NEW YORK, Feb. 6, 2013 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:
DNA Microarray 2013: A Focus on Sales Growth
http://www.reportlinker.com/p0980749/DNA-Microarray-2013-A-Focus-on-Sales-Growth.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Genetically_Modified_Organism,_GMO
DNA Microarray 2013 presents the findings of a global market study of DNA Microarray, involving the participation of 201 buyers and end-users in this field. With a focus on market development, sales growth and commercial opportunities, the study profiled current and evolving areas of this market, as outlined below. Its findings provide valuable product and market information, and decision-making support to suppliers in the DNA Microarray field.
From the early use of miniaturised microarrays for the analysis of gene expression in the mid 1990s, this technique has established markets that are expected to reach $3 billion by 2015. However, these are also changing as new applications are developed and new competitive strategies, such as PCR, grow. This report, based on an analysis of current and evolving developments in the DNA microarray field, has been produced to assist marketing and sales in this field, and the identification of new opportunities. It is the outcome of an extensive global study involving more than 200 experienced DNA microarray buyers and end-users. It's findings provide a "focus on sales growth" to developers and vendors in the microarray field, and the changes that are driving these developments. The following indicate the key market areas covered in the study:
- Routine use: Use of DNA microarrays by end-users for running routine (developed and validated) microarray tests, the development or validation of microarray tests and for the qualitative discovery using microarray methods
- Suppliers: Purchases of DNA microarrays and related systems by end-users from more than 30 companies and anticipated DNA microarray purchases by end-users from more than 30 companies over the next three years, each ranked according to their competitive position.
- Methods: Current use of more than 15 DNA microarray methods by end-users and the anticipated use of these methods by end-users over the next three years, each ranked according to their competitive position.
- Applications: Current use of more than 20 DNA microarray applications by end-users and the anticipated use of these applications by end-users over the next three years, each ranked according to their competitive position.
- Preferred Companies: End-users' preferred companies in the DNA microarray field, each ranked according to their competitive position.
- Products: End-users' preferred products (and associated companies) in the DNA microarray field, each ranked according to their competitive position.
- Strengths: End-users' disclosures of the strengths of their preferred products in the DNA microarray field, each ranked according to their competitive position.
- Weaknesses: End-users' disclosures of the weaknesses of their preferred products in the DNA microarray field, each ranked according to their relative position.
- Financial Budgets: End-users' annual financial budgets for DNA microarray studies.
- Budget Breakdown: The breakdown of end-users' DNA microarray financial budgets in eight key areas, relating to their current expenditure on DNA microarray products and activities.
- Future Budget Breakdown: The breakdown of end-users' microarray financial budgets in eight key areas, relating to their anticipated expenditure over the next three years, on DNA microarray products and activities.
- Future Budgets: End-users' anticipated changes (percentage increases or decrease) over the next three years, relating to their DNA microarray activities
- Consumables: End-users' top three consumables, associated with their DNA microarray activities.
- Quality Control: End-users' adherence to established quality control guidelines or procedures (e.g. MAIME), relating to the conduct of DNA microarray studies.
- Challenges: End-users' disclosures on molecular types that present the greatest technical challenges to DNA microarray analysis, together with the associated sample types (matrices), associated microarray methods and underlying reasons.
- Innovation: End-users' current needs relating to 12 key areas of required innovation in the DNA microarray field, each ranked (on a scale of 1 to 10) according to their importance.
- Recent Innovations: End-users disclosures on the most important innovations relating to their use of DNA microarrays, over the last three years.
- Future Innovation: End-users' disclosures on what they anticipate will be the most important innovations in the DNA microarray field, over the next three years.
- Biomarkers: End-users' application of DNA microarray methods for the study of disease biomarkers, including molecular types and their clinical utilities.
- Organisations: End-users organisations include clinics or hospitals, government bodies, large international companies, research institutes, small and medium sized companies, universities and veterinary centres.
- Fields: End-users underlying fields include biotechnology, chemicals, clinical or hospital, defence, energy, environmental, food and drink, forensics, geology, government, healthcare, natural products, pharmaceuticals, research institutes, security and universities.
- Bioinformatics Software: End-users' disclosures on their preferred bioinformatics software, associated with DNA microarray studies.
