living matter lab
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==computer simulations of mechanobiology==
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<div class="publicationheader">webinars</div>
 +
 
 +
==eml webinar==
 +
 
 +
[https://www.youtube.com/watch?v=lBMPfltcDqs extreme mechanics letters webinar] <br>
 +
 
 +
[[Image:EMLkuhl.jpg|735px]]
 +
 
 +
<div class="publicationheader">books</div>
 +
 
 +
==multiscale modeling in biomechanics and mechanobiology==
  
 
<div>
 
<div>
[[Image:cmbbe.jpg|150px|left]]
+
[[Image:book.jpg|150px|left]]
 
{|
 
{|
 
|
 
|
special issue on computer simulations of mechanobiology <br>
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[http://www.springer.com/us/book/9781447165989 multiscale modeling in biomechanics and mechanobiology] <br>
[http://www.informaworld.com/smpp/title~content=g902463585~db=all computer methods in biomechanics and biomedical engineering] <br>
+
springer, london, 2015  <br>
volume 11, 2008, preface [http://biomechanics.stanford.edu/paper/PREFC08.pdf (download)] <br>
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[[preface]], [http://link.springer.com/book/10.1007%2F978-1-4471-6599-6 table of contents] <br>
  
 
contributions by <br>
 
contributions by <br>
ralph muller, patrick prendergast, dennis carter, gary beaupre, philippe zysset, markus bol, andreas menzel, larry taber, jay humphrey, anna pandolfi, axel klawonn, jorg schroder, and frank baaijens
+
saroj nayak, suvranu de, reinhold lipowsky, wonmuk hwang,  
 +
chris jacobs, tarek zohdi, arturas ziemys,  
 +
james weiss, jay humphrey, michael sacks, raul valencia
 
|}
 
|}
  
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<div class="spacer">&nbsp;</div>
 
<div class="spacer">&nbsp;</div>
  
==the mathematics of growth & remodeling of soft biological tissues==
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==computer models in biomechanics from nano to macro==
  
miniworkshop <br>
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<div>
[http://www.mfo.de mathematisches forschungsinstitut oberwolfach] <br>
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[[Image:iutam.jpg|150px|left]]
08/31/08-09/06/08, oberwolfach, germany, report [http://biomechanics.stanford.edu/paper/MFOreport.pdf (download)] <br>
+
{|
ellen kuhl,
+
|
davide ambrosi,
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[http://www.springer.com/materials/mechanics/book/978-94-007-5463-8 computer models in biomechanics: from nano to macro] <br>
krishna garikipati <br>
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springer, dortrecht heidelberg new york london, 2012  <br>
 +
[http://biomechanics.stanford.edu/paper/IUTAMpre.pdf preface], [http://biomechanics.stanford.edu/paper/IUTAMtoc.pdf table of contents] <br>
  
<html>
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contributions by <br>
<td><img src="images/oberwolfach.jpg">
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patrick onck, peter pinsky, bob mc meeking, gerhard holzapfel, markus b&ouml;l, jonas stalhand, marko vendelin, oliver rohrle, jay humphrey, nele famaey, david vorp, paul watton, serdar goktepe, alfio quarteroni, alberto figueroa, ajit yoganathan, gerard ateshian, jeff weis, stephen cowin, wolfgang ehlers, tim ricken, krishna garikipati, yiannis ventikos, jacques huyghe, larry taber, ellen arruda, edoardo mazza, ralph muller, wolfgang wall
</html>
+
|}
  
<b>back</b>
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</div>
antonio di carlo,
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<div class="spacer">&nbsp;</div>
isaac vikram chenchiah,
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anders klarbring,
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ellen kuhl,
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krishna garikipati,
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andreas menzel,
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harish narayanan,
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paolo podio-giudugli,
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angela stevens,
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patrick shipman,
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martine ben amar.<br>
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<b>italian front</b>
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guido vitale,
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davide ambrosi,
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alfio grillo,
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luigi preziosi.
+
  
<b>abstract</b>
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<div class="publicationheader">special issues</div>
biology is becoming the most attractive field of application of mathematics.
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the discoveries that have characterized the biological sciences
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in the last decades have become the most fertile matter for application of
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classical mathematical methods, while they offer a natural environment where new
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theoretical questions arise.
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mathematical biology' has born many years ago and has developped
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along  directions that now constitute its traditional background: population dynamics
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and reaction-diffusion equations.  nowadays mathematical biology
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is differentiating into several branches, essentially depending on the specific
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spatial scale size under consideration: molecular scale (i.e. dna transcription, protein
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folding and cascades),
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cellular scale (i.e. motility, aggregation and moprhogenesis) and macroscale
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(i.e. tissue mechanics).
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currently one of the most attractive scientific
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topics is the mathematics of growth and remodelling of soft
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biological tissues. this area, located at the crossroads of biology,
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mathematics and continuum mechanics, concerns the statement and analysis of the
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equations that characterize the mechanics, growth and remodelling of systems like
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arteries, tumors and ligaments, studied at the macroscopic scale.
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these are open continuous systems that pose new
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challenging questions, which go beyond the standard mechanics that is
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traditionally
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devoted to closed systems.
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past initiatives in oberwolfach have been devoted to the interaction between
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biology and mathematics in a broad sense.
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a minisymposium in oberwolfach focusing on the mathematics of growth and remodelling
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of soft biological tissues' would be the occasion
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to  bring together established researchers on this topic
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with newer entrants to the field.
+
  
