For several decades, both synthetic and natural materials have been explored for use as scaffolds in tissue engineering. Artificial extracellular matrices (aECMs) are an extension of biomaterials that were developed to provide a model environment for tissue cells in-vitro that mimic the native surroundings of the target tissue in vivo.
Over the years, the use of aECMs has attained an excellent reputation in the field of tissue engineering due to their exceptional mechanical properties, processability and low cost. Artificial ECMs are generally classified as either a natural polymer-based, synthetic polymer-based, or hybrid material, and they differ based on their component materials.
Design of artificial ECMs is very important in tissue engineering, because artificial ECMs regulate many cellular behaviors, including proliferation and growth, survival, change of cell shape, migration, and differentiation. Also, artificial ECMs have multiple functions, such as serving as an adhesive substrate, provision of structure, presentation and storage of growth factors, and detection of signals.
- Introduction to artificial extracellular matrices
- Introduction
- Artificial extracellular matrices technology
- Artificial extracellular matrices types
- Competitors & comparison
- International project about
- Country policy about
- Market
- Introduction to technology analysis
2-1. Patent & articles documents properties
2-2. Importance of documents information analysis
2-3. Search tool (patent & article search database)
2-4. Determining specialized and comprehensive keywords
2-5. Extraction of standard patent classification codes
2-6. International Patent Classification
2-7. Main stages of technology analysis process
- Technology analysis
3-1- Introduction
3-2- Analysis of patent publication trend
3-3- Geographical analysis of patent
3-4- Analysis of of active players
3-5- key players by time
3-6- Cooperation of players
3-7- Top researchers
3-8- Top key concepts
3-9- Top CPC codes in technology
3-10-Technology related fields
3-11-Technology life cycle
3-12. Review of technology research status in technology
3-14. Timing of document publish
3-15.Top researchers
3-16.Top countries in research
3-17.Top countries research trend
3-18.Top research centers in the technology
3-19.Top research centers trend
3-20.Top academic research teams & their scope
- Text mining for the documents
4-1. The key concepts
4-3. Top technical patents
4-3. Top patents technical analysis
4-4. Text mining of patents for technical purpose (Customised)
4-5. Text mining of articles for technical purpose (Customised)
4-6.Top commercial patents for selected domains or subsectors
- Commercial status of technology
5-1. Identify companies with a product / technology
5-2. Technical information of commercialized products
5-3. Identify supported research projects and case studies
5-4. Review the necessary rules, standards and licenses for a products (Customized)
5-5. Preparation of a product technical identification (Customized)
5-6. Product History (Customized)
5-7. Different product / technology applications (Customized)
5-8. Conventional and modern methods of product / technology production (Customized)
5-9. Challenges and prospects of technology commercialization
- Drawing technology tree
6-1. Review articles
6-2. Review patents
6-3. Drawing a technology tree according to the documents information
- Results, Challenges and Suggestions
7-1. Results
7-2.Challenges and suggestions
Resources