- published: 24 Feb 2016
- views: 2676
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Robert Langer gives us a fascinating look at his research in material science and biomaterials, areas he sees that have exciting potential for innovation and will transform our society in a positive way.
Robert is considered to be a founding father of numerous scientific fields such as anti-tumor therapy, controlled drug release, and tissue engineering. He is the David H. Koch Institute Professor at MIT and has received over 200 awards including the 2006 US National Medal of Science; the 2008 Millennium Prize; and the 2012 Priestley Medal. Dr. Langer has written nearly 1,130 articles, has nearly 800 issued and pending patents, and is known as the most cited engineer in history.
About TEDx, x=independently organize event
In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x=independently organized TED event.
The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.*
(*Subject to certain rules and regulations)
- published: 02 Mar 2012
- views: 35468
Students: Stephanie Hebert, Geoffrey Maynard, Abdulmajid Binshelayl, Rasheed Alfaris
Instructor: Dr. Mary C. Arico
Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face.
Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a collegiate introduction to biomaterials course.
- published: 20 Oct 2015
- views: 2558
Animals and plants can produce amazing materials such as spider webs, wood or bone using only a few raw materials available. How do they achieve this? And what can engineers learn from them?
- published: 03 Jan 2017
- views: 796
In this lecture, Robert S. Langer, the David H. Koch Institute Professor at the Massachusetts Institute of Technology, examines the enormous impact of biomaterials and biomaterial-based drug delivery systems on human health and how these new technologies might develop and be applied in the future.
Learn more about the people and programs of the Radcliffe Institute at www.radcliffe.harvard.edu.
- published: 04 Feb 2014
- views: 13031
The research at the GKSS Centre of Biomaterial Development in Teltow is focussed on the development of innovative, polymer-based biomaterials for medical applications. The spectrum of our product developments extends from different types of plastics that can be used in regenerative medicine and in the field of tissue engineering to active implants for minimally invasive surgery, adsorber materials for filter systems, apheresis or other detoxification processes for use on bodily fluids outside the body, and intelligent drug delivery systems for the pharmaceutical industry. (Produced in June 2009)
- published: 09 Sep 2009
- views: 10310
School of Biomedical Engineering, Science, and Health Systems
Drexel University
- published: 16 Sep 2016
- views: 689
Students: Kevin Lawrence, Chunghwan Kim, Mana Almansour
Instructor: Dr. Mary C. Arico
Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face.
Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a collegiate introduction to biomaterials course.
- published: 20 Oct 2015
- views: 287
Air date: Wednesday, September 28, 2011, 3:00:00 PM
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Description: Recent developments in biomaterials technology have enabled the production of biodegradable, cytocompatible tissue engineering scaffolds that can be tailored with appropriate mechanical and biological signals to restore damaged tissue in specific sites in the body. For example, our laboratory has developed a variety of biodegradable polymers for the controlled delivery of biologically active agents and/or progenitor stem cell populations to promote regeneration of tissues such as bone and cartilage.
Further, we have explored the application of bioreactor culture of progenitor cell populations to produce extracellular matrix constructs containing biologically active signals to direct cellular differentiation and tissue formation. Ongoing research in collaboration with clinical colleagues also involves the development of materials-based approaches for application in strategies for bone regeneration, with a vision for rapid clinical translation. This talk will present examples of biomaterials from our laboratory to illustrate recent advances in tailored biomaterials-based approaches for bone and cartilage tissue engineering.
The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide.
For more information, visit:
The NIH Director's Wednesday Afternoon Lecture Series
Author: Antonios Mikos, Ph.D., Rice University
Runtime: 01:06:15
Permanent link: http://videocast.nih.gov/launch.asp?16880
- published: 29 Sep 2011
- views: 18331
Biomaterial
A biomaterial is any matter, surface, or construct that interacts with living systems. As a science, biomaterials is about fifty years old. The study of biomaterials is called biomaterials science or biomaterials engineering. It has experienced steady and strong growth over its history, with many companies investing large amounts of money into the development of new products. Biomaterials science encompasses elements of medicine, biology, chemistry, tissue engineering and materials science.
Material exploited in contact with living tissues, organisms, or microorganisms.
Introduction
Biomaterials can be derived either from nature or synthesized in the laboratory using a variety of chemical approaches utilizing metallic components, polymers, ceramics or composite materials. They are often used and/or adapted for a medical application, and thus comprises whole or part of a living structure or biomedical device which performs, augments, or replaces a natural function. Such functions may be benign, like being used for a heart valve, or may be bioactive with a more interactive functionality such as hydroxy-apatite coated hip implants. Biomaterials are also used every day in dental applications, surgery, and drug delivery. For example, a construct with impregnated pharmaceutical products can be placed into the body, which permits the prolonged release of a drug over an extended period of time. A biomaterial may also be an autograft, allograft or xenograft used as a transplant material.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Biomaterial
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
21st century
The 21st century is the current century of the Anno Domini era or the Common Era, in accordance with the Gregorian calendar. It began on January 1, 2001, and will end on December 31, 2100. It is the first century of the 3rd millennium. It is distinct from the century known as the 2000s, which began on January 1, 2000 and will end on December 31, 2099.
