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[[Kim:News | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''NEWS''' </font>]] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
[[Kim:News | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''NEWS''' </font>]] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
[[Kim:Links | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''LINKS''' </font>]] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
[[Kim:Links | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''LINKS''' </font>]] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
[[Kim:Contact | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''CONTACT''' </font>]] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
[[Kim:Outreach | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''OUTREACH''' </font>]] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;[[Kim:Contact | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''CONTACT''' </font>]] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
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<h3>Overview</h3>
<h3>Overview</h3>
<font size=3>Our research spans the disciplinary boundaries between biomaterials, nanotechnology, and cell mechanobiology with an emphasis on their applications to tissue engineering and regenerative medicine. Through the use of multiscale fabrication and integration tools, we focus on the development and applications of biomimetic cell culture models and functional tissue engineering constructs for high-throughput drug screening, stem cell-based therapies, disease diagnostics, and medical device development. Using engineered microenvironments in combination with live cell imaging approaches, we are also studying the interplay between mechanical and biochemical signaling in the regulation of cell function and fate decisions that are essential for tissue repair and regeneration following injury, and various developmental events. The ultimate goal of our research is to better understand complex cellular behavior in response to microenvironmental cues in normal, aging and disease states, to gain new mechanistic insights into the control of cell-tissue structure and function, and to develop multiscale regenerative technologies for improving human health. </font>
<font size=3>Our research spans the disciplinary boundaries between nanotechnology, biomaterials, and cell mechanobiology with an emphasis on their applications to tissue engineering and regenerative medicine. Through the use of multiscale (nano/micro/meso) fabrication and integration tools, we focus on the development and applications of bio-inspired materials/devices/systems and functional tissue engineering models for elucidating cell biology, drug screening, disease modeling, and stem cell-based therapies. Using engineered microenvironments in combination with quantitative live cell imaging approaches, we are also studying the interplay between mechanical and biochemical signaling in the regulation of cell/tissue function and fate decisions that are essential for tissue repair and regeneration following injury, and various developmental events. The ultimate goal of our research is to better understand complex cellular behavior in response to microenvironmental cues in normal, aging and disease states, to gain new mechanistic insights into the control of cell-tissue structure and function, and to develop multiscale regenerative technologies for improving human health. </font>
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<h3>News</h3>  
<h3>News</h3>  
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* 5/2011  Derek received a NASA Summer Undergraduate Research Fellowship
*The Kim lab has been awarded the [https://www.wnf.washington.edu/ WRF] Microfabrication Commercialization Grant. This award will support our work on development of a next generation integrated MEA-nanodevice for drug-induced cardiotoxicity screening. (Nov. 2013)
* 5/2011  Prof. Kim has been selected as the 2011 recipient of the [http://www.washington.edu/news/articles/perkins-coie-awards-grant-for-nanoengineering-patch-to-repair-heart-attack-damage '''Perkins Coie Award for Discovery''']  
* Cameron Nemeth has been given a BMES Undergraduate Design and Research Award and the Washington Research Foundation Fellowship.  Congratulations Cameron! (Sept. 2013)  [http://depts.washington.edu/bioe/cameron-nemeth-receives-bmes-award-wrf-fellowship/ Read more]
* 4/2011  Alex was awarded a NIH Bioengineering Cardiovascular Training Fellow
* Alex Jiao was awarded a NIH T32 Cardiovascular Pathology Training Grant Fellowship. (Aug. 2013).
* 7/2010  Prof. Kim featured in [http://www.nibib.nih.gov/HealthEdu/eAdvances/30July10 '''National Institute of Biomedical Imaging and Bioengineering'''] article on a nanoengineered patch for the damaged heart
* Prof. Kim has been awarded the prestigious Young Investigator Award 2013 from the [http://ksea.org/index.php?option=com_content&view=article&id=521:2013yigwinners&catid=11:upcoming-events&Itemid=48 Korean-American Scientists and Engineers Association (KSEA)]. (June 2013)
* 5/2010  Prof. Kim received the [http://www.fhcrc.org/about/ne/news/2010/03/08/weintraub.html '''Harold M. Weintraub Award''']
* Jesse Macadangdang was awarded a NIH Bioengineering Cardiovascular Training Grant Fellowship!  (June 2013)
* 12/2009  PNAS paper discussed in [http://www.sciencedaily.com/releases/2009/12/091215153632.html '''Science Daily'''] magazine
* Prof. Kim joined the editorial board of the [http://www.aspbs.com/jbn.html Journal of Biomedical Nanotechnology] as an Associate Editor. (May 2013)
* 5/2009  [http://onlinelibrary.wiley.com/doi/10.1002/adfm.200990041/abstract '''Advanced Functional Materials'''] paper featured as Frontispiece
* Kim Lab has been awarded an [http://mda.org/research/gaag/dmd-deok-ho-kim-phd Muscular Dystrophy Association (MDA) research grant] to develop bioengineering techniques for growing muscle for use in transplantation into a mouse model of Duchenne muscular dystrophy. (Feb. 2013)
 
