Revision [10568]
Last edited on 2012-02-09 12:28:50 by CaraMounaAdditions:
Get your business listed at [[http://www.cyprus-companies.org/ Cyprus Companies]] Organization.
Revision [10511]
Edited on 2012-02-07 15:14:05 by WentForgoldDeletions:
Revision [10486]
Edited on 2012-02-06 16:08:21 by WilliumJonesAdditions:
Get your business listed at [[http://www.cyprus-companies.org/ Cyprus Companies]] Organization.
Revision [9316]
Edited on 2011-12-29 01:14:42 by WentForgoldAdditions:
[[http://www.alphaoptimisation.com/our-clients/ SEO clients]] Software and value added service of Medical Transcription [[http://www.alternativemedicinenaturalhealth.com/category/gluten-free/ gluten free food]]
[[http://ezinearticles.com/?Gluten-Intolerance---Coeliac-Disease&id=4779184 coeliac disease]]
[[http://www.vitaminstoday.com.au/vital-greens-1kg.php vital greens 1kg]]
[[http://ezinearticles.com/?Gluten-Intolerance---Coeliac-Disease&id=4779184 coeliac disease]]
[[http://www.vitaminstoday.com.au/vital-greens-1kg.php vital greens 1kg]]
Deletions:
[[http://dentaldentistsolutions.blogspot.com/2009/10/process-and-pictures-dental-implants.html Dental implants pictures]]
**[[http://itshumour.blogspot.com/2011/08/funny-statuses-quotes-for-facebook.html Funny facebook statuses]]**
Revision [9294]
Edited on 2011-12-28 19:19:39 by JuneTayAdditions:
[[http://dentaldentistsolutions.blogspot.com/2009/10/process-and-pictures-dental-implants.html Dental implants pictures]]
**[[http://itshumour.blogspot.com/2011/08/funny-statuses-quotes-for-facebook.html Funny facebook statuses]]**
**[[http://itshumour.blogspot.com/2011/08/funny-statuses-quotes-for-facebook.html Funny facebook statuses]]**
Revision [9293]
Edited on 2011-12-28 19:18:45 by JuneTayAdditions:
[[http://itshumour.blogspot.com/2010/06/twenty-hilarious-funny-quotes.html funny quotes]] Software and value added service of Medical Transcription
Deletions:
[[http://ezinearticles.com/?Gluten-Intolerance---Coeliac-Disease&id=4779184 coeliac disease]]
[[http://www.vitaminstoday.com.au/vital-greens-1kg.php vital greens 1kg]]
Revision [9250]
Edited on 2011-12-27 15:37:40 by WentForgoldAdditions:
[[http://www.alphaoptimisation.com/our-clients/ SEO clients]] Software and value added service of Medical Transcription [[http://www.alternativemedicinenaturalhealth.com/category/gluten-free/ gluten free food]]
[[http://ezinearticles.com/?Gluten-Intolerance---Coeliac-Disease&id=4779184 coeliac disease]]
[[http://www.vitaminstoday.com.au/vital-greens-1kg.php vital greens 1kg]]
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis.
[[http://ezinearticles.com/?Gluten-Intolerance---Coeliac-Disease&id=4779184 coeliac disease]]
[[http://www.vitaminstoday.com.au/vital-greens-1kg.php vital greens 1kg]]
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis.
Deletions:
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[MicroFluidics Micro Fluidics]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
**[[http://www.printtoprint.com www.printtoprint.com]]
**[[http://www.printed-editions.com/ Limited edition prints uk]]
**[[http://www.gladstonebrookes.co.uk/ppi PPI reclaim]]
**[[http://www.bbhandel.com/shopware.php/Aquaristik/Meerwasser-Aquaristik Meerwasser Aquaristik]]
Additions:
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis. [[http://www.thebusinessoctopus.co.uk/landlord-insurance.html Landlord insurance quote]]
Deletions:
Revision [8838]
Edited on 2011-12-11 22:23:00 by PihszouDeNo differences.
Additions:
**[[http://www.gladstonebrookes.co.uk/ppi PPI reclaim]]
Additions:
**[[http://www.printtoprint.com www.printtoprint.com]]
**[[http://www.printed-editions.com/ Limited edition prints uk]]
**[[http://www.printed-editions.com/ Limited edition prints uk]]
Additions:
**[[http://www.bbhandel.com/shopware.php/Aquaristik/Meerwasser-Aquaristik Meerwasser Aquaristik]]
Additions:
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis.
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented.
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive.
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease.