Transitions and changes
The first years of the 21st century have thus far been marked by the rise of a global economy and Third World consumerism, mistrust in government, deepening global concern over terrorism and an increase in the power of private enterprise. The longterm effects of increased globalization are not known, but there are many who are concerned about its implications. The Arab Spring of the early 2010s led to mixed outcomes in the Arab world. The Digital Revolution which began around the 1980s also continues into the present. The Millennials (born c. 1981-2000) having been born before the turn of the century give way to the rise of Generation Y & Generation Z in Western countries.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/21st_century
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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1:38What is Biomaterials Science?
What is Biomaterials Science?What is Biomaterials Science?
-
17:51TEDxBigApple - Robert Langer - Biomaterials for the 21st Century
TEDxBigApple - Robert Langer - Biomaterials for the 21st CenturyTEDxBigApple - Robert Langer - Biomaterials for the 21st Century
Robert Langer gives us a fascinating look at his research in material science and biomaterials, areas he sees that have exciting potential for innovation and will transform our society in a positive way. Robert is considered to be a founding father of numerous scientific fields such as anti-tumor therapy, controlled drug release, and tissue engineering. He is the David H. Koch Institute Professor at MIT and has received over 200 awards including the 2006 US National Medal of Science; the 2008 Millennium Prize; and the 2012 Priestley Medal. Dr. Langer has written nearly 1,130 articles, has nearly 800 issued and pending patents, and is known as the most cited engineer in history. About TEDx, x=independently organize event In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x=independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations) -
5:02Polymers & Biomaterials
Polymers & BiomaterialsPolymers & Biomaterials
Students: Stephanie Hebert, Geoffrey Maynard, Abdulmajid Binshelayl, Rasheed Alfaris Instructor: Dr. Mary C. Arico Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face. Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a collegiate introduction to biomaterials course. -
8:37Biomaterials - patent solutions from nature
Biomaterials - patent solutions from natureBiomaterials - patent solutions from nature
Animals and plants can produce amazing materials such as spider webs, wood or bone using only a few raw materials available. How do they achieve this? And what can engineers learn from them? -
1:20:10Robert S. Langer: Biomaterials for the 21st Century || Radcliffe Institute
Robert S. Langer: Biomaterials for the 21st Century || Radcliffe InstituteRobert S. Langer: Biomaterials for the 21st Century || Radcliffe Institute
In this lecture, Robert S. Langer, the David H. Koch Institute Professor at the Massachusetts Institute of Technology, examines the enormous impact of biomaterials and biomaterial-based drug delivery systems on human health and how these new technologies might develop and be applied in the future. Learn more about the people and programs of the Radcliffe Institute at www.radcliffe.harvard.edu. -
8:11Biomaterials for medical applications
Biomaterials for medical applicationsBiomaterials for medical applications
The research at the GKSS Centre of Biomaterial Development in Teltow is focussed on the development of innovative, polymer-based biomaterials for medical applications. The spectrum of our product developments extends from different types of plastics that can be used in regenerative medicine and in the field of tissue engineering to active implants for minimally invasive surgery, adsorber materials for filter systems, apheresis or other detoxification processes for use on bodily fluids outside the body, and intelligent drug delivery systems for the pharmaceutical industry. (Produced in June 2009) -
46:16Metal and ceramic biomaterials
Metal and ceramic biomaterialsMetal and ceramic biomaterials
School of Biomedical Engineering, Science, and Health Systems Drexel University -
8:11Polymers as Biomaterials
Polymers as Biomaterials -
5:27Biomaterials Final Project: Biomaterial Soft Tissue & Collagen
Biomaterials Final Project: Biomaterial Soft Tissue & CollagenBiomaterials Final Project: Biomaterial Soft Tissue & Collagen
Students: Kevin Lawrence, Chunghwan Kim, Mana Almansour Instructor: Dr. Mary C. Arico Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face. Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a collegiate introduction to biomaterials course. -
1:06:16Biomaterials for Tissue Engineering
Biomaterials for Tissue EngineeringBiomaterials for Tissue Engineering
Air date: Wednesday, September 28, 2011, 3:00:00 PM Time displayed is Eastern Time, Washington DC Local Category: Wednesday Afternoon Lectures Description: Recent developments in biomaterials technology have enabled the production of biodegradable, cytocompatible tissue engineering scaffolds that can be tailored with appropriate mechanical and biological signals to restore damaged tissue in specific sites in the body. For example, our laboratory has developed a variety of biodegradable polymers for the controlled delivery of biologically active agents and/or progenitor stem cell populations to promote regeneration of tissues such as bone and cartilage. Further, we have explored the application of bioreactor culture of progenitor cell populations to produce extracellular matrix constructs containing biologically active signals to direct cellular differentiation and tissue formation. Ongoing research in collaboration with clinical colleagues also involves the development of materials-based approaches for application in strategies for bone regeneration, with a vision for rapid clinical translation. This talk will present examples of biomaterials from our laboratory to illustrate recent advances in tailored biomaterials-based approaches for bone and cartilage tissue engineering. The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide. For more information, visit: The NIH Director's Wednesday Afternoon Lecture Series Author: Antonios Mikos, Ph.D., Rice University Runtime: 01:06:15 Permanent link: http://videocast.nih.gov/launch.asp?16880
-
What is Biomaterials Science?