 
 
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<h3>Recent Publications</h3>  
<h3>Featured Publications</h3>  
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* "'''Biomimetic nanopatterns as enabling tools for analysis and control of live cells,'''" Advanced Materials, 2010. [http://www.ncbi.nlm.nih.gov/pubmed/20803528 Pubmed], [http://www.hubmed.org/display.cgi?uids=20803528 Hubmed] <BR>
 
* "'''Nanoscale cues regulate the structure and function of macroscopic cardiac tissue constructs'''," Proceedings of National Academy of Sciences USA, vol.107, pp. 565-570, 2010. [http://www.ncbi.nlm.nih.gov/pubmed/20018748 Pubmed], [http://www.hubmed.org/display.cgi?uids=20018748 Hubmed] <BR>
*Thermoresponsive Nanofabricated Substratum for the Engineering of Three-Dimensional Tissues with Layer-by-Layer Architectural Control, ACS Nano, vol. 8, pp. 4430-4439, 2014. [http://pubs.acs.org/doi/abs/10.1021/nn4063962 Article]
* "'''Microengineered platform for cell mechanobiology'''," Annual Review of Biomedical Engineering, vol. 11, pp.203-233, 2009. [http://www.ncbi.nlm.nih.gov/pubmed/19400708 Pubmed] <BR>
* Nanopatterned muscle cell patches for enhanced myogenesis and dystrophin expression in a mouse model of muscular dystrophy, Biomaterials, vol. 35, pp. 1478-1486, 2014. [http://www.sciencedirect.com/science/article/pii/S0142961213013239 Article]
* Nanotopography-guided tissue engineering and regenerative medicine, Advanced Drug Delivery Review, vol. 65, pp. 536-558, 2013. [http://www.sciencedirect.com/science/journal/0169409X/65/4 '''(Featured as a Cover Article)'''] [http://www.sciencedirect.com/science/article/pii/S0169409X1200244X Article]  
* Nanopatterned cardiac cell patches promote stem cell niche formation and myocardial regeneration, Integrative Biology, Vol. 4, Issue 9,pp. 1019-1033, 2012 [http://pubs.rsc.org/en/journals/journalissues/ib#!issueid=ib004009&type=current&issnprint=1757-9694 '''(Featured as a Cover Article)''']    [http://pubs.rsc.org/en/content/articlelanding/2012/ib/c2ib20067h Article]<br>
* Matrix rigidity controls endothelial differentiation and morphogenesis of cardiac precursors, Science Signaling, vol. 5, issue 227, p. ra41, 2012. [http://stke.sciencemag.org/content/vol5/issue227/cover.dtl '''(Featured as a Cover Article)''']  [http://stke.sciencemag.org/cgi/content/abstract/sigtrans;5/227/ra41 Article]
* Nanoscale cues regulate the structure and function of macroscopic cardiac tissue constructs, Proceedings of National Academy of Sciences USA, vol.107, pp. 565-570, 2010. [http://www.pnas.org/content/107/2/565.long Article] [http://www.nibib.nih.gov/HealthEdu/eAdvances/30July10 '''(Highlighted in the National Institute of Biomedical Imaging and Bioengineering)]'''
* Microengineered platforms for cell mechanobiology, Annual Review of Biomedical Engineering, vol. 11, pp.203-233, 2009. [http://www.annualreviews.org/doi/abs/10.1146/annurev-bioeng-061008-124915?url_ver=Z39.88-2003&rfr_dat=cr_pub%3Dpubmed&rfr_id=ori%3Arid%3Acrossref.org&journalCode=bioeng Article]
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<font size = 3> '''Our Sponsors''': <br>
[[Image: nsf_Logo.jpg|100px|link=http://mda.org/]] &emsp;&emsp;
[[Image: NIH banner.png|220px|link = http://www.nih.gov/]] &emsp;&emsp;
[[Image: AHA.jpg|140px|link = http://www.heart.org/HEARTORG/]] &emsp;&emsp;
[[Image: MDAlogo name.jpg|200px|link=http://mda.org/]] &emsp;&emsp;
[[Image:MOTIE-logo.jpg|180px|link=http://www.mke.go.kr/language/eng/]] &emsp;&emsp; <br>
[[Image: Coulter.jpg|100px|link =http://www.whcf.org/]]  &emsp;&emsp;
[[Image: C4C.png|160px|link = http://depts.washington.edu/uwc4c/]] &emsp;&emsp;&emsp;&emsp; 
[[Image: Lsdf_logo2.gif‎|140px|link = http://www.lsdfa.org/]] &emsp;&emsp;
[[Image: UWlogo.jpg|220px|link = http://www.washington.edu/]] &emsp;&emsp;
[[Image:KSEAlogo.jpg|220px|link = http://www.ksea.org/2013/]] &emsp;&emsp; <br>
<div style="text-align: left;">[http://www2.clustrmaps.com/user/a76c219e http://www2.clustrmaps.com/stats/maps-no_clusters/www.openwetware.org-wiki-Kim-thumb.jpg] </div>


