Mesenchymal stem cells—adult stem cells that are constantly renewing our bone, cartilage, and muscle—can be stimulated by a gentle massage to release calcium. Bioengineers at UC San Diego published their findings in the February issue of eLife and their work has been recently featured online in BioTechniques.
Understanding how mesenchymal stem cells respond to physical forces in the body, such as blood flow or exercise, is important for a variety of diseases ranging from diabetes to spinal cord injury. Research led by Yingxiao (Peter) Wang, associate professor of bioengineering, shows exactly how pushing and pulling the outsides of these cells can signal changes inside them. For example, a gentle tug on the outer membrane of these cells opens up channels to release calcium ions stored within the cells.
Read the recent story, which also mentions Wang's upcoming summer workshop on single cell imaging for graduate students and postdocs, in BioTechniques here. More information on this work is also available in the Jacobs School press release from February and in the full paper published in eLife: “Distinct mechanisms regulating mechanical force-induced Ca2+ signals at the plasma membrane and the endoplasmic reticulum in human mesenchymal stem cells.”
A blog managed by the communications team at the UC San Diego Jacobs School of Engineering. Are you a member of the Jacobs School community? Have ideas for a blog post? Let us know! Email dbkane AT ucsd DOT edu or let us know via our Facebook page: http://www.facebook.com/UCSDJacobs
Tuesday, May 26, 2015
Thursday, May 21, 2015
Student Teams Win Over $45K in Recent Competitions
This last month, students and teams from the Entrepreneurism and Leadership Programs competed in several citywide, statewide and nationwide business competitions, and collectively, two student teams and two graduate students took home over $45000 in cash prizes. UC San Diego student teams ByStanders to Upstanders and Open Viral Load (previously named VivaScope) each won $10,000 of award funding for their projects from the San Diego Social Innovation Challenge. Graduate student Alex Phan won $2,500 for placing in first at the UC San Diego Grad Slam and $1,000 for placing in third at the first UC-wide Grad Slam competition. And, graduate student Aliaksandr Zaretski took home $25,000 cash and $20,000 in equity for receiving first place at Chapman University’s California Dreamin’ nationwide entrepreneurial contest.
The San Diego Social Innovation Challenge is an annual competition hosted by the University of San Diego and their Center for Peace and Commerce. The competition aims to promote, guide and support student-driven ideas to launch or contribute to social enterprises, and has several rounds of idea labs and perfecting project pitches and business models. The Social Innovation Challenge had over 100 project submissions from San Diego university students and three rounds of challenges and project eliminations. For the final award ceremony, the remaining eight USD teams and eight San Diego-wide teams gave 90-second pitches in front of a live panel of judges. Of those eight San Diego-wide teams, four teams came from UC San Diego.
After making the final pitch competition, Global TIES team Open Viral Load partnered with Engineering World Health, another UCSD finalist team of the Social Innovation Challenge, deciding that it would be beneficial to move forward in the competition together. The teams presented one pitch on their collaborative social venture and received $10,000 to fund their projects that focus on expanding the access of HIV testing. mystartupXX team Bystanders to Upstanders (B2U) also took home $10,000 for their application to encourage and gamify volunteer work.
Alex Phan, MAE Ph.D. Candidate Photo by Erik Jepsen/UC San Diego Publications Read UC San Diego News Center Release here |
Graduate student Alex Phan took first place at the UC San Diego-wide Grad SLAM 2015 and third place UC-wide Grad Slam competition. Both competitions challenge graduate students to present a “TED-like talk” that can explain their graduate research to a general audience and award cash prizes. As the first prize winner at the UC San Diego Grad SLAM 2015 competition held last month on April 14, Phan was chosen to represent UC San Diego at the UC-wide competition in Oakland. Phan went against 9 other graduate students from the other UC schools and took home third place for his presentation on how an intraocular pressure sensor can better detect and understand glaucoma, an eye disease that affects over 60 million people worldwide.
After completing his undergraduate degree in Bioengineering at UC San Diego, Phan is now currently pursuing his Ph.D in Mechanical and Aerospace Engineering. Phan has also completed the von Liebig Entrepreneurism Center’s NSF I-Corps Program in October 2014, where he was able to combine his background in engineering with his interests in entrepreneurship. Earlier this year, Phan took home first prize at Entrepreneur Challenge’s Elevator Pitch Competition.