published: 24 Feb 2016 -
TEDxBigApple - Robert Langer - Biomaterials for the 21st Century
Robert Langer gives us a fascinating look at his research in material science and biomaterials, areas he sees that have exciting potential for innovation and will transform our society in a positive way. Robert is considered to be a founding father of numerous scientific fields such as anti-tumor therapy, controlled drug release, and tissue engineering. He is the David H. Koch Institute Professor at MIT and has received over 200 awards including the 2006 US National Medal of Science; the 2008 Millennium Prize; and the 2012 Priestley Medal. Dr. Langer has written nearly 1,130 articles, has nearly 800 issued and pending patents, and is known as the most cited engineer in history. About TEDx, x=independently organize event In the spirit of ideas worth spreading, TEDx is a program of local...
published: 02 Mar 2012 -
Polymers & Biomaterials
Students: Stephanie Hebert, Geoffrey Maynard, Abdulmajid Binshelayl, Rasheed Alfaris Instructor: Dr. Mary C. Arico Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face. Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% ...
published: 20 Oct 2015 -
Biomaterials - patent solutions from nature
Animals and plants can produce amazing materials such as spider webs, wood or bone using only a few raw materials available. How do they achieve this? And what can engineers learn from them?
published: 03 Jan 2017 -
Robert S. Langer: Biomaterials for the 21st Century || Radcliffe Institute
In this lecture, Robert S. Langer, the David H. Koch Institute Professor at the Massachusetts Institute of Technology, examines the enormous impact of biomaterials and biomaterial-based drug delivery systems on human health and how these new technologies might develop and be applied in the future. Learn more about the people and programs of the Radcliffe Institute at www.radcliffe.harvard.edu.
published: 04 Feb 2014 -
Biomaterials for medical applications
The research at the GKSS Centre of Biomaterial Development in Teltow is focussed on the development of innovative, polymer-based biomaterials for medical applications. The spectrum of our product developments extends from different types of plastics that can be used in regenerative medicine and in the field of tissue engineering to active implants for minimally invasive surgery, adsorber materials for filter systems, apheresis or other detoxification processes for use on bodily fluids outside the body, and intelligent drug delivery systems for the pharmaceutical industry. (Produced in June 2009)
published: 09 Sep 2009 -
Metal and ceramic biomaterials
School of Biomedical Engineering, Science, and Health Systems Drexel University
published: 16 Sep 2016 -
Polymers as Biomaterials
Chemistry at York, First year Macromolecules project.
published: 19 Apr 2013 -
Biomaterials Final Project: Biomaterial Soft Tissue & Collagen
Students: Kevin Lawrence, Chunghwan Kim, Mana Almansour Instructor: Dr. Mary C. Arico Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face. Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a co...
published: 20 Oct 2015 -
Biomaterials for Tissue Engineering
Air date: Wednesday, September 28, 2011, 3:00:00 PM Time displayed is Eastern Time, Washington DC Local Category: Wednesday Afternoon Lectures Description: Recent developments in biomaterials technology have enabled the production of biodegradable, cytocompatible tissue engineering scaffolds that can be tailored with appropriate mechanical and biological signals to restore damaged tissue in specific sites in the body. For example, our laboratory has developed a variety of biodegradable polymers for the controlled delivery of biologically active agents and/or progenitor stem cell populations to promote regeneration of tissues such as bone and cartilage. Further, we have explored the application of bioreactor culture of progenitor cell populations to produce extracellular matri...
published: 29 Sep 2011
What is Biomaterials Science?