- Purpose: End-users' underlying reasons for using DNA microarray analysis across 13 major fields (biotechnology, chemicals, clinical or hospital, defence, energy, environmental, food and drink, forensics, geology, government, healthcare, natural products, pharmaceuticals, research institutes, security, university), each ranked according to their relative importance.
- Samples: Study sample types analysed by end-users using DNA microarray methods, each ranked according to their relative importance.
- Sample Preparation: The use of sample preparation methods by end-users for DNA microarray studies, each ranked according to their importance.
Executive Summary
Chapter 1 Introduction
Chapter 2 Study Participants
2.1 This Chapter
2.2 Countries
2.3 Regions
2.4 Organisation Types
2.5 Fields
2.6 Microarray Types
2.7 Participants
2.8 Discussion
Figure 2.1 Countries of individuals who participated in Microarray 2012 Figure 2.2 Global regions of individuals who participated in Microarray 2012. Figure 2.3 Organisation types of individuals who participated in Microarray 2012Figure 2.4 Fields of individuals who participated in Microarray 2012Table 2.1 Countries of individuals who participated in Microarray 2012Table 2.2 Global regions of individuals who participated in Microarray 2012Table 2.3 Organisation types of individuals who participated in Microarray 2012
Chapter 3 DNA Microarray Methods
3.1 This Chapter3.2 Current Methods3.3 Future Methods3.4 Discussion
Figure 3.1 Top ten currently used DNA microarray methods, indicated by individuals who participated in Microarray 2012
Table 3.1 Currently used DNA microarray methods, indicated by individuals who participated in Microarray 2012
Figure 3.2 Other currently used DNA microarray methods, indicated by individuals who participated in Microarray 2012
Table 3.2 Other currently used DNA microarray methods, indicated by individuals who participated in Microarray 2012
Figure 3.3 Top ten DNA microarray methods that end-users anticipate they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Table 3.3 DNA microarray methods that end-users anticipate they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Figure 3.4 Other DNA microarray methods that end-users anticipate they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Table 3.4 Other DNA microarray methods that end-users anticipate they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Chapter 4 DNA Microarray Applications
4.2 Current Applications
4.3 Future Applications
4.4 Discussion
Figure 4.1 Top ten currently used DNA microarray applications, indicated by individuals who participated in Microarray 2012Table 4.1 Currently used DNA microarray applications, indicated by individuals who participated in Microarray 2012Figure 4.2 Other currently used DNA microarray applications, indicated by individuals who participated in Microarray 2012Table 4.2 Other currently used DNA microarray applications, indicated by individuals who participated in Microarray 2012Figure 4.3 Top ten DNA microarray applications that end-users anticipate they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012Table 4.3 DNA microarray applications that end-users anticipate they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012Figure 4.4 Other DNA microarray applications that end-users anticipate they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012Table 4.4 Other DNA microarray applications that end-users anticipate they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Chapter 5 Companies
5.1 This Chapter5.2 Current Companies5.3 Future Companies5.4 Discussion
Figure 5.1 Top ten DNA microarray company suppliers, currently used by individuals who participated in Microarray 2012
Table 5.1 DNA microarray company suppliers, currently used by individuals who participated in Microarray 2012
Figure 5.2 Other DNA microarray company suppliers, currently used by individuals who participated in Microarray 2012
Table 5.2 Other DNA microarray company suppliers, currently used by individuals who participated in Microarray 2012
Figure 5.3 Top ten DNA microarray company suppliers that end-users anticipated they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Table 5.3 DNA microarray company suppliers that end-users anticipated they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Figure 5.4 Other DNA microarray company suppliers that end-users anticipated they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Table 5.4 Other DNA microarray company suppliers that end-users anticipated they will be using over the next three years (2012 to 2015), indicated by individuals who participated in Microarray 2012
Chapter 6 Preferred Companies and Products
6.1 This Chapter
6.2 Current Methods
6.3 Future Methods
6.4 Strengths
6.5 Weaknesses
6.6 Discussion