{{nocomments}}
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented.
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive.
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease.
{{nocomments}}
Deletions:
(Jan 2010)
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis... **[[[http://www.physorg.com/news182703608.html 4]]]; [[[http://www.azonano.com/news.asp?newsID=14739 5]]]**
**{[[http://www2.imec.be/imec_com/imec_com_homepage.php IMEC]]}**
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented. **[[[http://www.azonano.com/news.asp?NewsID=14012 1]]]**
**{[[http://www.zurich.ibm.com/ IBM Research Zurich]] / Luc Gervais & Emmanuel Delamarche}**
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient�s serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive. **[[[http://www.zurich.ibm.com/news/09/lab_on_a_chip.html 2]]]**
**{[[http://www.ee.psu.edu/ Penn State University, Electrical Engineering]] / [[http://www.ee.psu.edu/faculty/tmayer/tmayer1.html Prof Theresa Mayer]]}**
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease. **[[[http://www.technologyreview.com/computing/21974/?a=f 3]]]**
1. http://www.azonano.com/news.asp?NewsID=14012
2. http://www.zurich.ibm.com/news/09/lab_on_a_chip.html
3. http://www.technologyreview.com/computing/21974/?a=f
4. http://www.physorg.com/news182703608.html
5. http://www.azonano.com/news.asp?newsID=14739
Revision [6823]
Edited on 2011-07-08 22:07:10 by UahOahAdditions:
@@======LAB-ON-CHIP======@@
----
===={{color text="CONTENT" c="#000000"}}====
**[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#News News]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#Comp Companies & Institutions]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#Ref References]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#See See Also]]
**
----
===={{color text="NEWS" c="#000000"}}""""====
==== ""U. California, Los Angeles"": Nanosystems Capture and Destroy Circulating Tumor Cells====
**{[[http://www.cnsi.ucla.edu/ UCLA, California NanoSystems Institute]] / [[http://www.cnsi.ucla.edu/institution/personnel?personnel_id=45737 Prof. Hsian-Rong Tseng]]}**
(Jan 2010)
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis... **[[[http://www.physorg.com/news182703608.html 4]]]; [[[http://www.azonano.com/news.asp?newsID=14739 5]]]**
==== ""IMEC"": Lab-on-Chip for Fast Cancer Detection and Therapy====
**{[[http://www2.imec.be/imec_com/imec_com_homepage.php IMEC]]}**
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented. **[[[http://www.azonano.com/news.asp?NewsID=14012 1]]]**
==== ""IBM Zurich"": Lab-on-Chip for Medical Diagnostic Testing ====
**{[[http://www.zurich.ibm.com/ IBM Research Zurich]] / Luc Gervais & Emmanuel Delamarche}**
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient�s serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive. **[[[http://www.zurich.ibm.com/news/09/lab_on_a_chip.html 2]]]**
==== ""Penn State University"": Nanosensors Made Easy. A trick to assemble nanowires on silicon could lead to cheap, tiny sensing devices. ====
**{[[http://www.ee.psu.edu/ Penn State University, Electrical Engineering]] / [[http://www.ee.psu.edu/faculty/tmayer/tmayer1.html Prof Theresa Mayer]]}**
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease. **[[[http://www.technologyreview.com/computing/21974/?a=f 3]]]**
----
===={{color text="COMPANIES & INSTITUTIONS" c="#000000"}}""""====
===Companies===
""IBM research Zurich""
===Institutions===
""UCLA""
""IMEC""
""Penn State University""
===={{color text="REFERENCES" c="#000000"}}""""====
1. http://www.azonano.com/news.asp?NewsID=14012
2. http://www.zurich.ibm.com/news/09/lab_on_a_chip.html
3. http://www.technologyreview.com/computing/21974/?a=f
4. http://www.physorg.com/news182703608.html
5. http://www.azonano.com/news.asp?newsID=14739
===={{color text="SEE ALSO" c="#000000"}}""""====
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[MicroFluidics Micro Fluidics]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
----
[[CategoryWiki]]
----
===={{color text="CONTENT" c="#000000"}}====
**[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#News News]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#Comp Companies & Institutions]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#Ref References]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#See See Also]]
**
----