- Order: Reorder
- Duration: 1:38
- Updated: 24 Feb 2016
- views: 2676
- published: 24 Feb 2016
- views: 2676
TEDxBigApple - Robert Langer - Biomaterials for the 21st Century
- Order: Reorder
- Duration: 17:51
- Updated: 02 Mar 2012
- views: 35468
Robert Langer gives us a fascinating look at his research in material science and biomaterials, areas he sees that have exciting potential for innovation and wi...
Robert Langer gives us a fascinating look at his research in material science and biomaterials, areas he sees that have exciting potential for innovation and will transform our society in a positive way.
Robert is considered to be a founding father of numerous scientific fields such as anti-tumor therapy, controlled drug release, and tissue engineering. He is the David H. Koch Institute Professor at MIT and has received over 200 awards including the 2006 US National Medal of Science; the 2008 Millennium Prize; and the 2012 Priestley Medal. Dr. Langer has written nearly 1,130 articles, has nearly 800 issued and pending patents, and is known as the most cited engineer in history.
About TEDx, x=independently organize event
In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x=independently organized TED event.
The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.*
(*Subject to certain rules and regulations)
https://wn.com/Tedxbigapple_Robert_Langer_Biomaterials_For_The_21St_Century
Robert Langer gives us a fascinating look at his research in material science and biomaterials, areas he sees that have exciting potential for innovation and will transform our society in a positive way.
Robert is considered to be a founding father of numerous scientific fields such as anti-tumor therapy, controlled drug release, and tissue engineering. He is the David H. Koch Institute Professor at MIT and has received over 200 awards including the 2006 US National Medal of Science; the 2008 Millennium Prize; and the 2012 Priestley Medal. Dr. Langer has written nearly 1,130 articles, has nearly 800 issued and pending patents, and is known as the most cited engineer in history.
About TEDx, x=independently organize event
In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x=independently organized TED event.
The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.*
(*Subject to certain rules and regulations)
- published: 02 Mar 2012
- views: 35468
Polymers & Biomaterials
- Order: Reorder
- Duration: 5:02
- Updated: 20 Oct 2015
- views: 2558
Students: Stephanie Hebert, Geoffrey Maynard, Abdulmajid Binshelayl, Rasheed Alfaris
Instructor: Dr. Mary C. Arico
Course Overview: Biomaterials is the study ...
Students: Stephanie Hebert, Geoffrey Maynard, Abdulmajid Binshelayl, Rasheed Alfaris
Instructor: Dr. Mary C. Arico
Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face.
Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a collegiate introduction to biomaterials course.
https://wn.com/Polymers_Biomaterials
Students: Stephanie Hebert, Geoffrey Maynard, Abdulmajid Binshelayl, Rasheed Alfaris
Instructor: Dr. Mary C. Arico
Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face.
Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a collegiate introduction to biomaterials course.
- published: 20 Oct 2015
- views: 2558
Biomaterials - patent solutions from nature
- Order: Reorder
- Duration: 8:37
- Updated: 03 Jan 2017
- views: 796
Animals and plants can produce amazing materials such as spider webs, wood or bone using only a few raw materials available. How do they achieve this? And what ...
Animals and plants can produce amazing materials such as spider webs, wood or bone using only a few raw materials available. How do they achieve this? And what can engineers learn from them?
https://wn.com/Biomaterials_Patent_Solutions_From_Nature
Animals and plants can produce amazing materials such as spider webs, wood or bone using only a few raw materials available. How do they achieve this? And what can engineers learn from them?
- published: 03 Jan 2017
- views: 796
Robert S. Langer: Biomaterials for the 21st Century || Radcliffe Institute
- Order: Reorder
- Duration: 1:20:10
- Updated: 04 Feb 2014
- views: 13031
In this lecture, Robert S. Langer, the David H. Koch Institute Professor at the Massachusetts Institute of Technology, examines the enormous impact of biomateri...
In this lecture, Robert S. Langer, the David H. Koch Institute Professor at the Massachusetts Institute of Technology, examines the enormous impact of biomaterials and biomaterial-based drug delivery systems on human health and how these new technologies might develop and be applied in the future.
Learn more about the people and programs of the Radcliffe Institute at www.radcliffe.harvard.edu.
https://wn.com/Robert_S._Langer_Biomaterials_For_The_21St_Century_||_Radcliffe_Institute
In this lecture, Robert S. Langer, the David H. Koch Institute Professor at the Massachusetts Institute of Technology, examines the enormous impact of biomaterials and biomaterial-based drug delivery systems on human health and how these new technologies might develop and be applied in the future.
Learn more about the people and programs of the Radcliffe Institute at www.radcliffe.harvard.edu.
- published: 04 Feb 2014
- views: 13031
Biomaterials for medical applications
- Order: Reorder
- Duration: 8:11
- Updated: 09 Sep 2009
- views: 10310
The research at the GKSS Centre of Biomaterial Development in Teltow is focussed on the development of innovative, polymer-based biomaterials for medical applic...
