|Report ID : RC-1911||Category : Biotechnology||Published Date : 18-Oct|
|Publisher : S-AND-P||Pages : 91||Format : PDF|
Bioanalysis refers to a collective process of measuring quantitative and qualitative aspects of a sample, which can either be a chemical compound for drug target identification or a blood sample for disease diagnosis. Researchers in life sciences, healthcare, and pharmaceutical industries deal with numerous samples every day. Thus, bioanalysis of these samples requires repetition of certain basic steps and procedures. As a result, to enhance routine lab processes and to improve process efficiencies, products or systems that conduct these repetitive processes automatically are introduced. This helps in saving the operational time for researchers, which they can dedicate to more vital activities such as data analysis and generation of actionable insights. The collective process of automating set procedures and protocols during a bioanalysis experiment is called lab bioanalysis automation. The report covers the present scenario and the growth prospects of the global lab bioanalysis automation market for 2018-2023 . To calculate the market size, the report considers the revenue generated from retail sales of laboratory automation products and software programs used in bioanalysis. Key Operating Players Agilent Technologies, Beckman Coulter, F. Hoffmann-La Roche, Thermo Fisher Scientific, Aurora Biomed, Becton, Dickinson and Company, bioM?rieux, Bio-Rad Laboratories, BioTek Instruments, Eppendorf, Hamilton Company, Hudson Robotics, PerkinElmer, QIAGEN, Shimadzu, Siemens Healthineers, Synchron Lab Automation, Tecan Trading, and Universal Robots According to the report, one of the major drivers for this market is Increasing use of automation in healthcare industry. In various industry and government-funded studies, chief executive officers (CEO) of hospital and healthcare systems cite overall cost reduction and efficiency as one of their top two financial priorities. With the healthcare industry continually looking at cost-cutting and improvements in efficiency and throughput, automation of manual tasks can be an important part of the strategy for performance improvement. Further, the report states that one of the major factors hindering the growth of this market is Inability of small-scale and medium-scale laboratories to fully adopt automation solutions. Medium and small-scale laboratories handle less sample volume per day and are mostly set up to address specific applications. These laboratories suffer from cramped budgets, lesser number of staff, and inefficient planning procedures. Therefore, these labs never take automation as a priority and hence, display consistent inability to shift to fully automated lab solutions. Lack of floor space is also an issue and automating every process would cramp up the space required for researchers and other key equipment.
Table of Contents Chapter One Global Lab Bioanalysis Automation Market Overview 1.1 Definition (Product Picture and Specifications) 1.2 Classification and Application 1.3 Global Market Chain Structure 1.4 Industry Overview 1.5 Industry History 1.6 Industry Competitive Landscape 1.7 Industry Global Development Comparison Chapter Two Lab Bioanalysis Automation Market Data Analysis 2.1 2018 Global Key Manufacturers, Price List 2.2 2018 Global Key Manufacturers -Gross Margin List 2.3 Key Manufacturers, Market Capacity and Share List 2.4 2018 Global Key Manufacturers, Production and Market Share List 2.5 2018 Global Key Manufacturers, Production Value and Market Share List Chapter Three Lab Bioanalysis Automation Technical Data Analysis 3.1 2018 Global Key Manufacturers, Product Quality List 3.2 2018 Global Key Manufacturers, Product Line Capacity and Commercial Production Date 3.3 2018 Manufacturing Base (Factory) List, Market Regional Distribution 3.4 2018 Global Key Manufacturers Market R&D Status and Technology Sources 3.5 2018 Global Key Manufacturers Equipment Investment and Performance 3.6 2018 Global Key Manufacturers Raw Materials Sources Analysis Chapter Four LAB BIOANALYSIS AUTOMATION Government Policy and News 4.1 Government Related Policy Analysis 4.2 Industry News Analysis 4.3 Industry Development Trend Chapter Five Global Lab Bioanalysis Automation Market Manufacturing Process and Cost Structure 5.1 Product Specifications 5.2 Manufacturing Process Analysis 5.3 Cost Structure Analysis Chapter Six 2012-2018 Lab Bioanalysis Automation Productions Supply Sales Demand Market Status and Forecast 6.1 2012-2018 Global Market Capacity Production Overview 6.2 2012-2018 Global Market Capacity Utilization Rate 6.3 2012-2018 Key Manufacturers Lab Bioanalysis Automation Price Gross Margin List 6.4 2012-2018 Global Key Manufacturers Lab Bioanalysis Automation Production Value Overview 6.5 2012-2018 Global Production Market Share by Product Type 6.6 2012-2018 Market Consumption Share by Application 6.7 2012-2018 Global Lab Bioanalysis Automation Production Market Share by US EU China Japan etc Regions 6.8 2012-2018 Market Demand Overview 6.9 2012-2018 Market Supply Demand and Shortage 6.10 2012-2018 Global Cost Price Production Value Gross Margin Chapter Seven Lab Bioanalysis Automation Key Manufacturers 7.1 Company Analysis 7.1.1 Company Profile 7.1.2 Product Picture and Specification 7.1.3 Capacity Production Price Cost Production Value 7.1.4 Contact Information 7.2 Company B 7.2.1 Company Profile 7.2.2 Product Picture and Specification 7.2.3 Capacity Production Price Cost Production Value 7.2.4 Contact Information 7.3 Company C 7.3.1 Company Profile 7.3.2 Product Picture and Specification 7.3.3 Capacity Production Price Cost Production Value 7.3.4 Contact Information 7.4 Company D 7.4.1 Company Profile 7.4.2 Product Picture and Specification 7.4.3 Capacity Production Price Cost Production Value 7.4.4 Contact Information 7.5 Company E 7.5.1 Company Profile 7.5.2 Product Picture and Specification 7.5.3 Capacity Production Price Cost Production Value 7.5.4 Contact Information Chapter Eight Up and Down Stream Industry Analysis 8.1 2012-2018 Global Lab Bioanalysis Automation Market: Key Raw Materials Price Analysis 8.2 2016 Key Product Line Investments Analysis 8.3 2018-2023 Downstream Applications Demand Analysis Chapter Nine: Marketing Strategy -Lab Bioanalysis Automation y Analysis 9.1 Marketing Channels Analysis 9.2 New Project Marketing Strategy Proposal Chapter Ten 2018-2023 Lab Bioanalysis Automation Development Trend Analysis 10.1 2018-2023 Market Production Development Trend 10.2 2018-2023 Market Demand Forecast Chapter Eleven Global Lab Bioanalysis Automation Market New Project Investment Feasibility Analysis 11.1 Project SWOT Analysis 11.2 Lab Bioanalysis Automation New Project Investment Feasibility Analysis
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