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Team:TU-Eindhoven/Project
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==Abstract== | ==Abstract== | ||
| - | Our project presents an alternative solution to the use of heavy metals MRI {{:Team:TU-Eindhoven/Template:Tooltip | text=contrast agents | tooltip=Substance that can be distinguished from its surroundings on an MRI scan }} (since the most commonly used heavy metal Gadolinium may be involved by inducing diseases{{:Team:TU-Eindhoven/Template:Ref | id=GNSF | author=T Grobner and FC Prischl | title=Gadolinium and nephrogenic systemic fibrosis| journal=Kidney International | edition=72 | pages=260–264 | year=2007 }}{{:Team:TU-Eindhoven/Template:Ref | id=Gsrf34 | author=Ihsan Ergün, Kenan Keven, et all. | title=The safety of gadolinium in patients with stage 3 and 4 renal failure | journal=Nephrology Dialysis Transplantation | edition=21 | pages=697-700 | year=2006 }} and may be toxic when the patient has kidney failures{{:Team:TU-Eindhoven/Template:Ref | id=Gint | author=I. Buhaescu and H. Izzedine | title=Gadolinium-induced nephrotoxicity | journal=The International Journal of Clinical Practice | edition=62 | pages=1113-1118 | year=2008 }}) by focusing on {{:Team:TU-Eindhoven/Template:Tooltip | text=CEST | tooltip=Chemical Exchange Saturation Transfer }} MRI. Within CEST imaging, proteins enclosing hydrogen atoms generate high quality images. We use Escherichia coli to create CEST proteins when the bacteria sense a hypoxic environment due to a promoter designed for this purpose, thus working as a production and delivery system for the CEST MRI contrast agent. A rapidly evolving research area in the field of oncology is the one focused on bacterial based cancer therapies, in which bacteria like E. Coli and Salmonella are used induce cell death. Based on this type of cancer | + | Our project presents an alternative solution to the use of heavy metals MRI {{:Team:TU-Eindhoven/Template:Tooltip | text=contrast agents | tooltip=Substance that can be distinguished from its surroundings on an MRI scan }} (since the most commonly used heavy metal Gadolinium may be involved by inducing diseases{{:Team:TU-Eindhoven/Template:Ref | id=GNSF | author=T Grobner and FC Prischl | title=Gadolinium and nephrogenic systemic fibrosis| journal=Kidney International | edition=72 | pages=260–264 | year=2007 }}{{:Team:TU-Eindhoven/Template:Ref | id=Gsrf34 | author=Ihsan Ergün, Kenan Keven, et all. | title=The safety of gadolinium in patients with stage 3 and 4 renal failure | journal=Nephrology Dialysis Transplantation | edition=21 | pages=697-700 | year=2006 }} and may be toxic when the patient has kidney failures{{:Team:TU-Eindhoven/Template:Ref | id=Gint | author=I. Buhaescu and H. Izzedine | title=Gadolinium-induced nephrotoxicity | journal=The International Journal of Clinical Practice | edition=62 | pages=1113-1118 | year=2008 }}) by focusing on {{:Team:TU-Eindhoven/Template:Tooltip | text=CEST | tooltip=Chemical Exchange Saturation Transfer }} MRI. Within CEST imaging, proteins enclosing hydrogen atoms generate high quality images. We use Escherichia coli to create CEST proteins when the bacteria sense a hypoxic environment due to a promoter designed for this purpose, thus working as a production and delivery system for the CEST MRI contrast agent. A rapidly evolving research area in the field of oncology is the one focused on bacterial based cancer therapies, in which bacteria like E. Coli and Salmonella are used to induce cell death. Based on this type of cancer therapy, and considering that hypoxic regions are related to tumors, our eventual goal is to use this device to target and image tumors in humans by injecting the bacteria into the bloodstream. A second application is tracking bacteria in bacterial infections studies. For the iGEM competition however, the proteins are only expressed ex-vivo:in aerobic and anaerobic conditions. We aim to achieve an efficient testing of the CEST properties of the proteins and confirm the promoter’s ability to express each protein. |
{{:Team:TU-Eindhoven/Template:AbstractEnd}} | {{:Team:TU-Eindhoven/Template:AbstractEnd}} | ||
Revision as of 18:57, 4 October 2013
Abstract
Our project presents an alternative solution to the use of heavy metals MRI contrast agents (since the most commonly used heavy metal Gadolinium may be involved by inducing diseasesGNSFT Grobner and FC Prischl, Gadolinium and nephrogenic systemic fibrosis. Kidney International 72, 260–264 (2007)Gsrf34Ihsan Ergün, Kenan Keven, et all., The safety of gadolinium in patients with stage 3 and 4 renal failure. Nephrology Dialysis Transplantation 21, 697-700 (2006) and may be toxic when the patient has kidney failuresGintI. Buhaescu and H. Izzedine, Gadolinium-induced nephrotoxicity. The International Journal of Clinical Practice 62, 1113-1118 (2008)) by focusing on CEST MRI. Within CEST imaging, proteins enclosing hydrogen atoms generate high quality images. We use Escherichia coli to create CEST proteins when the bacteria sense a hypoxic environment due to a promoter designed for this purpose, thus working as a production and delivery system for the CEST MRI contrast agent. A rapidly evolving research area in the field of oncology is the one focused on bacterial based cancer therapies, in which bacteria like E. Coli and Salmonella are used to induce cell death. Based on this type of cancer therapy, and considering that hypoxic regions are related to tumors, our eventual goal is to use this device to target and image tumors in humans by injecting the bacteria into the bloodstream. A second application is tracking bacteria in bacterial infections studies. For the iGEM competition however, the proteins are only expressed ex-vivo:in aerobic and anaerobic conditions. We aim to achieve an efficient testing of the CEST properties of the proteins and confirm the promoter’s ability to express each protein.
References
