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Reactive Reports
Issue 56
Jeffrey Krise |
A Basic Approach to Chemotherapy Chemists have found a way to attack malignant cells with an anticancer drug, while sparing healthy cells.   |
Technology Research News
July 27, 2005 |
Baited molecule fights cancer Many teams of researchers are working on ways to use nanotechnology to deliver anticancer drugs directly to cancerous tissue. |
Reactive Reports
Issue 46
David Bradley |
Oily Solution to Breast Cancer Potent new weapons in the fight against breast cancer could be developed by combining the commonly used intravenous anesthetic and sedative propofol with omega-3. |
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
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. |
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. |
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
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. |
AskMen.com
Sabrina Rogers |
Can Men Get Breat Cancer? Breast cancer isn't just a chick thing. Although it is about 100 times more common among women and is a rare cause of death in men, the American Cancer Society estimates that, in 2004, approximately 1,450 American men will be diagnosed with this disease. |
Reactive Reports
Issue 55
David Bradley |
Testing the Byproducts of Cell Death A new approach to testing whether a particular chemotherapy agent is working well in treating a patient's cancer is being developed by UK scientists |
Scientific American
January 2009
Charles Q. Choi |
Do White Blood Cells Make Cancer Deadly? The ability to spread underlies the killing power of cancer. The process occurs, John Pawelek thinks, when tumor cells fuse with white blood cells -- an idea that, if right, could yield new therapies |
Chemistry World
April 24, 2013
Helen Bache |
3D microfluidic liver on a chip Researchers have developed a three-dimensional liver model that can recreate cell signalling within the organ. The liver on a chip could cut tests on animals by providing an accurate artificial model of how the organ responds to new drugs. |
Chemistry World
July 22, 2013
Kirsty Muirhead |
Circulating cancer cells spiral towards separation A new biochip developed by researchers in Singapore can isolate tumor cells from blood samples, and may one day be an alternative to more invasive methods for tracking later stage cancers. |
BusinessWeek
June 13, 2005
Catherine Arnst |
Biotech, Finally The past 30 years of biological discoveries, insights into the human genome, and exotic chemical manipulation have unleashed a wave of biological drugs, many of them reengineered human proteins. |
The Motley Fool
May 8, 2009
Brian Orelli |
Investing Against Breast Cancer Many companies are interested in both a cure and a large lucrative market. Which are the best investments now in this sector? |
Chemistry World
March 16, 2009
Hayley Birch |
Nanodumbbells Target Cancer Cells US scientists have designed nanoparticles that function like 'guided missiles' in the targeted destruction of breast cancer cells. |
Fast Company
October 2015
Adam Bluestein |
This Plastic Chip Is Changing Medicine Artificial micro organs, which are being developed at Harvard, MIT, UC Berkeley, and other places, give researchers the ability to model what happens in humans when drugs or irritants enter the system. |
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
June 4, 2015
Thadchajini Retneswaran |
Microfluidic approach to personalised cancer treatment US scientists have developed an innovative microfluidic assay that can accurately predict how patients with a certain type of blood cancer will respond to an anticancer drug. |
Technology Research News
July 30, 2003
Kimberly Patch |
Fractals support growing organs A method for making intricate networks of artificial blood vessels brings the decades-old dream of growing replacement organs a big step closer. The networks are designed to provide the support structure needed for organ cells to coalesce into something greater than the sum of its parts. |
Chemistry World
March 10, 2011
Elinor Richards |
3D model to study breast cancer Scientists from the US have made a computational model of the formation of breast acini, the sac-like part of the milk-producing glands, to understand complex events occurring during the progression of breast cancer. |
AskMen.com
Jacob Franek |
New Cancer Therapies As cancer research explodes, the availability of new and innovative interventions is expanding almost daily. |
Chemistry World
February 23, 2009
Nina Notman |
Resistant breast cancers re-sensitised to Tamoxifen A way to re-sensitise certain drug-resistant breast cancers to treatments such as Tamoxifen could offer better treatment for people with hard-to-beat cancers. |
HHMI Bulletin
May 2010
Sarah C.P. Williams |
Lab-Grown Liver New cell culture system solves problem of growing liver cells. |
Chemistry World
January 16, 2014 |
