Robust Investment in Healthcare to Drive the Global Tissue Engineering Market | Technology Trends, Global Industry SWOT Analysis, Strategy Profiling, Regional Outlook by 2027

Tissue Engineering Market – Insights

Tissue engineering field is interdisciplinary addressed for developing three-dimensional functional tissues, scaffolds, bioactive molecules, and combining cells. The field includes scientific areas including cell biology, material science, chemistry, molecular biology, engineering, and medicine. It could be used for developing functional constructs which could be used for reestablishing, maintaining or improving condition of the injured tissues or body parts.

Tissue engineering even assist in damaged tissue regeneration through combining cells of the body with scaffold biomaterials that are highly porous. Scaffold biomaterials behave like templates for the tissue regeneration, while guiding new tissue growth. Tissue regeneration process is extremely beneficial for organ therapeutics’ clinical management including organ transplantation. Source of cells used for tissue engineering could be autologous (through patient), allogenic (through a human donor however, immunologically unidentical), or xenogenic (through a donor of different species).

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The global tissue engineering market size accounted for US$ 5.5 billion in 2017, and is projected to exhibit an 11.5% CAGR over the forecast period (2018 – 2026).

Global Tissue Engineering Market: Drivers

Rising kidney related disorders’ prevalence is expected to accelerate growth of the global tissue engineering market growth over the forecast period. Tissue engineering field is gaining popularity in several areas including wound care, orthopedics, burn treatment, urological products, and neurology, among others. Tissue engineering could play a crucial part in managing pediatric patients. Organs or tissue absent from birth, within congenital anomalies including esophageal atresia, congenital diaphragmatic hernia, and bladder exstrophy, impose serious hurdles in surgical repair. Furthermore, increasing trauma and burn-related injuries is expected to propel growth of the global tissue engineering market over the forecast period. As per the 2014 data from the American Burn Association, around 450,000 patients get emergency room and hospital treatment due to burns every year.

Donor shortage for several procedures of transplantation possess a major challenge for clinicians globally. As per information by the U.S. government on organ transplantation and donation, around 114,687 the U.S. populace, as of 2017, were on the waiting list for transplants including kidneys, livers, hearts, and other organ. Tissue engineering could fulfil the organ transplantation inadequacy and rising prominence of 3D printing within medical applications to regenerate is expected to drive the tissue engineering’s demand over the forecast period. The field of tissue engineering even foresee a future that is promising for 3D contour restoration along with the function loss for affected parts of the body.

Global Tissue Engineering Market Restraints

Presently available methods of tissue engineering face various problems such as ineffective cell growth, unstable and insufficient growth factors’ production for stimulating proper response and cell communication along with absence of suitable techniques and biomaterials to capture adequate physiological architectures. Furthermore, inability in controlling cellular functions along with their several properties (mechanical, electrochemical, biological, and others) and biomolecular detection issues along with biosensors are some other limitations related to tissue engineering.

Moreover, in spite of the increasing interests in research of tissue engineering, legislative and ethical debates are expected to hamper its progress. For instance, the political, religious, and ethical, opposition for research of embryonic stem cell, which uses primarily non-transferred discarded human embryos for derivation, possess a biased research towards adult stem cell along with seriously restricted federal funding within the U.S.

Global Tissue Engineering Market – Regional Insights

Based on geography, the global tissue engineering market is segregated into North America, Europe, Latin America, Asia Pacific, Africa, and Middle East. North America is expected to witness significant growth in the global tissue engineering market over the forecast period, due to growing geriatric population along with research studies within the tissue engineering field. For instance, bioengineers from the Pennsylvania State University, in August 2018, designed a composite ink for 3-D printing the bone-like constructs, porous. The materials exhibited interactions that are biologically favorable within the laboratory, before bone regeneration positive outcomes within an animal model in the vivo.

Europe is expected to witness lucrative growth, due to several private and public organizations focused on tissue engineering field’s research. For instance, most research in tissue engineering, in UK, happens in universities where majority funding is granted from organizations that support the bioengineered organ development for drug testing, such as the Refinement and Reduction of Animals in Research (NC3Rs) National Centre for the Replacement and the Innovative Medicines Initiative from the EU.

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Tissue Engineering Market – Competitive Landscape

Key players functioning in the global prosthetic liners market consists of Acelity L.P. Inc., Allergan Plc., Athersys, Inc., B. Braun, BioMimetic Therapeutics, Bio Tissue Technologies, C. R. Bard, International Stem Cell, Integra Lifesciences, Medtronic, Inc., Organogenesis Inc., Osiris Therapeutics, RTI surgical, Inc., Stryker Corporation, Tissue Regenix Group Plc., and Zimmer Biomet

Main points in Tissue Engineering Market Report Table of Content

Chapter 1 Industry Overview
1.1 Definition
1.2 Assumptions
1.3 Research Scope
1.4 Market Analysis by Regions
1.5 Global Tissue Engineering Market Size Analysis from 2021 to 2027
11.6 COVID-19 Outbreak: Tissue Engineering Industry Impact

Chapter 2 Global Tissue Engineering Competition by Types, Applications, and Top Regions and Countries
2.1 Global Tissue Engineering (Volume and Value) by Type
2.3 Global Tissue Engineering (Volume and Value) by Regions

Chapter 3 Production Market Analysis
3.1 Global Production Market Analysis
3.2 Regional Production Market Analysis

Chapter 4 Global Tissue Engineering Sales, Consumption, Export, Import by Regions (2016-2021)
Chapter 5 North America Tissue Engineering Market Analysis
Chapter 6 East Asia Tissue Engineering Market Analysis
Chapter 7 Europe Tissue Engineering Market Analysis
Chapter 8 South Asia Tissue Engineering Market Analysis
Chapter 9 Southeast Asia Tissue Engineering Market Analysis
Chapter 10 Middle East Tissue Engineering Market Analysis
Chapter 11 Africa Tissue Engineering Market Analysis
Chapter 12 Oceania Tissue Engineering Market Analysis
Chapter 13 South America Tissue Engineering Market Analysis
Chapter 14 Company Profiles and Key Figures in Tissue Engineering Business
Chapter 15 Global Tissue Engineering Market Forecast (2021-2027)
Chapter 16 Conclusions
Research Methodology

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