| Similar Articles |
|---|
 |
Technology Research News
June 29, 2005
Eric Smalley |
Cell combo yields blood vessels Researchers experiment with methods of getting blood vessels to grow in replacement organs before the tissue is placed in the body.   |
Chemistry World
November 1, 2013
Megan Tyler |
High-throughput chip for drug screening in 3D A simple micro-array chip developed by scientists in China could sharpen the search for new drugs by enabling the high-throughput screening of drug candidates against cells cultured in three dimensions. |
Chemistry World
October 2, 2013
Michael Parkin |
Insect-powered microtweezers Scientists in Japan have developed the first biohybrid microdevice that can function in air. The microtweezers powered by insect muscle tissue could be used to handle cells and other fragile objects as part of a microelectromechanical system. |
HHMI Bulletin
May 2010
Sarah C.P. Williams |
Lab-Grown Liver New cell culture system solves problem of growing liver cells. |
Chemistry World
September 6, 2007
Lewis Brindley |
Muscling in on Artificial Actuators Scientists in the US have developed artificial "micromuscles" capable of functions like gripping, walking and even swimming. |
Chemistry World
June 13, 2010
Lewis Brindley |
Novel 'cell wires' to patch up heart or nerve damage Noodle-like strings containing living cells have been made by researchers in the US. |
Chemistry World
July 24, 2012
Rachel Cooper |
Light speeds up new cell growth Scientists from Singapore have combined a photovoltaic polymer with a biocompatible polymer to make a nanofiber-based scaffold that can grow cells for skin regeneration. |
Chemistry World
September 27, 2011
Maria Burke |
Patching up Patients with a Heart of Gold Researchers have used gold nanowires to boost the propagation of electrical signals in cardiac patches, significantly increasing their therapeutic value. |
HHMI Bulletin
Fall 2012
Megan Scudellari |
In Living Color Vikas Gupta and Kenneth Poss created dozens of zebrafish with vibrantly colored cardiomyocytes and then examined the fish hearts at select moments between hatching and adulthood. |
Chemistry World
October 7, 2015
Christopher Barnard |
Microfluidic device lets the drop beat Scientists in Switzerland have incorporated pulsing human heart tissue into a microfluidic device to make a model of a living system that could be used to test new drugs. |
Chemistry World
July 1, 2012
Mellisae Fellet |
3D printed sugar network to feed engineered organs US researchers can build vessels into a cell-containing gel -- the beginnings of a thick tissue. Scientists form the gel around a lattice of printed sugar fibers. The fibers dissolve after the gel sets, leaving a network of channels that carry nutrients like blood vessels. |
The Motley Fool
August 27, 2007
Brian Orelli |
Repairing a Broken Heart Stem cells may be the new cure. If research continues on track, Geron expects to ask FDA to start clinical trials late next year or in early 2009. Investors, take note. |
BusinessWeek
September 23, 2010
Rob Waters |
Stem Cells That Save Big Pharma a Bundle Drugmakers hope to save big by using stem cells to test drugs for dangerous side effects long before costly human trials are needed. |
BusinessWeek
June 13, 2005
Arlene Weintraub |
A Boost for Broken Hearts? The Institute of Regenerative Medicine in Barbados is convinced that stem cells from fetuses can repair cardiac damage. |
Chemistry World
May 5, 2010
Mike Brown |
Natural artificial muscles Scientists in Canada and the US have developed artificial proteins that mimic the elastic and mechanical properties of the muscle protein, titin. |
Chemistry World
September 5, 2013
Emma Stoye |
Raman-based imaging takes guesswork out of brain surgery A new technique that color-codes cancerous and healthy brain cells according to their chemistry could help surgeons remove all traces of brain tumors while minimizing damage to sensitive tissues. |
Chemistry World
April 2, 2009
Michael Gross |
Light-guided hydrogels direct cell growth Researchers in the US have developed a gel-like material whose structural and chemical properties can change in response to laser light |
Chemistry World
July 11, 2006