==cardiovascular tissue engineering==
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==biological systems==
  
group retreat <br>
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<div>
[http://cvte.stanford.edu cardiovascular tissue engineering] <br>
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[[Image:cmame.jpg|150px|left]]
07/11/08-07/13/08, asilomar <br>
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{|
 +
|
 +
special issue on biological systems <br>
 +
[http://www.sciencedirect.com/science/journal/00457825/314 computer methods in applied mechanics and engineering] <br>
 +
volume 314, 2017, editorial dedicated to bill klug [http://biomechanics.stanford.edu/paper/CMAME17a.pdf (download)] <br>
  
<html>
+
contributions by <br>
<td><img src="images/efri.jpg">
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paul barone, elisa budyn, adrian buganza tepole, suvranu de, dan ennis, jean-frederic gerbeau, hector gomez, alain goriely, tim healey, tom hughes, gianluca iaccarino, antoine jerusalem, bill klug, alison marsden, arif masud, david nordsletten, assad oberai, michael ortiz, peter pinsky, alfio quarteroni, michael sacks, wolfgang wall, tom yankeelov, tarek zohdi, and many others
</html>
+
|}
  
<b>back</b>
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==heart valve replacement or repair==
gadryn higgs, serdar goktepe, chris zarins, joe wu, beth pruitt, erin murphy, ellen kuhl, sarah heilshorn, ginel hill, ahmed assar.<br>
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<b>font</b>
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franklin jia, joe ulerich, jonathan wong, rebecca taylor, chelsey simmons, james norman,
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jin yu, cheryl wong po foo.
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<b>our goals are</b>
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(i) to enhance the in vitro performance of mouse/human embryonic stem cell-derived
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cardiomyocytes by environmental control including: electromechanical stimulation in bioreactor systems by integrated stretchable microelectrode arrays and engineering of safe and biodegradable elastomeric scaffolds with integrated biochemical ligands and topographical cues for improved proliferation and survival of conditioned cardiomyocytes;
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(ii) to scale these structures from single cell layers to large area 3-d structures forming multi-cell layered tissue grafts conditioned on a pulsatile flow setup supported by numerical simulations;
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(iii) to perform small animal in vivo assessment using novel molecular imaging (mol-im) techniques comparing the viability of injected cells alone to engineered tissue grafts and predict their long term response based on finite element simulations; and
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(iv) to characterize and model effects of electromechanical
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conditioning on cell-cell interactions and cell-scaffold interactions.
+
 
+
 
+
==spaghetti towers @stanford==
+
 
+
some impressions of stanford's class of 2020 during stanford's society of women engineers' exploring new worlds spaghetti tower building contest,
+
more pics [[spaghetti towers 01]], [[spaghetti towers 02]] <br>
+
  
 
<div>
 
<div>
[[Image:tower01.jpg|210px|left]]
+
[[Image:abme.jpg|150px|left]]
{| class="projecttable"
+
{|
! justine & lindy - the highest but heaviest
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|-
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|
 
|
with a height of 3.8 spaghetti lengths, justine and lindy built one of the highest towers! it's foundation is totally laffy taffy and beautiful! due to its colorful but massive candy basement, the building was not only the highest but with 112g also the heaviest construction of the day. congrats to justine and lindy for this beautiful high tower!
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special issue on engineering the ideal heart valve replacement or repair <br>
|}<br>
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[http://link.springer.com/article/10.1007/s10439-017-1801-0 annals of biomedical engineering] <br>
 +
volume XXX, 2017, editorial [http://biomechanics.stanford.edu/paper/ABME17.pdf (download)] <br>
  
<div>
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contributions by <br>
[[Image:tower02.jpg|210px|left]]
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jonathan talbot butcher, lakshmi dasi, robert gorman, joseph gorman III, jane grande-allen,
{| class="projecttable"
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zhaoming he, frederic heim, arash kheradvar, stephen little, muralidhar padala, jean ruel,
! edward, hanson, abhishek & sean - the real engineering one
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robert tranquillo, michael sacks, wei sun, ajit yoganathan, and many others
|-
+
|
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our favorite engineers of the day! edward, hanson, abhishek & sean really worked together as a team and created this cool 1.4 story building. due to its truss structure (and because you guys ate the laffy taffys rather then build them in) this 47g structure is super light! guys, you should definitely become engineers!
+
 
|}
 
|}
 +
 +
==growing matter==
  
 
<div>
 
<div>
[[Image:tower03.jpg|210px|left]]
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[[Image:jmbbm.jpg|150px|left]]
{| class="projecttable"
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{|
! karishma, abi, aaron & brijen - the highest
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|-
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|
 
|
the most slender and elegant structure was designed by karishma, abi, aaron & brijen. with only 44g it was superlight and yet 3.6 spaghetti lengths high. it needed a little human support but its triangular foundation was totally solid and stable! congratulations to this team for its really great engineering design!
+
[http://biomechanics.stanford.edu/Matter special issue on growing matter] <br>
 +
[http://www.sciencedirect.com/science/journal/17516161/29 journal of the mechanical behavior of biomedical materials] <br>
 +
volume 29, 2014, editorial [http://biomechanics.stanford.edu/paper/JMBBM14a.pdf (download)], all contributions [http://biomechanics.stanford.edu/Matter (download)] <br>
 +
 