Nanoengineering graduate student Aliaksandr (Alex) Zaretski represented UC San Diego at the 2015 California Dreamin’ Entrepreneurship Conference and Competition and took home $25,000 in cash, $20,000 in equity and first prize in the overall competition. The annual competition, hosted by Chapman University, draws students from the best business and entrepreneurship programs from the United States and the United Kingdom.
In 2013, Zaretski took home first prizes at the Entrepreneur Challenge at UCSD’s Elevator Pitch Competition and their $100K Business Competition with his company, GrollTex. GrollTex has an innovative technology for the synthesis of large-area graphene and has been an impressive startup success. Zarestski was awarded the von Liebig Entrepreneurism Center’s Department of Energy Fellowship and the National Science Foundation’s Graduate Research Fellowship last spring, and GrollTex recently accepted investment from the Triton Technology Fund and is in talks for a large-scale investment from another venture capital firm.
Our students show us time and again that passion and hard work don’t go unnoticed. Congratulations again to these students for their continued achievements!
Tuesday, May 12, 2015
Bitcoin experts and CSE alumna wins Chancellor's Dissertation Medal
Sarah Meiklejohn, an alumna who earned a Ph.D. in the Department of Computer Science and Engineering at the Jacobs School, has won the 2015 Chancellor's Dissertation Medal. She is now an assistant professor at University College, London.
Here is what Mihir Bellare, a professor in the department and her dissertation co-advisory had to say when outlining Meiklejohn's merits:
More media coverage of her work:
Forbes
The Economist
Wired
MIT Technology Review
KPBS
Here is what Mihir Bellare, a professor in the department and her dissertation co-advisory had to say when outlining Meiklejohn's merits:
1. Impact: The results in Sarah’s thesis have shaped government policy. The methods in the thesis have been used to track cyber-criminals. The thesis has received significant media attention (NY Times, Washington Post, radio, TV, ...).Read our story about Meiklejohn's work here.
2. Intellectual and technical depth: The thesis introduces an innovative new experimental technique to track Bitcoins that was used not only to obtain the thesis results but is now used as a key forensic tool by law enforcement.
3. Independence: Unlike many theses, which write up group projects, this one was entirely Sarah’s work. She alone conceived the idea and methods and pushed it through from algorithms to reality.
In my 20 years of experience at UCSD, I would say that a thesis with one of the above elements is rare. To have all three in the same thesis is unique and extra-ordinary.
More media coverage of her work:
Forbes
The Economist
Wired
MIT Technology Review
KPBS
Coding with Colorful Cards: Kids Learn Arduino-based Code with Tinker the Robot
Tinker the Robot |
Meet Tinker the Robot. UC San Diego mechanical engineering alumnus
Kay Yang created him to teach and inspire young children to play with robots.
Tinker the Robot is designed to appeal to both girls and
boys – complete with an LED heart and motorized tracks – and to break down the
process of coding and hardware.
“Each accessory is either an LED light or a sensor,” said
Yang. “Using color-coded cards, kids can direct Tinker’s actions. The cards
tell Tinker to turn an accessory light on or off and how to react to feedback
from his sensors.”
The majority of programming is logic, says Yang, and once
you work out the logic, it’s easy to insert the programming language.
Here are three more things you should know about Tinker:
- Because Tinker uses Arduino-based code, kids who graduate from using the cards can plug him into the computer and reprogram him using C Programming.
- Tinker can also be an art project. Kids can draw on most of his hardware, giving them the opportunity to use their imaginations to make Tinker their own.
- He also comes with a downloadable lab notebook, designed to expose a child to scientific note-taking early on.
As a little girl, Kay loved taking things apart and learning
how they worked – except electronics. She couldn’t understand how an electronic
circuit could bring an object to life.
It wasn’t until she came to UC San Diego and enrolled in mechanical
and aerospace engineering professor Nate Delson’s Introduction to Engineering
Graphics and Design (MAE3) course – where students design and produce robots
from scratch for a competition – that she began to understand how electronics
and code work together.
“It was the first time got to play with robots, code and CAD
software,” said Yang. “I learned that mechanical engineering was a great fit
for me, but I felt that I was at a disadvantage because I hadn’t been
introduced to these concepts at an earlier age.”