The research at the GKSS Centre of Biomaterial Development in Teltow is focussed on the development of innovative, polymer-based biomaterials for medical applications. The spectrum of our product developments extends from different types of plastics that can be used in regenerative medicine and in the field of tissue engineering to active implants for minimally invasive surgery, adsorber materials for filter systems, apheresis or other detoxification processes for use on bodily fluids outside the body, and intelligent drug delivery systems for the pharmaceutical industry. (Produced in June 2009)
https://wn.com/Biomaterials_For_Medical_Applications
The research at the GKSS Centre of Biomaterial Development in Teltow is focussed on the development of innovative, polymer-based biomaterials for medical applications. The spectrum of our product developments extends from different types of plastics that can be used in regenerative medicine and in the field of tissue engineering to active implants for minimally invasive surgery, adsorber materials for filter systems, apheresis or other detoxification processes for use on bodily fluids outside the body, and intelligent drug delivery systems for the pharmaceutical industry. (Produced in June 2009)
- published: 09 Sep 2009
- views: 10310
Metal and ceramic biomaterials
- Order: Reorder
- Duration: 46:16
- Updated: 16 Sep 2016
- views: 689
School of Biomedical Engineering, Science, and Health Systems
Drexel University
- published: 16 Sep 2016
- views: 689
Polymers as Biomaterials
- Order: Reorder
- Duration: 8:11
- Updated: 19 Apr 2013
- views: 1356
Biomaterials Final Project: Biomaterial Soft Tissue & Collagen
- Order: Reorder
- Duration: 5:27
- Updated: 20 Oct 2015
- views: 287
Students: Kevin Lawrence, Chunghwan Kim, Mana Almansour
Instructor: Dr. Mary C. Arico
Course Overview: Biomaterials is the study of materials and their use in...
Students: Kevin Lawrence, Chunghwan Kim, Mana Almansour
Instructor: Dr. Mary C. Arico
Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face.
Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a collegiate introduction to biomaterials course.
https://wn.com/Biomaterials_Final_Project_Biomaterial_Soft_Tissue_Collagen
Students: Kevin Lawrence, Chunghwan Kim, Mana Almansour
Instructor: Dr. Mary C. Arico
Course Overview: Biomaterials is the study of materials and their use in medical implants, including metal, ceramics, polymers, composites, and biological biomaterials. The course includes the study of material properties and the known interactions with the body. Additionally, students investigate the growing field of tissue engineering and the ethical decisions engineers face.
Project Overview: Students worked in groups to create a video that answered two questions: What are biomaterials? Why are biomaterials important? The goal of the video was to create something that would be relevant to an audience with minimal science/engineering education, but must also be 100% accurate and relevant in a collegiate introduction to biomaterials course.
- published: 20 Oct 2015
- views: 287
Biomaterials for Tissue Engineering
- Order: Reorder
- Duration: 1:06:16
- Updated: 29 Sep 2011
- views: 18331
Air date: Wednesday, September 28, 2011, 3:00:00 PM
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Descript...
Air date: Wednesday, September 28, 2011, 3:00:00 PM
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Description: Recent developments in biomaterials technology have enabled the production of biodegradable, cytocompatible tissue engineering scaffolds that can be tailored with appropriate mechanical and biological signals to restore damaged tissue in specific sites in the body. For example, our laboratory has developed a variety of biodegradable polymers for the controlled delivery of biologically active agents and/or progenitor stem cell populations to promote regeneration of tissues such as bone and cartilage.
Further, we have explored the application of bioreactor culture of progenitor cell populations to produce extracellular matrix constructs containing biologically active signals to direct cellular differentiation and tissue formation. Ongoing research in collaboration with clinical colleagues also involves the development of materials-based approaches for application in strategies for bone regeneration, with a vision for rapid clinical translation. This talk will present examples of biomaterials from our laboratory to illustrate recent advances in tailored biomaterials-based approaches for bone and cartilage tissue engineering.
The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide.
For more information, visit:
The NIH Director's Wednesday Afternoon Lecture Series
Author: Antonios Mikos, Ph.D., Rice University
Runtime: 01:06:15
Permanent link: http://videocast.nih.gov/launch.asp?16880
https://wn.com/Biomaterials_For_Tissue_Engineering
Air date: Wednesday, September 28, 2011, 3:00:00 PM
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Description: Recent developments in biomaterials technology have enabled the production of biodegradable, cytocompatible tissue engineering scaffolds that can be tailored with appropriate mechanical and biological signals to restore damaged tissue in specific sites in the body. For example, our laboratory has developed a variety of biodegradable polymers for the controlled delivery of biologically active agents and/or progenitor stem cell populations to promote regeneration of tissues such as bone and cartilage.