 +
contributions by <br>
 +
gerard ateshian, frank baaijens, phil bayly, markus b&ouml;l, caroline bouten, xi-qiao feng, alberto figueroa, rafael grytz, jay humphrey, andreas menzel, kristin myers, cees oomens, djenane pamplona, larry taber, jonathan vande geest, and many others
 
|}
 
|}
 +
 +
==biomechanics of growth and remodeling==
  
 
<div>
 
<div>
[[Image:tower04.jpg|210px|left]]
+
[[Image:mrcom.jpg|150px|left]]
{| class="projecttable"
+
{|
! megan, vina, anna, claire - the nonsymmetric one
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|-
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|
 
|
who said that girls can't build towers??? this girls only team added an extra challenge by making their truss structure nonsymmetric. it was 1.4 spaghettis lengths high and one of the most beautiful buildings of the day! weighing was a challenge though due to its width! congrats to this great team!
+
[http://biomechanics.stanford.edu/Growth special issue on advances on the biomechanics of growth and remodeling] <br>
 +
[http://www.sciencedirect.com/science/journal/00936413/42 mechanics research communications] <br>
 +
volume 42, 2012, introduction [http://biomechanics.stanford.edu/paper/MRCOM12.pdf (download)], all contributions [http://biomechanics.stanford.edu/Growth (download)] <br>
 +
 
 +
contributions by <br>
 +
davide ambrosi, francisco armero, theo arts, gerard ateshian, seungik baek, martine ben amar, peter bovendeerd, andrew mc culloch, anja geitmann, julius guccione, rafael grytz, jeff holmes, gerhard holzapfel, hanna isaksson, ghassan kassab, roy kerckhoffs, sergio oller, luigi preziosi, tarek zohdi, and many others
 
|}
 
|}
 +
 +
</div>
 +
<div class="spacer">&nbsp;</div>
 +
 +
==active tissue modeling: from cells to muscle==
  
 
<div>
 
<div>
[[Image:tower05.jpg|210px|left]]
+
[[Image:ijmce.jpg|150px|left]]
{| class="projecttable"
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{|
! the most stable one
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|-
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|
 
|
this one's really great! super engineered and 2.4 spaghetti lengths high and yet extremely light! definitely one of our favorite architectural designs! congratulations to this super cool tensegrity structure! buckminster fuller would love it!
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special issue on active tissue modeling:  <br>
 +
from single muscle cells to muscular contraction <br>
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[http://www.begellhouse.com/journals/61fd1b191cf7e96f,42f1beba0b405e70.html international journal for multiscale computational engineering] <br>
 +
volume 10, 2012, preface [http://biomechanics.stanford.edu/paper/IJMCE12pre.pdf (download)] <br>
 +
 
 +
contributions by <br>
 +
mark king, cornelia kober, maike sturmat, robert sader, ciaran simms, melanie van loocke, garry lyons, peter huijing, oscar abilez, ahmed assar, christopher zarins, dominique chapelle, philippe moireau, patrick le tallec, michel sorine
 
|}
 
|}
</div>
 
  
 +
</div>
 
<div class="spacer">&nbsp;</div>
 
<div class="spacer">&nbsp;</div>
  
==active tissue modeling - from single muscle cells to muscular contraction==
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==computer simulations of mechanobiology==
  
minisymposium <br>
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<div>
[http://usnccm-10.eng.ohio-state.edu/completelist.html 10th usnccm] <br>
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[[Image:cmbbe.jpg|150px|left]]
07/16/07-07/19/07, columbus, ohio, usa  <br>
+
{|
markus bol,
+
|
ellen kuhl <br>
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special issue on computer simulations of mechanobiology <br>
 +
[http://www.informaworld.com/smpp/title~content=g902463585~db=all computer methods in biomechanics and biomedical engineering] <br>
 +
volume 11, 2008, preface [http://biomechanics.stanford.edu/paper/PREFC08.pdf (download)] <br>
  
<b>abstract</b>
+
contributions by <br>
all living creatures share a common architectural feature: the cell. this functional unit is the root of all life. muscle cells can be found in smooth muscles which are concerned
+
ralph muller, patrick prendergast, dennis carter, gary beaupre, philippe zysset, markus bol, andreas menzel, larry taber, jay humphrey, anna pandolfi, axel klawonn, jorg schroder, and frank baaijens
with the movements of internal organs as well as in skeletal muscles which contribute to
+
|}
the locomotion of creatures. cells undergo and control a lot of intra- and extracellular
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events with distinct mechanical characteristics to perform various functions. however,
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there are a lot of questions concerning the mechanical characteristics of muscle cells and
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the biological connection between the cells at the micro level and the muscles at the
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macro level. the aim of this mini-symposium is to bridge the gap between cell mechanics and the modelling of locomotor/movement systems as well as contraction processes in general. it is well-known that today’s computational tools are indispensable to augment
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experimental techniques for a deeper under¬standing of soft tissues like skeletal or
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smooth muscles. computational biomechanics may increase success rates of clinical
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interventions and therapeutic effectiveness which is also of great socio-economical
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interest. active biological tissues are characterised by a huge spectrum of very complex properties such as anisotropy, damage, growth and their ability to undergo large deformations. many of these aspects are not captured sufficiently in material models and computational methods. to advance the aforementioned it is necessary to bring together in this minisymposium scientists and bioengineers in the areas of computational mechanics and
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especially experimental techniques and procedures.
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==multiscale modeling of materials==
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</div>
 +
<div class="spacer">&nbsp;</div>
  