Figure 6.1 Top ten preferred suppliers in the DNA microarray field, indicated by individuals who participated in Microarray 2012Table 6.1 Preferred suppliers in the DNA microarray field, indicated by individuals who participated in Microarray 2012Figure 6.2 Other preferred suppliers in the DNA microarray field, indicated by individuals who participated in Microarray 2012Table 6.2 Other preferred suppliers in the DNA microarray field, indicated by individuals who participated in Microarray 2012Figure 6.3 Top ten preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Table 6.3 Preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Figure 6.4 Other preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Table 6.4 Other Top preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Figure 6.5 Top ten strengths of preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Table 6.5 Strengths of preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Figure 6.6 Other strengths of preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Table 6.6 Other strengths of preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Figure 6.7 Top ten weaknesses of preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Table 6.7 Weaknesses of preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Figure 6.8 Other weaknesses of preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012Table 6.8 Other weaknesses of preferred products in the DNA microarray field, indicated by individuals who participated in Microarray 2012
Chapter 7 DNA Microarray Expenditure and Budgets
7.1 This Chapter7.2 Annual Financial Budgets7.3 Breakdown of Current Financial Budgets7.4 Breakdown of Future Financial Budgets7.5 Future Financial Budgets7.6 Discussion
Figure 7.1 Annual financial budgets for DNA microarray studies, indicated by individuals who participated in Microarray 2012
Table 7.1 Annual financial budgets for DNA microarray studies, indicated by individuals who participated in Microarray 2012
Figure 7.2 The breakdown of current financial budgets for DNA microarray studies, indicated by individuals who participated in Microarray 2012
Table 7.2 The breakdown of current financial budgets for DNA microarray studies, indicated by individuals who participated in Microarray 2012
Figure 7.3 The anticipated future breakdown of financial budgets (over the next three years, 2012 to 2015) for DNA microarray studies, indicated by individuals who participated in Microarray 2012
Table 7.3 The anticipated future breakdown of financial budgets (over the next three years, 2012 to 2015) for DNA microarray studies, indicated by individuals who participated in Microarray 2012
Chapter 8 Purpose of Microarray Use
8.1 This Chapter
8.2 Purpose
8.3 Discussion
Figure 8.1 Top ten reasons for using DNA microarray in the biotechnology industry, indicated by individuals who participated in Microarray 2012
Figure 8.2 Top ten reasons for using DNA microarray in the Chemicals industry, indicated by individuals who participated in Microarray 2012
Figure 8.3 Top ten reasons for using DNA microarray in clinics or hospitals, indicated by individuals who participated in Microarray 2012
Figure 8.4 Top ten reasons for using DNA microarray in the environmental industry, indicated by individuals who participated in Microarray 2012
Figure 8.5 Top ten reasons for using DNA microarray in the food and drink industry, indicated by individuals who participated in Microarray 2012
Figure 8.6 Top ten reasons for using DNA microarray in the forensics industry, indicated by individuals who participated in Microarray 2012
Figure 8.7 Top ten reasons for using DNA microarray in the Government organisations, indicated by individuals who participated in Microarray 2012
Figure 8.8 Top ten reasons for using DNA microarray in the healthcare industry, indicated by individuals who participated in Microarray 2012
Figure 8.9 Top ten reasons for using DNA microarray in the pharmaceutical industry, indicated by individuals who participated in Microarray 2012
Figure 8.10 Top ten reasons for using DNA microarray in research institutes, indicated by individuals who participated in Microarray 2012
Figure 8.11 Top ten reasons for using DNA microarray in universities, indicated by individuals who participated in Microarray 2012
Chapter 9 Samples
9.1 This Chapter9.2 Samples9.3 Discussion
Figure 9.1 Top ten sample types analysed using DNA microarray, indicated by individuals who participated in Microarray 2012
Table 9.1 Sample types analysed using DNA microarray, indicated by individuals who participated in Microarray 2012
Chapter 10 Sample Preparation
10.1 This Chapter
10.2 Sample Preparation
10.3 Discussion
Figure 10.1 Top sample preparation methods of DNA microarray users who participated in Microarray 2012
Table 10.1 Sample preparation methods of DNA microarray users who participated in Microarray 2012
Figure 10.2 Other sample preparation methods of DNA microarray users who participated in Microarray 2012
Table 10.2 Other sample preparation methods of DNA microarray users who participated in Microarray 2012