Further, we have explored the application of bioreactor culture of progenitor cell populations to produce extracellular matrix constructs containing biologically active signals to direct cellular differentiation and tissue formation. Ongoing research in collaboration with clinical colleagues also involves the development of materials-based approaches for application in strategies for bone regeneration, with a vision for rapid clinical translation. This talk will present examples of biomaterials from our laboratory to illustrate recent advances in tailored biomaterials-based approaches for bone and cartilage tissue engineering.
The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide.
For more information, visit:
The NIH Director's Wednesday Afternoon Lecture Series
Author: Antonios Mikos, Ph.D., Rice University
Runtime: 01:06:15
Permanent link: http://videocast.nih.gov/launch.asp?16880
- published: 29 Sep 2011
- views: 18331
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1:38
What is Biomaterials Science?
published: 24 Feb 2016
What is Biomaterials Science?
What is Biomaterials Science?
- Report rights infringement
- published: 24 Feb 2016
- views: 2676
17:51
TEDxBigApple - Robert Langer - Biomaterials for the 21st Century
Robert Langer gives us a fascinating look at his research in material science and biomater...
published: 02 Mar 2012
TEDxBigApple - Robert Langer - Biomaterials for the 21st Century
TEDxBigApple - Robert Langer - Biomaterials for the 21st Century
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- published: 02 Mar 2012
- views: 35468
5:02
Polymers & Biomaterials
Students: Stephanie Hebert, Geoffrey Maynard, Abdulmajid Binshelayl, Rasheed Alfaris
Instr...
published: 20 Oct 2015
Polymers & Biomaterials
Polymers & Biomaterials
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- published: 20 Oct 2015
- views: 2558
8:37
Biomaterials - patent solutions from nature
Animals and plants can produce amazing materials such as spider webs, wood or bone using o...
published: 03 Jan 2017
Biomaterials - patent solutions from nature
Biomaterials - patent solutions from nature
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- published: 03 Jan 2017
- views: 796
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Robert S. Langer: Biomaterials for the 21st Century || Radcliffe Institute
In this lecture, Robert S. Langer, the David H. Koch Institute Professor at the Massachuse...
published: 04 Feb 2014
Robert S. Langer: Biomaterials for the 21st Century || Radcliffe Institute
Robert S. Langer: Biomaterials for the 21st Century || Radcliffe Institute
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- published: 04 Feb 2014
- views: 13031
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Biomaterials for medical applications
The research at the GKSS Centre of Biomaterial Development in Teltow is focussed on the de...
published: 09 Sep 2009
Biomaterials for medical applications
Biomaterials for medical applications
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- published: 09 Sep 2009
- views: 10310
46:16
Metal and ceramic biomaterials
School of Biomedical Engineering, Science, and Health Systems
Drexel University
published: 16 Sep 2016
Metal and ceramic biomaterials
Metal and ceramic biomaterials
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- published: 16 Sep 2016
- views: 689
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Polymers as Biomaterials
Chemistry at York, First year Macromolecules project.
published: 19 Apr 2013
Polymers as Biomaterials
Polymers as Biomaterials
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- published: 19 Apr 2013
- views: 1356
5:27
Biomaterials Final Project: Biomaterial Soft Tissue & Collagen
Students: Kevin Lawrence, Chunghwan Kim, Mana Almansour
Instructor: Dr. Mary C. Arico
Cou...
published: 20 Oct 2015
Biomaterials Final Project: Biomaterial Soft Tissue & Collagen
Biomaterials Final Project: Biomaterial Soft Tissue & Collagen
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- published: 20 Oct 2015
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1:06:16
Biomaterials for Tissue Engineering
Air date: Wednesday, September 28, 2011, 3:00:00 PM
Time displayed is Eastern Time, Wash...
published: 29 Sep 2011
Biomaterials for Tissue Engineering
Biomaterials for Tissue Engineering
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- published: 29 Sep 2011
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What is Biomaterials Science?...
TEDxBigApple - Robert Langer - Biomaterials for th...
Polymers & Biomaterials...
Biomaterials - patent solutions from nature...
Robert S. Langer: Biomaterials for the 21st Centur...
Biomaterials for medical applications...
Metal and ceramic biomaterials...
Polymers as Biomaterials...
Biomaterials Final Project: Biomaterial Soft Tissu...
Biomaterials for Tissue Engineering...
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New Zealand Tourist Killed By Jet Engine Blast on Saint Maarten Beach
Edit WorldNews.com 13 Jul 2017
A New Zealand woman who was traveling in the Caribbean territory of Saint Maarten has died after a powerful jet engine knocked her down on a popular beach just outside the airport runway, according to BBC News. The famous Princess Juliana International Airport is just steps away from the beach where beachgoers can walk up the airport fence as planes take off and land ... She was taken to the hospital for treatment but died later ... – St....