minisymposium <br>
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==mechanics in biology: cells and tissue==
[http://www.me.berkeley.edu/compmat/USACM/main.html 9th usnccm] <br>
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07/23/07-07/26/07, san francisco, usa  <br>
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ellen kuhl,
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ekkehard ramm <br>
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<b>abstract</b>  
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<div>
multiscale modeling of materials has advanced to a research topic of growing interested
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[[Image:phtsa.jpg|150px|left]]
in the past decades. This trend is driven by the desire to characterize the material
+
{|
behavior, in particular in the context of material failure, as accurately as possible by
+
|
looking at the characteristic substructure of the material on smaller scales. a typical
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theme issue on  
example are granular media which can be described through phenomenological continuum
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[http://biomechanics.stanford.edu/paper/PHILT09.pdf mechanics in biology: cells and tissue]  <br>
theories on the macroscopic level while discrete particle interaction theories provide
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[http://rsta.royalsocietypublishing.org philosophical transactions of the royal society a] <br>
further insight in their complex failure phenomena on the microscopic level.
+
together with davide bigoni and krishna garikipati <br>
bridging the gap between the different scales is one of the most challenging problems in
+
in press, 2009, editorial [http://biomechanics.stanford.edu/paper/EDITR09.pdf (download)] <br>
multiscale modeling. from a computational point of view, this task can be accomplished in
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two different ways: the individual scales can either be coupled horizontally or
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vertically. In the former approach, which could be thought of as a kind of model
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adaptivity, the material characterization is refined in regions of particular interest,
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e.g. in potential failure zones, while the remaining part of the structure is still
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modeled on the phenomenological level. the vertical coupling approach is maybe more
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common in material modeling. while continuum-based strategies like the finite element
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method can be applied to simulate the material behavior on the macroscopic scale,
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discrete element techniques, particle methods or dislocation dynamics are typically
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applied to characterize the material response on the microscopic scale. the vertical
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coupling thus essentially aims at defining appropriate analytical or numerical
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homogenization techniques to carry discrete microscopic information up to the macroscopic
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phenomenological level.  
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within this mini-symposium, we encourage abstracts related to the following key issues:
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micromechanically motivated constitutive models,
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higher order continuum theories,
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discrete element simulations of different failure phenomena,
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enhanced finite element techniques to simulate overall structural failure,
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multifield aspects of material failure,
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model adaptivity,
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computational homogenization techniques, and
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experimental validation and parameter identification.  
+
  
==computational methods in biological growth and remodeling==
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contributions by <br>
 +
alain goriely,  martine ben amar, jay humphrey, andreas menzel, ray ogden, gerhard a. holzapfel, larry taber, antonio di carlo, hans g. othmer, steven cowin, jeffrey ruberti, vikram deshpande
 +
|}
  
minisymposium <br>
 
[http://www.me.berkeley.edu/compmat/USACM/main.html 9th usnccm] <br>
 
07/23/07-07/26/07, san francisco, usa  <br>
 
ellen kuhl,
 
krishna garikipati <br>
 
  
<b>abstract</b> this symposium will focus on theoretical and computational methods for mass and volumetric change (growth) and microstructural changes (remodeling) in biomechanical problems. over the past two decades, a number of theoretical approaches have been laid down to explain functional adaptation of biological tissues. Included among them are the classical theory of adaptive elasticity, open system thermodynamics, reaction diffusion in porous media, mixture theories and different theories of microstructural evolution. within this minisymposium, we would like to turn the focus somewhat to the challenges related to the computational realization of these theories, while still recognizing the need for continued theoretical development. with these aims in mind, we invite abstracts addressing (but not necessarily restricted to) the following topics of relevance to biological growth and remodeling: further development of growth and remodeling theories, algorithms for multifield phenomena of mechanics, transport and reaction, appropriate formulation and time discretization of biological rate equations, computational treatment of scale interaction in space and time, the role of computational homogenization techniques, and relaxation methods in microstructural evolution.
 
