Microfluidic Device Mimics Tumor Microenvironment, Helps Drug Discovery Efforts
February 23, 2009One of the challenges that cancer researchers face in designing new antitumor agents is that of predicting how drug molecules will behave in the complex microenvironment that surrounds a tumor. In particular, tumors create all sorts of chemical and physical barriers that limit how much drug is able to enter a tumor, let alone reach cells deep within a tumor. Now, Neil Forbes, Ph.D., and his colleagues at the University of Massachusetts have built a microfluidic device that can mimic these chemical and physical barriers, providing researchers with a new screening tool that may help with the design of more effective anticancer drugs.
Dr. Forbes and his colleagues, who reported their findings in the journal Lab on a Chip, designed this device to reproduce the three-dimensionality of a tumor, including areas of low pH and regions that contain cells resistant to therapy. To create this device, the investigators tested seven different cell growth chamber designs, using various imaging technologies to determine how closely cell masses growing in the device mimicked the behavior of a tumor. From these experiments, the investigators were able to select a growth chamber design that caused cells to grow into tumor masses that displayed heterogeneity closely resembling that of native tumors.
The investigators then used the device to study how doxorubicin, a widely used and widely studied anticancer drug, diffuses into and through a tumor. The device accurately modeled doxorubicin diffusion as seen in humans treated with this drug. The device also was able to recreate the accumulation patterns of anticancer bacteria that actively penetrate a tumor.
This work was detailed in the paper “A multipurpose microfluidic device designed to mimic microenvironment gradients and develop targeted cancer therapeutics.” An abstract of this paper is available at the journal’s Web site.
Provided by National Cancer Institute
-
Engineers build first sub-10-nm carbon nanotube transistor
Feb 01, 2012 |
4.9 / 5 (31) |
30
-
Something old, something new: Evolution and the structural divergence of duplicate genes
Jan 31, 2012 |
4.6 / 5 (7) |
1
-
The hidden nanoworld of ice crystals: Revealing the dynamic behavior of quasi-liquid layers
Jan 30, 2012 |
5 / 5 (3) |
1
-
Stock market network reveals investor clustering
Jan 27, 2012 |
3.9 / 5 (23) |
8
-
Of microchemistry and molecules: Electronic microfluidic device synthesizes biocompatible probes
Jan 26, 2012 |
5 / 5 (1) |
0
-
How would you extract zinc from a plant?
1 hour ago
-
How to determine zinc in a plant.
Feb 11, 2012
-
Stoichiometry
Feb 10, 2012
-
Boiling and melting point of impure substances
Feb 10, 2012
-
Safe nitrogen compound to decompose a 500 deg C in a furnace?
Feb 09, 2012
-
[ask]electron inside drinking water
Feb 08, 2012
- More from Physics Forums - Chemistry
More news stories
Hydrogen from acidic water: Researchers develop potential low cost alternative to platinum for splitting water
A technique for creating a new molecule that structurally and chemically replicates the active part of the widely used industrial catalyst molybdenite has been developed by researchers with the Lawrence Berkeley ...
Feb 09, 2012 |
4.8 / 5 (15) |
21
|
Fool's gold may prove an unlikely alternative to overexploited catalytic materials
Catalytic materials, which lower the energy barriers for chemical reactions, are used in everything from the commercial production of chemicals to catalytic converters in car engines. However, with current catalytic materials ...
Feb 10, 2012 |
4.4 / 5 (8) |
8
|
Research provides octagonal window of opportunity for carbon capture
(PhysOrg.com) -- Filtering carbon dioxide, a greenhouse gas, from factory smokestacks is a necessary, but expensive part of many manufacturing processes. However, a collaborative research team from the National ...
Feb 08, 2012 |
5 / 5 (1) |
5
|
Flexible paper robots
(PhysOrg.com) -- These inexpensive robots can stretch, bend and twist under control, and lift objects up to 120 times their own weight. Being soft, they can apply gentle and even pressure, and adapt to varied ...
Feb 09, 2012 |
5 / 5 (5) |
4
|
New form of hafnium oxide developed
(PhysOrg.com) -- A novel material developed by researchers at the University of Cambridge is opening up new possibilities for next generation electronic and optoelectronic devices, and paving the way for further ...
Feb 07, 2012 |
4.6 / 5 (5) |
4
|
Google might launch Drive for cloud storage soon
(PhysOrg.com) -- Google's next big move, according to the Wall Street Journal, is a cloud storage service called Drive. Hardly first to the plate, Google is simply catching up to introducing its cloud reposi ...
Walney offshore wind farm is world's biggest (for now)
(PhysOrg.com) -- The Walney wind farm on the Irish Sea--characterized by high tides, waves and windy weather--officially opened this week. The farm is treated in the press as a very big deal as the Walney ...
Latin America mining boom clashes with conservation
Latin America is experiencing a mining boom as prices rise fuelled by a hike in global demand, but the region is also being hit by a wave of violent protests, strikes and rallies by environmentalists.
Love a click away in Indonesia's Twitter Republic
He was a geeky kid from Yogyakarta, she a glamorous city girl in Jakarta. In a country with one of the world's most vibrant social networking scenes they fell in love on Twitter.
Europeans protest controversial Internet pact
Tens of thousands of people marched in protests in more than a dozen European cities Saturday against a controversial anti-online piracy pact that critics say could curtail Internet freedom.
Navy to begin tests on electromagnetic railgun prototype launcher
The Office of Naval Research (ONR)'s Electromagnetic (EM) Railgun program will take an important step forward in the coming weeks when the first industry railgun prototype launcher is tested at a facility ...
Feb 24, 2009
Rank: not rated yet
CELSIUS! REDUCE THE TEMPERATURE AND YOU REDUCE THE RATE! I have tested this in fish and my own body. IF YOU COOL THE TUMOR IT WILL SHRINK! (An established tumor may require 10 degrees below body temp.)