As Director of UC San Diego’s Mechanical Engineering Design
Center, Nate Delson believes in project-based learning. To that end, MAE3 has recently
incorporated 3D printing into its curriculum.
“3D printing has been used by engineers for over a decade to
produce prototypes before manufacturing the real thing, whatever that may be,”
said Delson. “Now the printers are becoming a household item –in fact, many
cost just under $600.”
Yang says she felt empowered to create something that would
expose young children to electronics – that’s where Tinker comes in.
“Now is such a great time for makers,” said Yang. “I was
able to purchase a 3D printer and I’ve been producing all of my prototypes with
it,” said Yang.
Yang hopes to be able to begin mass production as soon as
possible – but to do that, she needs your help. You can back this project by
visiting Yang’s Kickstarter page here.
“We want to get this off the ground as soon as possible – our
children are our future engineers, and I really believe Tinker can inspire them
to be innovators,” said Yang.
Tinker the Robot will be available exclusively on
Kickstarter from May 4-June 4, 2015, with the first shipment to customers in
late 2015/early 2016.
Monday, May 11, 2015
ECE professor receives California grant for new project on brain research
Drew Hall, assistant professor of electrical and computer engineering at the Jacobs School. |
Drew Hall, assistant professor of electrical and computer
engineering, has been awarded a $120,000 seed grant from Cal-BRAIN, a
California initiative aimed at revolutionizing our understanding of the brain.
Hall’s project will explore using magnetic nanoscale sensors,
similar to those used in hard disk drives, to detect brain signals. These
magnetic nanosensors provide an alternative to conventional brain monitoring
methods, whose lifetimes are limited because of scar tissue formation.
Applications of this work will increase the lifetimes of neural
implants, which will ultimately lead to more effective, low-cost treatments for
brain disorders. “There is a strong need for treatment methods of neurological
diseases,” said Hall. The World Health Organization estimates that more than 50
million people worldwide suffer from epilepsy, and dementia continues to grow
at the rate of 7.7 million new cases per year.
Currently, most brain monitoring methods measure the
ionic current in the brain by making direct electrical contact with neurons
(brain cells). This contact causes scar tissue to form around the electrodes, muffling
the neural signals over time. Hall proposes measuring the magnetic field around
the neurons instead. As a result, the magnetic nanosensors avoid direct physical
contact with the neurons and are less sensitive to scar tissue formation.
“I’m excited about the team that we have put together to
tackle this high-risk, high-reward research,” said Hall. The team is also led
by Eric Fullerton, nanoengineering and electrical and computer engineering
professor and director of the Center for Magnetic Recording Research, and
Vikash Gilja, assistant professor of electrical and computer engineering.
Cal-BRAIN (the California Blueprint for Research to
Advance Innovations in Neuroscience) is a statewide project jointly led by UC
San Diego and the Lawrence Berkeley National Laboratory that was signed into
law in June 2014. It is the California complement to the federal BRAIN
Initiative announced by President Barack Obama in 2013. The 16
projects that were selected by Cal-BRAIN focus on developing new technologies
to advance our ability to monitor and analyze brain activity. More information can be found at http://cal-brain.org/ and on the UCSD News story here.
Hall also received an NSF Engineering CAREER Award in March. See story here.
Hall also received an NSF Engineering CAREER Award in March. See story here.
Friday, May 8, 2015
Thursday, May 7, 2015
Gordon Center Think Tank: The Future of Digital Health
Every year, the Gordon Engineering Leadership Center packs a room full of innovators to brainstorm the implications and uses of an emerging aspect of engineering. In the past, the Think Tank has drawn academics, innovators, and professionals from all industries to gather and collectively brainstorm on topics such as cyber security, cloud computing, automotive and avionic systems engineering, and the energy crisis. For their sixth annual Think Tank, the Gordon Center presents “The Future of Digital Health” and invites you to learn about how the use of technology can revolutionize healthcare on May 15 and 16.
The event welcomes those who want to participate in an engaging space and explore both the opportunities and the challenges of integrating technology with health care. Some confirmed speakers include Director of Qualcomm Tricorder XPRIZE Erik Viirre, President/CEO of Cambridge Life Science Strategies Cleland Landolt, Director of Nursing Innovation - Kaiser Permanente Dan Weberg, Senior Manager of Global Technologies and UCSD Alum Wilson To, CEO/Founder of Linked Objects Gioia Messinger, and our very own Bioengineering Associate Professor Todd Coleman.
