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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.   |
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. |
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. |
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 23, 2011
David Bradley |
Clicking Together Cultural Niches Researchers in the US have made three-dimensional hydrogels that are not only compatible with living cells but can be tuned to create specialist growing environments - culture niches - for studying cell function. |
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 31, 2012
Fiona McKenzie |
Sorting the good from the bad US scientists have found a way to separate cancerous cells from healthy cells by taking advantage of their adhesion properties. Separating cancer cells for analysis is a critical step for determining the recommended course of treatment for patients. |
HHMI Bulletin
May 2010
Sarah C.P. Williams |
Lab-Grown Liver New cell culture system solves problem of growing liver cells. |
Chemistry World
February 21, 2014
Phillip Broadwith |
Refined gels for cultured cells UK start-up Biogelx is developing self-assembled peptide hydrogels that can provide support to growing cells, but also present well-defined surface chemistry to help cell biologists address biological problems. |
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
June 25, 2013 |
Press P to print Much of the headline-grabbing scientific 3D printing has been in biotechnology, where body parts have been printed using biological polymers. But why stop at replacement body parts? Why not go beyond biology and use 3D printing to enhance the human body? |
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
October 13, 2015
Thadchajini Retneswaran |
Alginate bolsters 3D-printed hydrogel fix for damaged knees A team from Texas in the US has developed a super tough biomaterial that could be used to print load-bearing body parts such as knee cartilage. |
Chemistry World
May 22, 2009
Phillip Broadwith |
'Printing' organs with hydrogels Dutch researchers have developed a way to 'print' stable cell-containing scaffolds, creating a method that could one day be used to help make tailor-made tissue grafts |
Chemistry World
December 18, 2012
Jennifer Newton |
Technique to measure chemotherapy effectiveness A technique to measure how effective chemotherapy is by studying the physical changes that occur in human cells has been developed by US scientists. |
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. |
Chemistry World
July 3, 2014
Mary Macleod |
Organ -- organ interactions could compound nanoparticle damage Many studies look at the beneficial medical effects of nanoparticles, however, Mandy Esch explains that her work at Cornell University is checking for adverse effects. |
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. |
Chemistry World
September 10, 2013
Emily Skinner |
Shape memory polymer hosts functional nanoparticles Scientists in China have developed a polymer scaffold for functional nanoparticles that can be folded and mangled but will reform into its original shape if it is placed in water. |
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. |
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. |
Chemistry World
April 18, 2013
Yuandi Li |
Reducing the cost of perovskite solar cells A new way of making semiconducting perovskite-based solar cells could result in photovoltaic devices that are 70% cheaper than current commercial models, say UK scientists. |
IEEE Spectrum
July 2007
Suhas Sreedhar |
Plastic Solar Cells Get a Boost by Doubling Up Scientists in Korea and California have invented a new way of boosting the efficiency of cheap plastic solar cells, making them more competitive with traditional silicon solar cells. The key is to make the solar cells in pairs. |
Science News
December 2, 2006 |
Timeline: From the November 28, 1936, issue Commonplace transformed into beauty by frost... Behavior of living cells linked to mathematics... |
Chemistry World
October 31, 2012
Ian Le Guillou |
A cell for a cell If you ever need to isolate a single bacterial cell, why not build it a prison cell? This is the approach that colleagues from Sandia National Laboratories, US, have taken. Using multi-photon lithography, they can construct four walls and a roof around a single cell in just over a minute. |
Chemistry World
April 19, 2011
Simon Hadlington |
Cell factories package drugs for delivery Scientists in Australia and Germany have used living cells as 'factories' to encapsulate particles such as drugs in biological membranes. |
Chemistry World
October 7, 2012
David Bradley |
Magnetic nanoparticles zap cancer Nanoparticles can be used as a remote-controlled magnetic death switch to kill cancer cells, according to researchers from Korea. |
Chemistry World
June 9, 2008
