5. Integrated Digital Microscopes Can Be Categorized Based On The Mode of Usage
    • 2.5.1. Key Market Participants in the Desktop Digital Microscope Segment
    • 2.5.2. Key Market Participants in the Incubator-compatible Digital Microscope Segment-Integrated Incubator
    • 2.5.3. Key Market Participants in the Incubator-compatible Digital Microscope Segment-Instrument Kept Inside Incubator
    • 2.5.4. Key Market Participants in the Incubator-compatible Digital Microscope Segment-Optional Incubator Attachment
    • 2.5.5. Key Market Participants in the Handheld and Pocket Digital Microscope Segment

3.0. Integrated Digital Microscope-Industry Overview and Trends Assessment

  • 3.1. Rising Demand for Ergonomics and Emerging Life Science Applications Drive the Integrated Digital Microscope Industry
  • 3.2. Resistance to Change and Lack of Flexibility Affect the Integrated Digital Microscope Industry
  • 3.3. Integrated Digital Microscope Provides Vast Biologically Relevant Information on Cell Biology
  • 3.4. Proper Calibration of Integrated Digital Microscope is Essential for Quality Images
  • 3.5. Impact of Key Market Drivers and Challenges on the Integrated Digital Microscope Industry
  • 3.6. Status of the Key End-user Requirements in Integrated Digital Microscope
  • 3.7. Adoption of Automation Technologies is High Worldwide

4.0. Technology Profiles

  • 4.1. Technology Segment-Desktop Digital Microscope
    • 4.1.1. Standalone Digital Microscope for Use Inside a Closed Laminar Flow Cabinet
    • 4.1.2. Rapid Imaging Integrated Digital Microscope for Digital Pathology Application
  • 4.2. Technology Segment-Incubator-compatible Digital Microscope
    • 4.2.1. Live Cell Plate Reader with Real-time Image Cytometry and Cell Incubation Capabilities
    • 4.2.2. Real-time Automated Live Cell Analysis System Inside an Incubator
    • 4.2.3. Laser-based, Automated Imaging and Analysis Platform for High Content Screening
  • 4.3. Technology Segment-Handheld Digital Microscope
    • 4.3.1. Handheld Wireless Digital Microscope with Flexible LED Control and Automatic Magnification Reading
  • 4.4. Technology Segment-Pocket Microscope
    • 4.4.1. Portable Smartphone Microscope for Educational Purpose

5.0. Growth Opportunities in the Integrated Digital Microscope Industry

  • 5.1. Need of Digital Microscopes with Capabilities for Life Science Experiments in APAC Region
  • 5.2. Including Flexibility Will Improve Adoption of Integrated Digital Microscopes
  • 5.3. Live Cell Imaging and High Content Screening Innovators are the Key Stakeholders in the Integrated Digital Microscope Industry
  • 5.4. Key Conclusions and Strategic Recommendations

6.0. Intellectual Property Landscape of Integrated Digital Microscope in Life Science Segment

  • 6.1. IP Activity Indicates the Growing Interest in Integrated Digital Microscopy for Cell Imaging
  • 6.2. Key Patents to Check
  • 6.2. Key Patents to Check (continued)
  • 6.2. Key Patents to Check (continued)

7.0. Key Industry Participants

  • 7.1. Database of Key Industry Participants
  • 7.1. Database of Key Industry Participants (continued)
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