The art of alternatives Recent years have seen great advances in alternatives to animal tests. Yet we still need to understand how and why compounds are toxic before we can make the giant leap to replacement. |
Technology Research News
May 5, 2004
Kimberly Patch |
DNA Bot Targets Cancer Researchers from Israel have constructed a molecular-size computer that is programmed to find signs of cancer cells, and when they are present, dispense DNA molecules designed to eradicate those cells. |
Scientific American
March 2009
Elaine Schattner |
A Chip against Cancer: Microfluidics Scrutinizes T Cells With just a blood sample, a device could determine whether cancer is about to spread or monitor the progress of treatment |
BusinessWeek
September 5, 2005
Michael Arndt |
Fine-Tuning the Attack on Breast Cancer Genentech's Herceptin, the first drug approved for a specific group, helps patients who are genetically susceptible to a virulent form of the disease. |
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. |
Bio-IT World
April 2006
Kevin Davies |
Harvard Opens Breast Cancer Protein Library In a landmark for functional proteomics, researchers at Harvard Medical School have unveiled a publicly available library of proteins that are active in breast cancer tissue. The resource could help speed drug discovery efforts against the disease. |
Chemistry World
August 19, 2009
Phillip Broadwith |
Antioxidants could promote cancer Some tumor cells can actually use antioxidants to protect themselves from natural cellular defense mechanisms, enabling them to survive and proliferate. |
BusinessWeek
June 6, 2005
Catherine Arnst |
Better Odds Against Breast Cancer New treatments for breast cancer are more effective, and easier to live with |
Chemistry World
November 4, 2015
Suzanne Howson |
Oral delivery of anticancer drug Scientists in China have unveiled a way to deliver a platinum-based anticancer drug orally. |
Wired
August 2003
Jennifer Kahn |
The End of Cancer (As we Know it) Diagnosis. Chemotherapy. Radiation. Slow painful death. No more. A new era of cancer treatment is dawning. Meet three scientists who are using the revelations of the Human Genome Project to reshape medicine. |
AskMen.com
September 30, 2000
Joshua Levine |
Male Breast Cancer Breast cancer is traditionally thought of as a female-related problem. Men, however, are as susceptible to the disease as women are. In many ways, the disease appears similarly in both sexes... |
BusinessWeek
May 23, 2005
Catherine Arnst |
If It Works for Breast Cancer... Studies are under way to see if promising strategies used against breast cancer can be used to fight other killers, such as lung, colon, and prostate cancer. |
BusinessWeek
August 26, 2010
Tom Randall |
Cocktails Are Next For Cancer-Drug Makers Taking a cue from the cocktails of drugs that have made AIDS survivable, drugmakers are pursuing combination therapies against cancer. |
BusinessWeek
July 3, 2006
Catherine Arnst |
A Ton Of Prevention The pros and cons of two drugs that may halve your risk of breast cancer. |
American Family Physician
February 1, 2004 |
Penile Cancer What is cancer?... How does my doctor check for cancer?... How is penile cancer treated? |
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
July 24, 2007
Richard Van Noorden |
A Viable Alternative Tests on mice, rats, rabbits and guinea pigs to stop harmful chemicals reaching humans were once a necessary evil. But such checks now seem embarrassingly old-fashioned, according to a report on toxicity testing. |
Chemistry World
January 17, 2008
Lewis Brindley |
Nanomachines to Treat Cancer Scientists at the University of California-Los Angeles (UCLA) have signed a deal with a private investment firm to develop and market 'nanomachines' to treat cancer. |
Chemistry World
April 13, 2011
Kate McAlpine |
Microrockets aim at cancer diagnostics Researchers at the University of California, San Diego, have made self-propelled microtube rockets that can find and capture cancer cells from blood samples. |
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. |
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
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. |
Reactive Reports
Issue 53
David Bradley |
An Underarm Review A review of health effects of organometallic compounds suggests that aluminum compounds used in the manufacture of underarm antiperspirants may somehow be involved in an increased risk of breast cancer. |
The Motley Fool
July 9, 2008
Brian Lawler |
Predicting More Good News From Invitrogen Invitrogen gets a positive review from the FDA for one of its tests. |
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
November 13, 2012
Rachel Cooper |
Detecting cancer cells and parasites Scientists in Denmark have designed a new sensor to detect cells that over-express folate receptors, including cancer cells. The sensor consists of an electrochemical platform composed of graphene and peptide nanotubes with folic acid. |