Chapter 11 Therapeutic Areas
11.1 This Chapter
11.2 Therapeutic Areas
11.3 Discussion
Figure 11.1 Top ten therapeutic areas of DNA microarray users who participated in Microarray 2012
Table 11.1 Therapeutic areas of DNA microarray users who participated in Microarray 2012
Figure 11.2 Other therapeutic areas of DNA microarray users who participated in Microarray 2012
Table 11.2 Other therapeutic areas of DNA microarray users who participated in Microarray 2012
Chapter 12 Disease Biomarkers
12.1 This Chapter
12.2 Use of Microarray
12.3 Biomarker Types
12.4 Clinical Utility
12.5 Discussion
Figure 12.1 The use of DNA microarray for the study of disease biomarkers, indicated by individuals who participated in Microarray 2012
Figure 12.2 Principal disease biomarkers studied using DNA microarray, indicated by individuals who participated in Microarray 2012
Table 12.1 Other disease biomarkers studied using DNA microarray, indicated by individuals who participated in Microarray 2012
Figure 12.3 Clinical utilities of disease biomarkers studied using DNA microarray, indicated by individuals who participated in Microarray 2012
Table 12.2 Other clinical utilities of disease biomarkers studied using DNA microarray, indicated by individuals who participated in Microarray 2012 Chapter 13 Bioinformatics Software
13.1 This Chapter13.2 Bioinformatics Software13.3 Discussion
Figure 13.1 Top ten bioinformatics software system used for DNA microarray, indicated by users who participated in Microarray 2012
Table 13.1 Bioinformatics software system used for DNA microarray, indicated by users who participated in Microarray 2012
Figure 13.2 Other bioinformatics software system used for DNA microarray, indicated by users who participated in Microarray 2012
Table 13.2 Other bioinformatics software system used for DNA microarray, indicated by users who participated in Microarray 2012
Chapter 14 Challenging Applications
14.1 This Chapter
14.2 Most challenging Molecular Types
14.3 Most challenging Sample Types (Matrices)
14.4 Microarray Methods Used
14.5 Underlying Reasons
14.6 Discussion
Figure 14.1 The most challenging molecular studies using DNA microarray, indicated by users who participated in Microarray 2012
Table 14.1 The most challenging molecular studies using DNA microarray, indicated by users who participated in Microarray 2012
Figure 14.2 The most challenging sample types (matrices) studies using DNA microarray, indicated by users who participated in Microarray 2012
Table 14.2 The most challenging sample types (matrices) studies using DNA microarray, indicated by users who participated in Microarray 2012
Figure 14.3 Top ten DNA microarrays methods used with the most challenging molecular studies using DNA microarray, indicated by users who participated in Microarray 2012
Table 14.3 DNA microarrays methods used with the most challenging molecular studies using DNA microarray, indicated by users who participated in Microarray 2012
Figure 14.4 Top ten underlying reasons for the challenges encountered using DNA microarray analysis, indicated by users who participated in Microarray 2012
Table 14.4 Underlying reasons for the challenges encountered using DNA microarray analysis, indicated by users who participated in Microarray 2012 Chapter 15 Innovation
15.1 This Chapter15.2 Required Innovation15.3 Recent Innovation15.4 Future Innovation15.5 Discussion
Figure 15.1 Top ten most required areas of innovation in DNA microarray, indicated by individuals who participated in Microarray 2012
Table 15.1 Most required areas of innovation in DNA microarray, indicated by individuals who participated in Microarray 2012
Figure 15.2 Other required areas of innovation in DNA microarray, indicated by individuals who participated in Microarray 2012
Table 15.2 Other required areas of innovation in DNA microarray, indicated by individuals who participated in Microarray 2012
Figure 15.3 Top ten recent innovations (in the last three years) in DNA microarray, indicated by individuals who participated in Microarray 2012
Table 15.3 Recent innovations (in the last three years) in DNA microarray, indicated by individuals who participated in Microarray 2012
Figure 15.4 Top ten future anticipated innovations (in the next three years) in DNA microarray, indicated by individuals who participated in Microarray 2012
Table 15.4 Future anticipated innovations (in the next three years) in DNA microarray, indicated by individuals who participated in Microarray 2012
Chapter 16 Quality Control
16.1 This Chapter
16.2 Quality Control
16.3 Discussion
Figure 16.1 Top ten most commonly used quality control guidelines or procedures used in DNA microarray analysis, indicated by individuals who participated in Microarray 2012 Table 16.1 Quality control guidelines or procedures used in DNA microarray analysis, indicated by individuals who participated in Microarray 2012
Chapter 17 Discussion
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