Simon Hadlington |
Artificial virus silences genes Scientists in Korea have created an artificial virus that can target the nucleus of cancer cells and knock out specific genes. |
Chemistry World
July 4, 2014
Jessica Cocker |
3D printing cuts fuel cell component costs Researchers in the UK have used 3D printing to cut the cost of manufacturing devices that produce hydrogen fuel by splitting water. |
HHMI Bulletin
Aug 2010
Sarah C.P. Williams |
Fruit Fly Cells Don't All Know What Sex They Are HHMI scientists have now found that many cells in male and female fruit flies not only look the same, they are more identical at a molecular level than was previously thought. |
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. |
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. |
HHMI Bulletin
Fall 2012
R. John Davenport |
Hanchuan Peng: SmartScopes Even when he launched his career as an engineer and computer scientist, Hanchuan Peng was drawn to the beauty of biology. He is a leader in developing sophisticated ways to make sense of biological images. |
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
June 14, 2011 |
Polymers Nanobrushes 'Paint' the Mona Lisa in 3D Chinese scientists have used polymers nanobrushes to 'paint' a 3D representation of Leonardo da Vinci's masterpiece, the Mona Lisa. |
Chemistry World
February 12, 2012
Jon Cartwright |
Nanoparticles slow iron absorption in the gut Nanoparticles used in food and pharmaceuticals could have unintended physiological effects. |
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. |
Chemistry World
March 8, 2011
Jennifer Newton |
Measuring cells' oxygen levels with PEBBLEs Scientists in Germany have developed a strategy to visualise oxygen concentrations in cells to better understand its role in biological reactions such as metabolism. |
Chemistry World
April 10, 2008
Sarah Houlton |
Radiotherapy Side-Effects Suppressed A new drug being developed by scientists at Cleveland BioLabs (CBLI) in the US may hold the key to protecting healthy cells from the effects of radiotherapy during cancer treatment. |
HHMI Bulletin
Fall 2012
Elise Lamar |
Push and Pull Jennifer Zallen, an HHMI early career scientist at Memorial Sloan-Kettering Cancer Center, studies how embryonic tissues stretch along an anterior-posterior axis using the fruit fly Drosophila melanogaster as a model system. |
HHMI Bulletin
February 2011
Sarah C.P. Williams |
Releasing the Brakes on Cell Fate Converting one cell type directly into another is a kind of modern-day alchemy, an ultimate goal in biological research. But unlike turning base metals into gold, changing a cell's identity is feasible, new research shows. |
Chemistry World
June 15, 2007
Lionel Milgrom |
Electrochemical Screening for Anti-Cancer Drugs A test that predicts an individual cancer patient's response to different drugs is about to enter clinical trials, developers have announced. The chances of successful treatment will increase, they predict, while costs will decrease. |
Chemistry World
April 20, 2012
Jennifer Newton |
Nanocrystal probes mimic viruses to gain entry into cells Colloidal polymer vectors loaded with nanocrystal probes enter cells in the same way as a virus and can be used to track cells for therapies such as those based on stem cells |
Chemistry World
August 2, 2011
Kate McAlpine |
Hacking into chemical cell phone calls US researchers have made a nanodevice that can eavesdrop on a cell's mutterings, and they say it could be adapted to listen in on conversations between cells. |
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. |
Scientific American
September 19, 2005
Charles Q. Choi |
Chatting Up Cells Stem cells can transform into whatever cell the body tells them to. Unfortunately, scientists have yet to master that particular gift of gab. But investigators may soon crack the language with tiny "chat rooms" for stem cells. |
Chemistry World
July 28, 2009
Michael Gross |
DNA to direct and switch off chemo Researchers in the US have developed a new approach to cancer chemotherapy using short DNA strands to help target delivery of the drug directly to cancer cells, and 'call it off' should problems arise. |
Scientific American
December 2008
Tim Hornyak |
Turning Back the Cellular Clock: A Farewell to Embryonic Stem Cells? Shinya Yamanaka discovered how to revert adult cells to an embryonic state. These induced pluripotent stem cells might soon supplant their embryonic cousins in therapeutic promise |
Chemistry World
January 26, 2011
Anna Watson |
Channelling deeper to target breast cancer US scientists have developed a model of the breast ductal system that could be used to discover abnormal cells or deliver drugs at locations further along the ducts than other techniques. The model fits on a slide, enabling on-chip experiments. |
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. |