Simon Hadlington |
Spin Doctors Find New Way to Make Skin Scaffold Researchers have developed a new type of polymer scaffold support for growing cultured human skin cells. The team showed that the mechanical and geometric properties of the scaffold are far more important than any specific chemical property. |
Popular Mechanics
November 17, 2009
Elizabeth Svoboda |
Five Body Parts You May Be Able to Regrow Soon(ish) New hope for injured hearts, lungs, arms and legs as well as other body regeneration strategies. |
The Motley Fool
November 28, 2007
Brian Orelli |
Stem Your Expectations of Stem-Cell Discoveries Making "stem" cells out of skin cells isn't all it's cracked up to be. The recent discovery has a long way to go before it can catch up to the research currently being done with stem cells. |
Technology Research News
March 23, 2005
Eric Smalley |
Inkjet prints human cells Scientists tackle challenge of putting the right cells in the right places and ensuring that the cells survive the rough ride. |
Chemistry World
August 15, 2007
John Bonner |
Chemists Claim Biological Alchemy South Korean chemists say they have turned muscle cells from the sole of a human foot into something akin to stem cells, using a simple molecule called neurodazine. |
Chemistry World
January 17, 2011
Laura Howes |
Nanoparticle divides to conquer Scientists have made a nanoparticle that breaks up into smaller units once it reaches its target, allowing it to penetrate deeper into tumour tissue and deliver treatment more effectively. |
HHMI Bulletin
Aug 2010
Richard Saltus |
Three-Dimensional Cell Cultures Thinking big but starting small, Sangeeta Bhatia is closing in on her ambitious goal: growing human livers in the lab from scratch. |
BusinessWeek
May 24, 2004
Arlene Weintraub |
Repairing The Engines Of Life Can research into stem cells and other advanced techniques heal ailing hearts and brains? U.S. labs are hamstrung by the federal government. |
Chemistry World
January 20, 2011
Erica Wise |
Protective shells for cells A highly permeable shell made for living cells could substantially extend their lifetime in bioengineering applications, including aiding bone repair, say US scientists. |
IEEE Spectrum
February 2009
Morgen E. Peck |
Electroporation "Knife" for Cancer A new electrical approach to cutting out cancerous tumors |
| Knowledge@Wharton |
Bettering Ourselves Through Biotech: Greater Productivity, Sharper Memories, Hair Feathers Beefing up muscle without steroids or hormones; rejuvenating damaged skin and heart tissue; ratcheting up memory function. Therapies that promise to enhance human abilities are nearing the marketplace. Funding, however, is hard to come by these days. |
Popular Mechanics
January 28, 2010
Cassie Rodenberg |
Next-Gen Transplant Techniques Can Stop Organ Rejection About 77 organ transplants are performed each day in the U.S., and more than 101,000 people are on a wait list for body parts such as hearts, skin and veins, according to the Mayo Clinic. |
The Motley Fool
December 1, 2008
Brian Orelli |
Obama Can't Save Stem Cell Companies While government-sponsored research on embryonic stem cells might eventually help scientists better understand all stem cells, it's not likely to help the companies right now. |
Chemistry World
July 28, 2011
Carol Stanier |
Spotlight on Polymerisation to Repair Damaged Faces To repair scarred facial tissue, US scientists have developed a minimally invasive repair method combining natural and synthetic materials to form a tissue scaffold to help the body heal itself. |
Popular Mechanics
November 27, 2007
Alex Hutchinson |
Stem Cells 2.0: Beyond the Hype, Engineers Look to Build Fast Engineers play the important role of making lab bench discoveries reproducible and efficient for use in industry. |
Scientific American
March 2007
Alison Snyder |
Sight for Sore Eyes Having generated a cell source and overcome the safety concerns associated with transplanting stem cells, researchers still face possibly their biggest challenge: showing that the transplanted photoreceptors wire up to other neurons that eventually connect to the optic nerves. |
Scientific American
November 28, 2005
Christine Soares |
