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Orthopedic Biomaterials Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2013 - 2019

Orthopedic Biomaterials Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2013 - 2019 | AlFeTi | Scoop.it
[Original Price: $4795] [Discount Price: $4315.5] You Will Get Custom Report at Syndicated Price on Orthopedic Biomaterials Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2013 - 2019...

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alina martin's curator insight, December 3, 2013 4:08 AM

Orthopedic biomaterials are organic or synthetic materials of biologic composition used for internal fixation of fracture. Biomaterial devices which are manufactured for large number of orthopedic applications are commonly termed as ‘Implants’. These biomaterials help in re-establishing the structural integrity of the damaged bone due to trauma or diseased conditions. Biocompatibility of the material is the primary factor to be considered before its usage in orthopedic applications. Other characteristics on which the success of biomaterials in biological applications depends on the choice of material for its construction, appropriate design, stability and various properties like hardness and tensile strength and their interaction with soft and hard tissues and intra and extracellular fluids of the human body and blood.

 

Browse Full Report with TOC: http://www.transparencymarketresearch.com/orthopedic-biomaterials-market.html

 

The orthopedic biomaterials market is categorized on the type of biomaterial, its application and by geography. The major types of biomaterials used in the orthopedic applications are divided into two groups; metals and non-metals:

MetalsStainless steels: 316LTitanium and titanium-base alloysCobalt alloysNon-MetalsPolymersCeramicsComposites

The orthopedic implants by application are categorized as follows:

OrthobiologicsJoint replacementsViscosupplementationBioresorbable tissue fixation productsNonconventional modular tumor implantsSpine implants

Globally, North America dominates the orthopedic biomaterials market due to increase in aging population and is followed by European countries, Asia and rest of the world. Developing countries in Asia such as China and Taiwan are expected to undergo rapid market growth due to rising awareness of biodegradable products, vigorous research-related activities, collaborations and undertaking of various health conferences and conventions both by governments and private bodies.

 

One of the major drivers for this market is the vigorous ongoing research in development of biomaterials and its widened scope of applications. Other factors driving the orthopedic biomaterials market include increase in investments for novel development, government initiative of funding and grants, advancement in technologies and increase in elderly population.  The key deterrents responsible for curbing the market growth are lack of data for long term performance of clinical studies, stringent regulatory laws, post implantation issues such as fracture fatigue and dicey reimbursement policies.

 

Some of the key players in orthopedic biomaterials market are Carpenter Technology Corporation, Materion Corporation, Ulbrich Stainless Steel & Special Metals, Inc., Heraeus Medical Components, CeramTec (a subsidiary of Rockwood Holdings Inc.), Ceradyne, Inc., Kyocera Corporation, Bayer,  Purac Biomaterials, DSM Biomedical, Inc., Evonik Industries AG, Cam Bioceramics B.V., Ticona GmbH, Osteotech, Inc., Starch Medical, Inc. and Landec Corporation.


This research report analyzes this market depending on its market segments, major geographies, and current market trends. Geographies analyzed under this research report include 

North America Asia Pacific EuropeRest of the World  

This report provides comprehensive analysis of 

Market growth drivers Factors limiting market growthCurrent market trends Market structureMarket projections for upcoming years 

This report is a complete study of current trends in the market, industry growth drivers, and restraints. It provides market projections for the coming years. It includes analysis of recent developments in technology, Porter’s five force model analysis and detailed profiles of top industry players. The report also includes a review of micro and macro factors essential for the existing market players and new entrants along with detailed value chain analysis. 

 

More Reports On Chemical And Materials Market: http://www.transparencymarketresearch.com/chemical-market-reports-2.html

 

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Transparency Market Research (TMR) is a market intelligence company providing global business research reports and consulting services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insights for thousands of decision-makers.

 

TMR’s experienced team of analysts, researchers, and consultants use proprietary data sources along with various tools and techniques to gather and analyze information.Our business offerings represent the latest and the most reliable information which is indispensable for businesses to sustain their competitive edge.

 

Download PDF File: Orthopedic Biomaterials Market - Global Industry Analysis, Size, Share, Growth, Trends And Forecast, 2013-2019

 

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Scaffold biomaterials for nano-pathophysiology

Scaffold biomaterials for nano-pathophysiology | AlFeTi | Scoop.it

This review is intended to provide an overview of tissue engineering strategies using scaffold biomaterials to develop a vascularized tissue engineered construct for nano-pathophysiology. Two primary topics are discussed. The first is the biological or synthetic microenvironments that regulate cell behaviors in pathological conditions and tissue regeneration. Second is the use of scaffold biomaterials with angiogenic factors and/or cells to realize vascularized tissue engineered constructs for nano-pathophysiology. These topics are significantly overlapped in terms of three-dimensional (3-D) geometry of cells and blood vessels. Therefore, this review focuses on neovascularization of 3-D scaffold biomaterials induced by angiogenic factors and/or cells. The novel strategy of this approach in nano-pathophysiology is to utilize the vascularized tissue engineered construct as a tissue model to predict the distribution and subsequent therapeutic efficacy of a drug delivery system with different physicochemical and biological properties.


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*A great Science special about biomaterials*

"For biomaterials to move from the lab to clinical use, engineers, surgeons, physicists, and biologists all increasingly need to work together."

http://bit.ly/WegXa3


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