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Trump Does About-Face, Says 'No Need For Full Border Wall' With Mexico
Edit WorldNews.com 13 Jul 2017
Speaking to reporters aboard the presidential jet during his flight to Paris Thursday, U.S. President Donald Trump surprisingly reversed course on his long-standing statement on his pledge to build a border wall, The Los Angeles Times reported. "You don't need 2,000 miles of wall because you have a lot of natural barriers.” – U.S. President Donald Trump aboard Air Force One. "You have mountains ... Bush and Obama."You need transparency....
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[UPDATE]: Bucks County Man Confesses In Missing Men Investigation, His Lawyer Says
Edit WorldNews.com 13 Jul 2017
An attorney for the 20-year-old man accused as a person of interest in the slaying of four missing Bucks County, Pa ... Early Thursday evening, the person of interest Cosmo Dinardo confessed to prosecutors, one of his attorneys, Paul Lang, said. “He confessed to his participation or commission in the murders of four young men,” Paul Lang. “In exchange for that confession, Mr....
Global Zirconia Industry 2017 Market Research Report
Edit Community news 14 Jul 2017
Summary. In this report, the global Zirconia market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022. Geographically, this report is segmented into several key Regions, with production, consumption, revenue (million USD), market share and growth rate of Zirconia in these regions, from 2012 to 2022 (forecast), covering ... Europe ... Lida ... Biomaterials....
EMEA Medical Ceramics Market Report 2017-View Trends- Analysis and Statistics
Edit Community news 14 Jul 2017
Description. EMEA Medical Ceramics market competition by top manufacturers/players, with Medical Ceramics sales volume (K Units), price (USD/Unit), revenue (Million USD) and market share for each manufacturer/player; the top players including. 3M. DePuy Synthes (Johnson & Johnson). Kyocera. Berkeley Advanced Biomaterials. Temex-Ceramics. Wright Medical Technology. Kuraray. Dentsply. Stryker. Zimmer Holdings. BCE Special Ceramics. Biomet 3i ... Other....
$139 Billion Biomaterials Market by Type and Application - Global Opportunity Analysis and Industry Forecasts, 2014-2022 - Research and Markets
Edit Market Watch 13 Jul 2017
DUBLIN, Jul 13, 2017 (BUSINESS WIRE) -- The "Biomaterials Market by Type and Application - Global Opportunity Analysis and Industry Forecast, 2014 - 2022" report has been added to Research and Markets' offering. The global biomaterials market is estimated to reach $139 by 2022, growing at a CAGR of 11.8% from 2016 to 2022 ... Biomaterials are extensively used in hip and knee replacement surgeries....
Invibio and CarboFix Partnering With UK Olympic Sprinter James Ellington on New "Passion For Progress" Initiative
Edit Market Watch 13 Jul 2017
UK Olympic sprinter James Ellington has joined forces with the UK's Invibio Biomaterial Solutions and CarboFix Orthopedics on his road to recovery and his overall ambition to return to the world stage of athletic competition after a devastating motorcycle accident in Tenerife earlier this year ... About Invibio Biomaterial Solutions ... SOURCE Invibio Biomaterial Solutions....
$139 Billion Biomaterials Market by Type and Application - Global Opportunity Analysis and Industry Forecasts, ...
Edit Business Wire 13 Jul 2017
DUBLIN--(BUSINESS WIRE)--The "Biomaterials Market by Type and Application - Global Opportunity Analysis and Industry Forecast, 2014 - 2022" report has been added to Research and Markets' offering. The global biomaterials market is estimated to reach $139 by 2022, growing at a CAGR of 11.8% from 2016 to 2022 Metallic biomaterials segment is expected to contribute significantly to the global market revenue until 2022 ... ....
New Trends of Personalized Orthopaedic Implant Market with Worldwide Industry Analysis to 2027
Edit Community news 13 Jul 2017
Orthopaedics implant is a medical device used for the replacement of missing joints, bones and or to support a damaged bones. The orthopaedics implants are mainly manufactured using biomaterials and coated by plastic ... A planned surgical model accompanies the production steps such as designing to the made to measure prosthesis ... On the basis of biomaterial type, the global personalized orthopaedics Implant market is segmented into. ... Hip....
PuraPly™ Antimicrobial Named One of Top 10 Innovations in Podiatry
Edit Market Watch 13 Jul 2017
PuraPly AM was selected as a top innovation for 2017 for its impact on reducing bioburden in wounds. It is estimated that the majority of wounds possess biofilm, which can negatively impact tissue repair and delay healing if not addressed ... is a global leader in regenerative medicine, offering a portfolio of bioactive and acellular biomaterials products in advanced wound care and surgical biologics, including orthopedics and spine....