Cold War Clues Atomic tests allow carbon dating of baby boomers and enable neuroscientists to track brain tissue regeneration. |
Chemistry World
January 12, 2012
Russell Johnson |
Staining tissue samples at the microscale A vertical microfluidic probe developed by researchers in Switzerland can create a range of immunohistochemistry staining conditions on a single tissue sample. |
The Motley Fool
August 31, 2007
Brian Orelli |
A Stem-Cell Primer Public funding from states could help companies doing stem cell research. Read about Geron, StemCells, Osiris Therapeutics, ViaCell and Invitrogen, companies that may profit from the increased public spending. |
Chemistry World
November 7, 2012
Jennifer Newton |
Ink containing living cells to print tissue Scientists in Australia are a step closer to printing living cells for tissue engineering with the development of a new bio-ink that allows the cells to stay alive until they are printed and not clog up the printer nozzle. |
Popular Mechanics
March 2007
Ian Christe |
Stem-Cell Fast Food: From NASA to Nourishment Who needs animals? It's only a matter of time before lab-grown meat turns into the oink-less BLT. |
National Defense
March 2008
Grace V. Jean |
Creating the Body's Microenvironment to Grow Artificial Organs Scientists are using micro-electromechanical systems to grow artificial organs. |
Chemistry World
April 2010 |
Column: The crucible We are getting better at manipulating cells to grow into the tissues we need. Chemical factors are key, says Philip Ball |
Technology Research News
December 17, 2003
Patch & Smalley |
Body handles nanofiber better The human body doesn't care for artificial materials, and responds to invasions by building scar tissue around foreign objects. A study shows that scar tissue formation might have more to do with the surface features of the intrusion than material it is made from. |
Chemistry World
May 19, 2014
James Urquhart |
'Heavy' mouse helps out tissue engineers UK researchers have developed a tissue molecular mapping method that could help make lab-grown tissue much more like the real thing. |
Reactive Reports
Issue 47
David Bradley |
Lending Muscle to Artificial Meat Production Can you imagine eating meat that required no animal to be killed, no slaughterhouse, and no butcher? Four scientists have written about two techniques that could make lab or factory grown meat possible. The possible benefits are intriguing. |
Chemistry World
April 7, 2009
Lewis Brindley |
Cells get in line Magnetic nanoparticles that 'shepherd' cells into neat lines have been designed by American scientists. |
Salon.com
December 29, 2000
Arthur Allen |
Will Thompson, Bush clash over human embryo research? The HHS nominee supports it, but right-to-lifers want it stopped.... |
Chemistry World
March 18, 2011
Elinor Richards |
The way to pain-free uterine disease detection A potential non-invasive method to detect endometriosis by acquiring a spectral signature of the uterus has been developed by scientists from the UK. |
Chemistry World
July 27, 2015
Tim Wogan |
Repellent nanocraters could shape tissue engineering Patterning surfaces with nanoscale craters can interfere with cells' ability to stick to surfaces, researchers in the US have shown. |
IEEE Spectrum
August 2006
Schoenbach et al. |
Zap Extreme voltage could be a surprisingly delicate tool in the fight against cancer. The list of effects that scientists have achieved using nanoseconds-long pulses is growing rapidly, though their actual use as a medical treatment is still years away. |
Chemistry World
September 24, 2015
Andy Extance |
Cosmetics deals push skin 3D bioprinting 3D bioprinting's allure has attracted interest from the skincare industry, with three leading firms each launching skin printing initiatives in mid-2015 that they hope will revolutionize cosmetic testing. |
Chemistry World
November 10, 2006
Victoria Gill |
Healing Threads Spun From Living Cells Researchers have successfully made microthreads from polymers containing living cells, using a technique called electrospinning. These biologically active threads could be formed into medical scaffolds, to deliver cells directly to tissue and promote healing. |