===={{color text="NEWS" c="#000000"}}""""====
==== ""U. California, Los Angeles"": Nanosystems Capture and Destroy Circulating Tumor Cells====
**{[[http://www.cnsi.ucla.edu/ UCLA, California NanoSystems Institute]] / [[http://www.cnsi.ucla.edu/institution/personnel?personnel_id=45737 Prof. Hsian-Rong Tseng]]}**
(Jan 2010)
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis... **[[[http://www.physorg.com/news182703608.html 4]]]; [[[http://www.azonano.com/news.asp?newsID=14739 5]]]**
==== ""IMEC"": Lab-on-Chip for Fast Cancer Detection and Therapy====
**{[[http://www2.imec.be/imec_com/imec_com_homepage.php IMEC]]}**
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented. **[[[http://www.azonano.com/news.asp?NewsID=14012 1]]]**
==== ""IBM Zurich"": Lab-on-Chip for Medical Diagnostic Testing ====
**{[[http://www.zurich.ibm.com/ IBM Research Zurich]] / Luc Gervais & Emmanuel Delamarche}**
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient�s serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive. **[[[http://www.zurich.ibm.com/news/09/lab_on_a_chip.html 2]]]**
==== ""Penn State University"": Nanosensors Made Easy. A trick to assemble nanowires on silicon could lead to cheap, tiny sensing devices. ====
**{[[http://www.ee.psu.edu/ Penn State University, Electrical Engineering]] / [[http://www.ee.psu.edu/faculty/tmayer/tmayer1.html Prof Theresa Mayer]]}**
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease. **[[[http://www.technologyreview.com/computing/21974/?a=f 3]]]**
----
===={{color text="COMPANIES & INSTITUTIONS" c="#000000"}}""""====
===Companies===
""IBM research Zurich""
===Institutions===
""UCLA""
""IMEC""
""Penn State University""
===={{color text="REFERENCES" c="#000000"}}""""====
1. http://www.azonano.com/news.asp?NewsID=14012
2. http://www.zurich.ibm.com/news/09/lab_on_a_chip.html
3. http://www.technologyreview.com/computing/21974/?a=f
4. http://www.physorg.com/news182703608.html
5. http://www.azonano.com/news.asp?newsID=14739
===={{color text="SEE ALSO" c="#000000"}}""""====
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[MicroFluidics Micro Fluidics]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
----
[[CategoryWiki]]
Deletions:
[[http://www.swoo.ch/pg/blog/wheremymoney26 dafgfghfgfgaadfg]]
[[http://digimapp.vkhk.ee/pg/blog/read/59650/ipod-touch zgggggggggfg]]
[[http://www.sportbusiness.com/user/wheremymoney26 daaaaaaaadfg]]
[[http://www.themusicportal.com.au/blogs/posts/wheremymoney26 dxfgfgdgdfddfg]]
[[http://mylascience.com/wheremymoney26/blog/28419/ sdfsddgfdgfdfgdfg]]
asdasdddddddddddd
**asdddddddddddddd****asdddddddddddddd****asdddddddddddddd**
Revision [6811]
Edited on 2011-07-08 21:50:46 by UahOahAdditions:
**asdddddddddddddd****asdddddddddddddd****asdddddddddddddd****asdddddddddddddd****asdddddddddddddd****asdddddddddddddd****asdddddddddddddd****asdddddddddddddd**
[[http://www.swoo.ch/pg/blog/wheremymoney26 dafgfghfgfgaadfg]]
[[http://digimapp.vkhk.ee/pg/blog/read/59650/ipod-touch zgggggggggfg]]
[[http://www.sportbusiness.com/user/wheremymoney26 daaaaaaaadfg]]
[[http://www.themusicportal.com.au/blogs/posts/wheremymoney26 dxfgfgdgdfddfg]]
[[http://mylascience.com/wheremymoney26/blog/28419/ sdfsddgfdgfdfgdfg]]
asdasdddddddddddd
**asdddddddddddddd****asdddddddddddddd****asdddddddddddddd**
[[http://www.swoo.ch/pg/blog/wheremymoney26 dafgfghfgfgaadfg]]
[[http://digimapp.vkhk.ee/pg/blog/read/59650/ipod-touch zgggggggggfg]]
[[http://www.sportbusiness.com/user/wheremymoney26 daaaaaaaadfg]]
[[http://www.themusicportal.com.au/blogs/posts/wheremymoney26 dxfgfgdgdfddfg]]
[[http://mylascience.com/wheremymoney26/blog/28419/ sdfsddgfdgfdfgdfg]]
asdasdddddddddddd
**asdddddddddddddd****asdddddddddddddd****asdddddddddddddd**
Deletions:
----
===={{color text="CONTENT" c="#000000"}}====
**[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#News News]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#Comp Companies & Institutions]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#Ref References]]
[[http://www.nano-tera.ch/nanoterawiki/HeartMonitoring#See See Also]]
**
----
===={{color text="NEWS" c="#000000"}}""""====
==== ""U. California, Los Angeles"": Nanosystems Capture and Destroy Circulating Tumor Cells====
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis.