  
 +
<div class="publicationheader">conferences & travel</div>
  
==conferences & travel==
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12/10/17-12/14/17 [https://www.elsevier.com/events/conferences/international-conference-on-mechanics-of-biomaterials-and-tissues 7th intl conference on mechanics of biomaterials and tissues], big island, hawaii <br>
 +
09/04/17-09/06/17 [https://www.uni-goettingen.de/en/558862.html physics meets medicine], gottingen, germany <br>
 +
08/29/17-08/31/17 [http://www.conferencemanager.dk/mcacm/ multiscale computational analysis of complex materials], copenhagen, danmark <br>
 +
07/17/17-07/20/17 [http://14.usnccm.org/ usnccm14], montreal, canada <br>
 +
06/12/17-06/16/17 [http://www.cism.it/courses/ cism course on soft tissue growth and remodeling], udine, italy <br>
 +
05/08/17-05/11/17 [https://www.interpore.org/76-event-booking/9th-international-conference-on-porous-media-annual-meeting/326-keynote-speakers15 interpore], rotterdam, holland <br>
 +
03/19/17-03/22/17 [http://emi2017-ic.com.br/ emi international], rio de janeiro, brazil <br>
 +
11/06/16-11/06/16 [http://www.tcsnycmarathon.org/ nyc 26.2], new york <br>
 +
09/19/16-09/20/16 [http://www.ce.gatech.edu/academics/groups/structural semm seminar], georgia tech, atlanta <br>
 +
09/11/16-09/11/16 [http://www.ironman.com/triathlon/events/americas/ironman-70.3/santa-cruz.aspx#/axzz4F3eRjqX8 im 70.3], santa cruz, california <br>
 +
08/17/16-08/19/16 [http://www.pdn.cam.ac.uk/other-pages/nms/neuronal-mechanics-seminar/wilhelm-and-else-heraeus-seminar-on-neuronal-mechanics neuronal mechanics], bad honnef, germany <br>
 +
07/24/16-07/29/16 [http://wccm2016.org/main/ wccm XII], seoul, korea <br>
 +
06/28/16-07/08/16 [http://www.ltm.uni-erlangen.de/img/flyer_Einladung_180416.pdf introduction to neuromechanics], erlangen, germany <br>
 +
11/01/15-11/07/15 [https://www.mfo.de/occasion/1545b/www_view miniworkshop on morphogenesis and pattern selection], oberwolfach, germany <br>
 +
07/26/15-07/30/15 [http://13.usnccm.org/ 13th usnccm] san diego, california <br>
 +
07/06/15-07/10/15 [http://www.esmc2015.org/ 9th european solid mechanics conference], madrid, spain <br>
 +
11/03/14-11/07/14 [http://mbi.osu.edu/event/?id=817 axonal transport and neuronal mechanics], ohio <br>
 +
10/13/14-10/15/14 [https://www.tue.nl/en/university/departments/biomedical-engineering/research/research-groups/soft-tissue-biomechanics-and-engineering/cmbbe-2014/home/ computer methods in biomech & biomed engineering], amsterdam, netherlands <br>
 +
07/20/14-07/25/14 [http://www.wccm-eccm-ecfd2014.org/frontal/default.asp 11th world congress on computational mechanics], barcelona, spain <br>
 +
06/04/14-06/06/14 [http://www.lmt.ens-cachan.fr/version-francaise/manifestations-/instabilities-across-the-scales-ias-2014-216968.kjsp instabilities across the scales], cachan, france <br>
 +
04/21/14-04/25/14 [http://www.midwestmechanics.org/speakers.php?order=year%20DESC midwest mechanics seminar II], purdue, illinois, iit, iowa state, minnesota<br>
 +
03/23/14-03/25/14 [http://aimbe.org/events/2014-annual-event/ engineering and the future of health care], washington, dc <br>
 +
03/10/14-03/14/14 [http://jahrestagung.gamm-ev.de/ gamm 2014], erlangen, germany <br>
 +
02/13/14-02/14/14 [http://mmvmb2.usacm.org/ multiscale methods and validation in medicine and biology], berkeley, california <br>
 +
01/27/14-01/31/14 [http://www.midwestmechanics.org/speakers.php?order=year%20DESC midwest mechanics seminar I], mich, mich state, notre dame, n-western, wisconsin <br>
 +
01/13/14-01/14/14 [http://www.maths.ox.ac.uk/groups/occam/events/brain-mechanics-0 second oxford brain mechanics workshop], oxford, uk <br>
 +
10/16/13-10/17/13 [http://www.3ds.com/events/simulia-regional-user-meetings/west-regional-user-meeting/agenda/ simulia user meeting], santa clara, california <br>
 +
09/25/13-09/28/13 [http://bmes.org/annualmeeting bmes annual meeting], seattle, washington <br>
 +
09/03/13-09/05/13 [http://ccubedconference.com/ current challenges in computing], napa, california <br>
 +
07/22/13-07/25/13 [http://12.usnccm.org/ 12th usnccm], raleigh, north carolina, usa <br>
 +
05/22/13-05/24/13 [http://www.euromech545.de/ euromech frontiers in finite deformation electromechanics], dortmund, germany <br>
 +
05/21/13-05/24/13 [http://www.3ds.com/company/events/scc-2013/overview/ simulia community conference], vienna, austria <br>
 +
04/03/13-04/07/13 [http://cmbbe13.sci.utah.edu/ computer methods in biomech & biomed engineering], salt lake city, utah <br>
 +
12/09/12-12/11/12 [http://www.computationalsurgery.org/ 4th annual int conf in computational surgery], boston, ma <br>
 +
09/03/12-09/07/12 [http://www.biomech.tugraz.at/summerschool-2012/ modeling and simulation in soft tissue biomechanics], graz, austria <br>
 +
07/09/12-07/13/12 [http://www.esmc2012.tugraz.at/ european solid mechanics conference], graz, austria <br>
 +
07/02/12-07/05/12 [http://math.uni-graz.at/mobis/meetings.html efficient solvers in biomedical application], graz, austria <br>
 +
06/20/12-06/23/12 [http://www.asmeconferences.org/SBC2012/ asme summer bioengineering conference], fajardo, puerto rico <br>
 +
03/26/12-03/30/12 [http://www.gamm2012.tu-darmstadt.de gamm 2012], darmstadt, germany <br>
 +
02/13/12-02/14/12 [http://mmvmb.usacm.org/ multiscale methods and validation in medicine and biology], san francisco, california <br>
 +
08/29/11-09/02/11 [http://iutam.stanford.edu iutam symposium on computer models in biomechanics], stanford, california <br>
 +
07/25/11-07/29/11 [http://www.usnccm.org/ 11th usnccm],
 +
minneapolis, minnesota <br>
 +
06/22/11-06/25/11 [http://www.asmeconferences.org/SBC2011/PublicationSchedule.cfm asme summer bioengineering conference],
 +
farmington, pennsylvania <br>
 +
04/18/11-04/21/11 [http://www.gamm2011.tugraz.at/ gamm 2011],
 +
graz, austria <br>
 +
10/06/10-10/09/10 [http://www.bmes.org/aws/BMES/pt/sp/meetings_annual bmes 2010],
 +
austin, texas <br>
 +
09/26/10-10/01/10 [http://www.birs.ca/birspages.php?task=displayevent&event_id=10w5056 birm mathematical foundation of mechanical biology],
 +
banff, canada <br>
 +
07/19/10-07/23/10 [http://www.wccm2010.com/SydneyAustralia.htm wccm/apcom2010],
 +
sydney, australia <br>
 +
06/27/10-07/02/10 [http://www.conferencetoolbox.org/USNCTAM2010/ 16th usnctam],
 +
state college, pennsylvania <br>
 +
06/23/10-06/25/10 [http://www.stanford.edu/~borja/iwg modern trends in geomechanics II],
 +
stanford, california <br>
 +
03/22/10-03/26/10 [http://www.gamm2010.uni-karlsruhe.de/ gamm 2010],
 +
karlsruhe, germany <br>
 +
01/27/10-01/28/10 [http://iamcs.tamu.edu/event_details.php?id=26 modeling biological materials],
 +
college station, texas <br>
 +
10/06/09-10/13/09 [http://www.ltm.uni-erlangen.de/ erlangen], germany <br>
 