[http://www2.clustrmaps.com/user/a76c219e http://www2.clustrmaps.com/stats/maps-no_clusters/www.openwetware.org-wiki-Kim-thumb.jpg]


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Revision as of 20:13, 24 June 2014

HOME        RESEARCH        PEOPLE        PUBLICATIONS        INTERNAL        POSITIONS        NEWS        LINKS        OUTREACH        CONTACT       

Overview

Our research spans the disciplinary boundaries between nanotechnology, biomaterials, and cell mechanobiology with an emphasis on their applications to tissue engineering and regenerative medicine. Through the use of multiscale (nano/micro/meso) fabrication and integration tools, we focus on the development and applications of bio-inspired materials/devices/systems and functional tissue engineering models for elucidating cell biology, drug screening, disease modeling, and stem cell-based therapies. Using engineered microenvironments in combination with quantitative live cell imaging approaches, we are also studying the interplay between mechanical and biochemical signaling in the regulation of cell/tissue function and fate decisions that are essential for tissue repair and regeneration following injury, and various developmental events. The ultimate goal of our research is to better understand complex cellular behavior in response to microenvironmental cues in normal, aging and disease states, to gain new mechanistic insights into the control of cell-tissue structure and function, and to develop multiscale regenerative technologies for improving human health.

News

  • The Kim lab has been awarded the WRF Microfabrication Commercialization Grant. This award will support our work on development of a next generation integrated MEA-nanodevice for drug-induced cardiotoxicity screening. (Nov. 2013)
  • Cameron Nemeth has been given a BMES Undergraduate Design and Research Award and the Washington Research Foundation Fellowship. Congratulations Cameron! (Sept. 2013) Read more
  • Alex Jiao was awarded a NIH T32 Cardiovascular Pathology Training Grant Fellowship. (Aug. 2013).
  • Prof. Kim has been awarded the prestigious Young Investigator Award 2013 from the Korean-American Scientists and Engineers Association (KSEA). (June 2013)
  • Jesse Macadangdang was awarded a NIH Bioengineering Cardiovascular Training Grant Fellowship! (June 2013)
  • Prof. Kim joined the editorial board of the Journal of Biomedical Nanotechnology as an Associate Editor. (May 2013)
  • Kim Lab has been awarded an Muscular Dystrophy Association (MDA) research grant to develop bioengineering techniques for growing muscle for use in transplantation into a mouse model of Duchenne muscular dystrophy. (Feb. 2013)

Featured Publications

  • Thermoresponsive Nanofabricated Substratum for the Engineering of Three-Dimensional Tissues with Layer-by-Layer Architectural Control, ACS Nano, vol. 8, pp. 4430-4439, 2014. Article
  • Nanopatterned muscle cell patches for enhanced myogenesis and dystrophin expression in a mouse model of muscular dystrophy, Biomaterials, vol. 35, pp. 1478-1486, 2014. Article
  • Nanotopography-guided tissue engineering and regenerative medicine, Advanced Drug Delivery Review, vol. 65, pp. 536-558, 2013. (Featured as a Cover Article) Article
  • Nanopatterned cardiac cell patches promote stem cell niche formation and myocardial regeneration, Integrative Biology, Vol. 4, Issue 9,pp. 1019-1033, 2012 (Featured as a Cover Article) Article
  • Matrix rigidity controls endothelial differentiation and morphogenesis of cardiac precursors, Science Signaling, vol. 5, issue 227, p. ra41, 2012. (Featured as a Cover Article) Article
  • Nanoscale cues regulate the structure and function of macroscopic cardiac tissue constructs, Proceedings of National Academy of Sciences USA, vol.107, pp. 565-570, 2010. Article (Highlighted in the National Institute of Biomedical Imaging and Bioengineering)
  • Microengineered platforms for cell mechanobiology, Annual Review of Biomedical Engineering, vol. 11, pp.203-233, 2009. Article


Our Sponsors:
   link = http://www.nih.gov/    link = http://www.heart.org/HEARTORG/         
link =http://www.whcf.org/    link = http://depts.washington.edu/uwc4c/      link = http://www.lsdfa.org/    link = http://www.washington.edu/    link = http://www.ksea.org/2013/   



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