Global 1,3-Propanediol (PDO) Industry 2017 Market Research Report
Edit Community news 13 Jul 2017
Summary. In this report, the global 1,3-Propanediol (PDO) market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022 ... North America. Europe. China. Japan. Southeast Asia. India ... DuPont. Metabolic-Explore. DOW. Glory Biomaterial. Shangdong Mingxing. Chenneng. Henan Tianguan. Shanghai Demao ... Technical Grade. Pharmaceutical Grade. Other ... PTT. Synthetic Drugs ... ....
Global Dental Implants Market Worth US$6.54 Billion by 2025: Rising Incidence of Periodontal Diseases Stokes Growth
Edit Market Watch 13 Jul 2017
ALBANY, New York, July 13, 2017 /PRNewswire via COMTEX/ -- ALBANY, New York, July 13, 2017 /PRNewswire/ -- ... Favorable Physical Properties of Titanium Boost Demand ... Dental Consumables Market (Product - Dental Implants, Crowns and Bridges, Dental Biomaterials, Orthodontics, Endodontics, Periodontics, Retail Dental Care Essentials, and Dental Consumables) - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2016 - 2024....
PureTech Health Presents Data Supporting Treatment Approach for Interstitial Cystitis/Bladder Pain Syndrome Based on Novel Alivio Inflammation-Targeting Technology
Edit Market Watch 13 Jul 2017
BOSTON, Jul 13, 2017 (BUSINESS WIRE) -- PureTech Health plc (“PureTech Health” or the “Company”, LSE ... ALV-107 utilizes the proprietary Alivio inflammation-targeting technology. The data were presented at the 2017 Drug Discovery and Therapy World Congress in Boston, Massachusetts ... J ... The Alivio technology is being developed in collaboration with several of the world’s leading experts in biomaterials and immunology. Expert advisors include....
Global Dental Implants - Medical Equipment & Supplies
Edit Market Watch 13 Jul 2017
LONDON, July 12, 2017 /PRNewswire/ -- This report analyzes the worldwide markets for Dental Implants in US$ Million. The report provides separate comprehensive analytics for the US, Canada, Japan, Europe, Asia-Pacific, Latin America, and Rest of World. Annual estimates and forecasts are provided for the period 2015 through 2022 ... A.B ... I ... Growing Use of Dental Biomaterials Aiding Growth of Dental Implants ... Biomaterial Implants in Dentistry....
Europe Procedure Numbers for Orthopedic Biomaterials 2017 - Unit Sales, ASPs, Market Value & Growth ...
Edit Business Wire 12 Jul 2017
DUBLIN--(BUSINESS WIRE)--The "Europe Procedure Numbers for Orthopedic Biomaterials 2017 - MedPro" report has been added to Research and Markets' offering. Lack of reimbursements can limit the European orthopedic biomaterials market. When a product is reimbursed, it is more readily adopted. For instance, in the hyaluronic acid market, most products are classified as medical devices and thus are not eligible for reimbursement ... ....
Europe Market Report for Bone Graft Substitutes 2017 - Research and Markets
Edit Market Watch 12 Jul 2017
DUBLIN, Jul 12, 2017 (BUSINESS WIRE) -- The "Europe Market Report for Bone Graft Substitutes 2017 - MedCore" report has been added to Research and Markets' offering. As of 2016, the largest and fastest growing segment in the market was for synthetic bone graft substitutes ... Furthermore, synthetic products have a very low risk of infection, which is another driver of growth ... and Spain ... Key Topics Covered. ... 1 ... 2 ... 3 ... 4 ... 5 ... Biomaterials....
Hydrophilic Coatings Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2017 - 2025
Edit Community news 12 Jul 2017
Hydrophilic coatings are coatings which exhibit water attracting properties by participating in hydrogen bonding with water. Hydrophilic coatings are wet and lubricious and are applied to a variety of materials and surfaces ... Some of the key players in the hydrophilic coatings market are Royal DSM N.V., Hydromer, Inc., AdvanSource Biomaterials Corp., Covalon Technologies Ltd., Surmodics, Inc., BioCoat, Inc., and Harland Medical Devices....
Wound Care Market - Global Industry Insights, Trends, Outlook, and Opportunity Analysis, 2017–2025
Edit Community news 12 Jul 2017
Wound care market has witnessed various technological advancements and emerged as a standard solution to treat acute and chronic wounds ... The unhealed wounds do not only diminish quality of life but also increases the risk of infections and complications ... ... Also different research activities were undertaken by World Union of Wound Healing Societies in 2016 for the development of biomaterials to be used on acute and chronic wounds ... Tel....
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