09/02/09-09/04/09 [http://congress.cimne.upc.es/complas09/frontal/ complas x],
 
09/02/09-09/04/09 [http://congress.cimne.upc.es/complas09/frontal/ complas x],
 
barcelona, spain <br>
 
barcelona, spain <br>
07/23/09-07/28/09 [http://math.arizona.edu/~goriely/leshouches/register.html physics and mechanics of biological systems], ecole de physique les houches, france <br>
 
 
07/16/09-07/19/09 [http://usnccm-10.eng.ohio-state.edu/ 10th usnccm],
 
07/16/09-07/19/09 [http://usnccm-10.eng.ohio-state.edu/ 10th usnccm],
 
columbus, ohio <br>
 
columbus, ohio <br>
Line 242: Line 236:
 
06/25/08-06/29/08 [http://divisions.asme.org/bed/events/summer08.html asme summer bioengineering conference],
 
06/25/08-06/29/08 [http://divisions.asme.org/bed/events/summer08.html asme summer bioengineering conference],
 
marco island, florida <br>
 
marco island, florida <br>
06/18/08-06/21/08 [http://me.engin.umich.edu/IUTAM_symp/ iutam symposium on cellular, molecular & tissue mechanics],  
+
06/18/08-06/21/08 [http://me.engin.umich.edu/IUTAM_symp/ iutam symposium biomechanics],  
 
woods hole, massachusetts <br>
 
woods hole, massachusetts <br>
 
03/02/08-03/05/08 [http://www.ors.org/web/meetings/54thAnnualMeeting/AnnualMeeting.asp orthopaedic research society],  
 
03/02/08-03/05/08 [http://www.ors.org/web/meetings/54thAnnualMeeting/AnnualMeeting.asp orthopaedic research society],  
Line 256: Line 250:
 
06/20/07-06/24/07 [http://divisions.asme.org/bed/events/summer07.html asme summer bioengineering conference],
 
06/20/07-06/24/07 [http://divisions.asme.org/bed/events/summer07.html asme summer bioengineering conference],
 
keystone, colorado <br>
 
keystone, colorado <br>
...
+
 
 +
 
 +
<div class="publicationheader">outreach</div>
 +
 
 +
==brain bee @stanford==
 +
 
 +
how does our brain get its folds? stanford brain bee - qualifying round of the international
 +
brain bee, a neuroscience competition for high school students, stanford university,
 +
01/10/2015
 +
 
 +
[[Image:brainbee.jpg|735px]]
 +
 
 +
==spaghetti towers @stanford==
 +
 
 +
some impressions of stanford's class of 2020 during stanford's society of women engineers' exploring new worlds spaghetti tower building contest,
 +
more pics [[spaghetti towers 01]], [[spaghetti towers 02]] <br>
 +
 
 +
<html>
 +
    <center>
 +
    <table>
 +
        <tr>
 +
        <td><img src="spaghettis00/s1.jpg">
 +
        <td><img src="spaghettis00/s2.jpg">
 +
        <td><img src="spaghettis00/s3.jpg">
 +
        <td><img src="spaghettis00/s4.jpg">
 +
        </tr>
 +
        </tr>
 +
    </table>
 +
    </center>
 +
</html>