==== ""IMEC"": Lab-on-Chip for Fast Cancer Detection and Therapy====
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented.
==== ""IBM Zurich"": Lab-on-Chip for Medical Diagnostic Testing ====
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive.
==== ""Penn State University"": Nanosensors Made Easy. A trick to assemble nanowires on silicon could lead to cheap, tiny sensing devices. ====
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease.
----
===={{color text="COMPANIES & INSTITUTIONS" c="#000000"}}""""====
===Companies===
""IBM research Zurich""
===Institutions===
""UCLA""
""IMEC""
""Penn State University""
===={{color text="REFERENCES" c="#000000"}}""""====
===={{color text="SEE ALSO" c="#000000"}}""""====
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[MicroFluidics Micro Fluidics]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
----
[[CategoryWiki]]
Deletions:
Revision [4022]
Edited on 2011-05-01 11:40:18 by WikiAdmingtonAdditions:
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis.
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented.
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive.
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease.
1. **[[http://jwh250.blogspot.com/2011/04/jwh-250.html купить JWH-250 оптом]]**
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented.
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive.
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease.
1. **[[http://jwh250.blogspot.com/2011/04/jwh-250.html купить JWH-250 оптом]]**
Deletions:
(Jan 2010)
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis... **[[[http://www.physorg.com/news182703608.html 4]]]; [[[http://www.azonano.com/news.asp?newsID=14739 5]]]**
**{[[http://www2.imec.be/imec_com/imec_com_homepage.php IMEC]]}**
IMEC has achieved a major milestone in the development of a lab-on-chip for the detection and therapy evaluation of breast cancer. This is the first time that a lab-on-chip system including many complex sample preparation steps and multiplexed detection was conceived and is being implemented. **[[[http://www.azonano.com/news.asp?NewsID=14012 1]]]**
**{[[http://www.zurich.ibm.com/ IBM Research Zurich]] / Luc Gervais & Emmanuel Delamarche}**
IBM scientists have created a one-step point-of-care-diagnostic test, based on an innovative microfluidic silicon chip, that requires less sample volume, is significantly faster, portable, easy to use, and can test for many diseases, including one of world's leading causes of death, cardiovascular disease. The results are so quick and accurate that a small sample of a patient�s serum or blood, could be tested immediately following a heart attack, to enable the doctor to quickly take a course of action to help the patient survive. **[[[http://www.zurich.ibm.com/news/09/lab_on_a_chip.html 2]]]**
**{[[http://www.ee.psu.edu/ Penn State University, Electrical Engineering]] / [[http://www.ee.psu.edu/faculty/tmayer/tmayer1.html Prof Theresa Mayer]]}**
Treated nanowires could serve as very sensitive toxin or pathogen detectors. But while nanowire sensors have been made in the lab, they have been difficult to mass-produce, mainly because there is no quick and easy way to place the tiny wires at precise locations on a surface.
Now researchers at Penn State University have come up with a way to guide single nanowires into place on a silicon chip using an electric field. Once the nanowires are in place, the researchers deposit electrodes on top to make arrays of sensing devices. This is a step toward affordable, sensitive handheld sensors that could quickly screen for hundreds of pathogens and toxic chemicals or catch the first signs of disease. **[[[http://www.technologyreview.com/computing/21974/?a=f 3]]]**
1. http://www.azonano.com/news.asp?NewsID=14012
2. http://www.zurich.ibm.com/news/09/lab_on_a_chip.html
3. http://www.technologyreview.com/computing/21974/?a=f
4. http://www.physorg.com/news182703608.html
5. http://www.azonano.com/news.asp?newsID=14739
Revision [2987]
Edited on 2010-07-28 14:50:53 by LeonoreGolayAdditions:
""UCLA""
Revision [2970]
Edited on 2010-07-28 09:11:46 by LeonoreGolayAdditions:
Just as fly paper captures insects, a pair of nanotechnology-enabled devices are able to grab cancer cells in the blood that have broken off from a tumor. These cells, known as circulating tumor cells, or CTCs, can provide critical information for examining and diagnosing cancer metastasis... **[[[http://www.physorg.com/news182703608.html 4]]]; [[[http://www.azonano.com/news.asp?newsID=14739 5]]]**
