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'Spaghetti' scaffolding could help grow skin in labs
October 16, 2009Scientists are developing new scaffolding technology which could be used to grow tissues such as skin, nerves and cartilage using 3D spaghetti-like structures. Their research is highlighted in the latest issue of Business, the quarterly highlights magazine of the Biotechnology and Biological Sciences Research Council (BBSRC).
The new structures are being developed by scientists from the University of Bristol, using proteins from alpha helices - one of the fundamental ways that strings of amino acids fold - to create long fibres called hydrogelating self assembling fibres (hSAFs), or hydrogels. By learning how to build hSAFs from scratch, the researchers are starting to understand how they might use these 3D scaffolds to support the growth of nerves, blood vessels and cartilage tailored to the needs of individual patients.
Professor Dek Woolfson who is leading the work, explains: "To make hydrogels you need something long and thin that will interact with copies of itself and form meshes, but is also water soluble. However rather than using natural proteins, which are complex, we've tried to make something as simple as possible that we fully understand using peptides and self assembling proteins."
Currently, hydrogel scaffold structures, made either synthetically or from natural resources such as seaweed, are used in everyday products from shampoos to drug capsules.
But explains, Professor Woolfson, the hSAFs his team are developing will have different uses: "The downside of using peptides or proteins is that they are expensive compared with synthetic polymers. We are almost certainly looking at high end biomedical applications, generating cells which can be used in living systems. Potential medical benefits include growing tissues such as skin, nerves and cartilage in the laboratory which will advance basic research and may lead to biomedical applications like speeding up wound healing and grafting."
Commenting on the research, BBSRC Chief Executive Professor Doug Kell, said: "This research highlights the importance of understanding how things work at a micro level and then looking at different ways to apply this knowledge to create effective solutions for tackling everyday problems, in this instance, translating basic bioscience into technology which could have very real clinical benefits for patients."
This research is featured in the latest edition of Business, the quarterly magazine of BBSRC.
Biotechnology and Biological Sciences Research Council
Currently, hydrogel scaffold structures, made either synthetically or from natural resources such as seaweed, are used in everyday products from shampoos to drug capsules.
But explains, Professor Woolfson, the hSAFs his team are developing will have different uses: "The downside of using peptides or proteins is that they are expensive compared with synthetic polymers. We are almost certainly looking at high end biomedical applications, generating cells which can be used in living systems. Potential medical benefits include growing tissues such as skin, nerves and cartilage in the laboratory which will advance basic research and may lead to biomedical applications like speeding up wound healing and grafting."
Commenting on the research, BBSRC Chief Executive Professor Doug Kell, said: "This research highlights the importance of understanding how things work at a micro level and then looking at different ways to apply this knowledge to create effective solutions for tackling everyday problems, in this instance, translating basic bioscience into technology which could have very real clinical benefits for patients."
This research is featured in the latest edition of Business, the quarterly magazine of BBSRC.
Biotechnology and Biological Sciences Research Council
Cartilage Current Events and Cartilage News RSSPenn Study Provides First Clear Idea of How Rare Bone Disease Progresses
An international team of scientists, led by researchers at the University of Pennsylvania School of Medicine, is taking the first step in developing a treatment for a rare genetic disorder called fibrodysplasia ossificans progressiva (FOP), in which the body's skeletal muscles and soft connective tissue turns to bone, immobilizing patients over a lifetime with a second skeleton.
Mending meniscals in children, improving diagnosis and recovery
The meniscus is a rubber-like, crescent moon-shaped cartilage cushion that sits between the leg and thigh bone. Each knee has two menisci: one on the inside of the knee joint and one on the outside.
UF scientists discover new explanation for controversial old patient-care technique
You might not know what it's called, but if you've had general anesthesia before surgery, especially after an accident, it is likely you have received Sellick's maneuver.
Chinese and American paleontologists discover a new Mesozoic mammal
An international team of paleontologists has discovered a new species of mammal that lived 123 million years ago in what is now the Liaoning Province in northeastern China.
Scientists find obesity alone does not cause arthritis in animals
The link between obesity and osteoarthritis may be more than just the wear and tear on the skeleton caused by added weight.
Diabetes weakens your bones
Current research suggests that the inflammatory molecule TNF-α may contribute to delayed bone fracture healing in diabetics.
New study finds way to stop excessive bone growth following trauma or surgery
A recent United States Army study found that excessive bone growth, also known as heterotopic ossificiation (HO), affects up to 70 percent of soldiers who are severely wounded during combat. A much smaller percentage of the civilian population also suffers from HO following trauma or invasive surgery.
New species of ghostshark from California and Baja California
New species are not just discovered in exotic locales-even places as urban as California still yield discoveries of new plants and animals.
Hormone promises to keep joint injuries from causing long-term osteoarthritis
An existing osteoporosis drug is the first ever found to prevent cartilage loss from osteoarthritis following injury to a joint, and may also regenerate some cartilage that has been lost to osteoarthritis.
Green tea component may help preserve stored platelets, tissues
In two separate studies, a major component in green tea, epigallocatechin-3-O-gallate (EGCG), has been found to help prolong the preservation of both stored blood platelets and cryopreserved skin tissues.
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