Latest revision as of 22:51, 17 September 2020

webinars

Contents

[edit] eml webinar

extreme mechanics letters webinar

EMLkuhl.jpg

books

[edit] multiscale modeling in biomechanics and mechanobiology

Book.jpg

multiscale modeling in biomechanics and mechanobiology
springer, london, 2015
preface, table of contents

contributions by
saroj nayak, suvranu de, reinhold lipowsky, wonmuk hwang, chris jacobs, tarek zohdi, arturas ziemys, james weiss, jay humphrey, michael sacks, raul valencia

 

[edit] computer models in biomechanics from nano to macro

Iutam.jpg

computer models in biomechanics: from nano to macro
springer, dortrecht heidelberg new york london, 2012
preface, table of contents

contributions by
patrick onck, peter pinsky, bob mc meeking, gerhard holzapfel, markus böl, jonas stalhand, marko vendelin, oliver rohrle, jay humphrey, nele famaey, david vorp, paul watton, serdar goktepe, alfio quarteroni, alberto figueroa, ajit yoganathan, gerard ateshian, jeff weis, stephen cowin, wolfgang ehlers, tim ricken, krishna garikipati, yiannis ventikos, jacques huyghe, larry taber, ellen arruda, edoardo mazza, ralph muller, wolfgang wall

 
special issues

[edit] biological systems

Cmame.jpg

special issue on biological systems
computer methods in applied mechanics and engineering
volume 314, 2017, editorial dedicated to bill klug (download)

contributions by
paul barone, elisa budyn, adrian buganza tepole, suvranu de, dan ennis, jean-frederic gerbeau, hector gomez, alain goriely, tim healey, tom hughes, gianluca iaccarino, antoine jerusalem, bill klug, alison marsden, arif masud, david nordsletten, assad oberai, michael ortiz, peter pinsky, alfio quarteroni, michael sacks, wolfgang wall, tom yankeelov, tarek zohdi, and many others

[edit] heart valve replacement or repair

Abme.jpg

special issue on engineering the ideal heart valve replacement or repair
annals of biomedical engineering
volume XXX, 2017, editorial (download)

contributions by
jonathan talbot butcher, lakshmi dasi, robert gorman, joseph gorman III, jane grande-allen, zhaoming he, frederic heim, arash kheradvar, stephen little, muralidhar padala, jean ruel, robert tranquillo, michael sacks, wei sun, ajit yoganathan, and many others

[edit] growing matter

Jmbbm.jpg

special issue on growing matter
journal of the mechanical behavior of biomedical materials
volume 29, 2014, editorial (download), all contributions (download)

contributions by
gerard ateshian, frank baaijens, phil bayly, markus böl, caroline bouten, xi-qiao feng, alberto figueroa, rafael grytz, jay humphrey, andreas menzel, kristin myers, cees oomens, djenane pamplona, larry taber, jonathan vande geest, and many others

[edit] biomechanics of growth and remodeling

Mrcom.jpg

special issue on advances on the biomechanics of growth and remodeling
mechanics research communications
volume 42, 2012, introduction (download), all contributions (download)

contributions by
davide ambrosi, francisco armero, theo arts, gerard ateshian, seungik baek, martine ben amar, peter bovendeerd, andrew mc culloch, anja geitmann, julius guccione, rafael grytz, jeff holmes, gerhard holzapfel, hanna isaksson, ghassan kassab, roy kerckhoffs, sergio oller, luigi preziosi, tarek zohdi, and many others

 

[edit] active tissue modeling: from cells to muscle

Ijmce.jpg

special issue on active tissue modeling:
from single muscle cells to muscular contraction
international journal for multiscale computational engineering
volume 10, 2012, preface (download)

contributions by
mark king, cornelia kober, maike sturmat, robert sader, ciaran simms, melanie van loocke, garry lyons, peter huijing, oscar abilez, ahmed assar, christopher zarins, dominique chapelle, philippe moireau, patrick le tallec, michel sorine

 

[edit] computer simulations of mechanobiology

Cmbbe.jpg

special issue on computer simulations of mechanobiology
computer methods in biomechanics and biomedical engineering
volume 11, 2008, preface (download)

contributions by
ralph muller, patrick prendergast, dennis carter, gary beaupre, philippe zysset, markus bol, andreas menzel, larry taber, jay humphrey, anna pandolfi, axel klawonn, jorg schroder, and frank baaijens

 

