Tissue engineering is a rapidly diversifying technology that emerged as a regenerative or reparative medicine with potential to circumvent organ shortage globally. Extensive developments in tissue engineering, which involve leveraging technologies from biomaterials, molecular medicine, biochemistry, nanotechnology, genetic, and biomedical engineering, target the restructure and/or repair of human organs through regeneration and cell expansion.
In recent years, cell-based technologies and the integration of genetics with the use of biological substitutes that aim to restore, maintain or enhance tissue function have been a popular approach for tissue regeneration and reparation treatment, according to Frost & Sullivan's Advances in Tissue Engineering and Organ Regeneration: Technology Market Penetration and Roadmapping analysis (technicalinsights.frost.com).
For more information on this research, please email Jennifer Carson, Corporate Communications, at jennifer.carson[.]frost.com.
Tissue engineering has been a field marked by extensive research and development (R&D), and companies take several years to commercially launch products.
"Still considered a nascent science, research in the field has offered and continues to offer an increasing number of substitutes for applications that would enable the human body to withstand pain and injuries," said Frost & Sullivan Technical Insights Industry Analyst Darshana De. "Apart from previous applications such as the common regeneration of bone, cartilage and skin, current targets have expanded to cardiovascular, kidney, pancreas, liver, spine, ligament, esophagus, cornea, thoracic, lung, nerve, lymphatic and blood vessels."
Despite this expanding capability and the technology's remarkable impact on the healthcare sector, tissue engineers need to overcome many challenges for their field to gain recognition as a mainstream medical technology. For instance, safety and efficacy remain top concerns with several products still undergoing research studies for their validation. Therefore, most patients continue to opt for treatment by medication and the usage of medical devices for temporary relief of symptoms.
Nevertheless, regenerative medicine has immense scope as a disruptive technology, especially as a number of medical device and pharmaceutical companies are conducting R&D through mergers and acquisitions with smaller companies or partnerships with the academic sector.
"As a result, stem cells and cell transplantation technology have evolved from a lab-based research hypothesis model into an applicable treatment mode for patients," observed De. "Recent advancements in molecular biology tools, imaging equipment, and cellular mechanism elucidation could provide more discoveries, substantiation, and an improved R&D process for cell-based therapies."
The convergence of these methodologies and equipment will open up new opportunities for different stakeholders and quicken market penetration.
Advances in Tissue Engineering and Organ Regeneration: Technology Market Penetration and Roadmapping, a part of the Technical Insights subscription, details the advancements in tissue engineering technology and provides an overview of the value chain networks existing in this domain. The study analyzes the market impact of innovations in tissue engineering and organ regeneration, key business accelerators and challenges, and end-user demand. Further, this research service includes detailed technology analysis and industry trends evaluated following extensive interviews with market participants.
Technical Insights is an international technology analysis business that produces a variety of technical news alerts, newsletters, and research services.
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Advances in Tissue Engineering and Organ Regeneration: Technology Market Penetration and Roadmapping / D506-TI