[edit] mechanics in biology: cells and tissue

Phtsa.jpg

theme issue on mechanics in biology: cells and tissue
philosophical transactions of the royal society a
together with davide bigoni and krishna garikipati
in press, 2009, editorial (download)

contributions by
alain goriely, martine ben amar, jay humphrey, andreas menzel, ray ogden, gerhard a. holzapfel, larry taber, antonio di carlo, hans g. othmer, steven cowin, jeffrey ruberti, vikram deshpande


conferences & travel

12/10/17-12/14/17 7th intl conference on mechanics of biomaterials and tissues, big island, hawaii
09/04/17-09/06/17 physics meets medicine, gottingen, germany
08/29/17-08/31/17 multiscale computational analysis of complex materials, copenhagen, danmark
07/17/17-07/20/17 usnccm14, montreal, canada
06/12/17-06/16/17 cism course on soft tissue growth and remodeling, udine, italy
05/08/17-05/11/17 interpore, rotterdam, holland
03/19/17-03/22/17 emi international, rio de janeiro, brazil
11/06/16-11/06/16 nyc 26.2, new york
09/19/16-09/20/16 semm seminar, georgia tech, atlanta
09/11/16-09/11/16 im 70.3, santa cruz, california
08/17/16-08/19/16 neuronal mechanics, bad honnef, germany
07/24/16-07/29/16 wccm XII, seoul, korea
06/28/16-07/08/16 introduction to neuromechanics, erlangen, germany
11/01/15-11/07/15 miniworkshop on morphogenesis and pattern selection, oberwolfach, germany
07/26/15-07/30/15 13th usnccm san diego, california
07/06/15-07/10/15 9th european solid mechanics conference, madrid, spain
11/03/14-11/07/14 axonal transport and neuronal mechanics, ohio
10/13/14-10/15/14 computer methods in biomech & biomed engineering, amsterdam, netherlands
07/20/14-07/25/14 11th world congress on computational mechanics, barcelona, spain
06/04/14-06/06/14 instabilities across the scales, cachan, france
04/21/14-04/25/14 midwest mechanics seminar II, purdue, illinois, iit, iowa state, minnesota
03/23/14-03/25/14 engineering and the future of health care, washington, dc
03/10/14-03/14/14 gamm 2014, erlangen, germany
02/13/14-02/14/14 multiscale methods and validation in medicine and biology, berkeley, california
01/27/14-01/31/14 midwest mechanics seminar I, mich, mich state, notre dame, n-western, wisconsin
01/13/14-01/14/14 second oxford brain mechanics workshop, oxford, uk
10/16/13-10/17/13 simulia user meeting, santa clara, california
09/25/13-09/28/13 bmes annual meeting, seattle, washington
09/03/13-09/05/13 current challenges in computing, napa, california
07/22/13-07/25/13 12th usnccm, raleigh, north carolina, usa
05/22/13-05/24/13 euromech frontiers in finite deformation electromechanics, dortmund, germany
05/21/13-05/24/13 simulia community conference, vienna, austria
04/03/13-04/07/13 computer methods in biomech & biomed engineering, salt lake city, utah
12/09/12-12/11/12 4th annual int conf in computational surgery, boston, ma
09/03/12-09/07/12 modeling and simulation in soft tissue biomechanics, graz, austria
07/09/12-07/13/12 european solid mechanics conference, graz, austria
07/02/12-07/05/12 efficient solvers in biomedical application, graz, austria
06/20/12-06/23/12 asme summer bioengineering conference, fajardo, puerto rico
03/26/12-03/30/12 gamm 2012, darmstadt, germany
02/13/12-02/14/12 multiscale methods and validation in medicine and biology, san francisco, california
08/29/11-09/02/11 iutam symposium on computer models in biomechanics, stanford, california
07/25/11-07/29/11 11th usnccm, minneapolis, minnesota
06/22/11-06/25/11 asme summer bioengineering conference, farmington, pennsylvania
04/18/11-04/21/11 gamm 2011, graz, austria
10/06/10-10/09/10 bmes 2010, austin, texas
09/26/10-10/01/10 birm mathematical foundation of mechanical biology, banff, canada
07/19/10-07/23/10 wccm/apcom2010, sydney, australia
06/27/10-07/02/10 16th usnctam, state college, pennsylvania
06/23/10-06/25/10 modern trends in geomechanics II, stanford, california
03/22/10-03/26/10 gamm 2010, karlsruhe, germany
01/27/10-01/28/10 modeling biological materials, college station, texas
10/06/09-10/13/09 erlangen, germany
09/02/09-09/04/09 complas x, barcelona, spain
07/16/09-07/19/09 10th usnccm, columbus, ohio
06/17/09-06/21/09 asme summer bioengineering conference, lake tahoe, california
08/31/08-09/06/08 mathematics of growth & remodeling, miniworkshop, oberwolfach, germany
08/24/08-08/30/08 ictam 2008, adelaide, australia
06/25/08-06/29/08 asme summer bioengineering conference, marco island, florida
06/18/08-06/21/08 iutam symposium biomechanics, woods hole, massachusetts
03/02/08-03/05/08 orthopaedic research society, 54th annual meeting, san francisco, california
09/20/07-09/21/07 growth in the desert, workshop, tucson, arizona
07/23/07-07/26/07 9th usnccm, san francisco, california
07/16/07-07/20/07 iciam 07, zurich, switzerland
07/02/07-07/05/07 instabilities across the scales, delft, the netherlands
06/20/07-06/24/07 asme summer bioengineering conference, keystone, colorado


outreach

[edit] brain bee @stanford

how does our brain get its folds? stanford brain bee - qualifying round of the international brain bee, a neuroscience competition for high school students, stanford university, 01/10/2015

Brainbee.jpg

[edit] spaghetti towers @stanford

some impressions of stanford's class of 2020 during stanford's society of women engineers' exploring new worlds spaghetti tower building contest, more pics spaghetti towers 01, spaghetti towers 02

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