Gordon Engineering Leadership Center Executive Director Dr. Ebonee Williams pictured right and Program Coordinator Kara Fukumoto Bayani pictured left. |
“I am beyond thrilled to see the level of innovation, dedication, and creativity of this year’s speakers,” said Gordon Center Executive Director Dr. Ebonee Williams. “and expect innovative solutions from the talented participants.”
Neil Gandhi, Gordon Fellow and Bioengineering Class of 2014 graduate, coordinated this year’s Think Tank on digital health with guidance from Dr. Williams and Gordon Center Program Coordinator Kara Fukumoto Bayani.
Gandhi explained that from improving data analysis to diagnosis, technology will have a sure impact on healthcare. He explained that digital health is about applying what we know how to do with mobile devices, connectivity and big data analytics to improve access to our health care system.
“This Think Tank will be looking at how digital health is a game changer, looking at how it relates bringing healthcare to all communities globally,” said Gandhi. “New wireless devices paired with smart computing is enabling better patient care, but there are still challenges in integrating technology into the clinic and changing the way we already do things.”
A group of participants from 2013's Think Tank on Cyber Security |
And the Think Tank will challenge participants to think of those solutions to translate new technologies into hospitals and medical practice. Participants will be able to share ideas through collaborative activities during the one and a half day event.
“The Think Tank has always been an engaging space for all. It’s an excellent opportunity for people to network, but also get inspired by an interdisciplinary topic with exponential growth potential,” Dr. Williams said.
Wednesday, May 6, 2015
How to Use Social Media to Communicate Research – And Why You Should
For those of you that are scientists – you want results,
right? Cold, hard facts. According to Tiffany Fox, Public Information
Representative at the Qualcomm Institute at the UC San Diego Division of the
California Institute for Telecommunication and Information Technology (Calit2),
the field of social media is just too new to yield results that demonstrate its
value for scientists.
However, there is evidence that the number of tweets a
journal article gets can predict the number of citations it will have – that’s
according to the Journal of Medical
Internet Research.
In a recent seminar designed to instruct Electrical and Computer
Engineering students in the art of using social media to communicate research,
Fox spent time explaining why it is increasingly expected that scientists and
engineers have a social media presence.
“When we say social media, what are we talking about?” asked
Fox. “Facebook, Twitter, Google +, LinkedIn, Pinterest/Instragram/Snapchat, blogs,
Storify, and the like. These platforms have the potential to transmit
information to a large audience quickly.”
The term ‘quickly’ might be an understatement – this comic by
Randall Munroe explains how it is that tweets travel faster than an earthquake.
As useful as it is, social media typically gets a bad rap.
Fox put up this graphic to illustrate:
With so much irrelevant information on the web, the question
remains: Which social channels should I be on? It’s a matter of knowing your
audience, says Fox.
A recent poll found that 65 percent of people under the age
of 30 are getting their news from the Internet. In addition, a study found that
the potential for an audience at a scientific conference is 10-fold less than for
social media.
If we know that this is where our audience is, why don’t we
use it?
But I don’t wanna, you
say. For all of your excuses, Fox has a response:
- Aren’t journals and conferences enough? How many times have you seen a copy of Nano Letters on someone’s coffee table?
- But that’s what journalists are for! Journalists can get it wrong.
- The Internet is forever! So are print magazines.
- Scientists are introverts. Social media is perfect for introverts – you don’t even have to leave the house!
What’s in it for me,
you’re wondering. Fox has a number of answers for that as well:
- Voice your thoughts and opinions…for free.
- Keep up-to-date
- Share info with colleagues
- Be part of the larger conversation – not only that, you can sway it.
- Control you professional visibility
- Boost your prestige
- Act as a public voice for science
- Avoid the ‘blowback’ effect – correct false impressions
- It’s becoming an obligation – you seem really out of touch if you’re not using social media. In fact, I’d wager you’re doing science a disfavor.
- Ability to crowdsource
- Invitations to write book chapters
- Job offers/attract graduate students
- Real-time conference/workshop updates
- Increased paper downloads/citations
- Potential for new fields of science
But, you say, I still
don’t wanna! What if I’m wrong?
Make a correction. What if no one pays
attention? Not participating guarantees even less attention. What if someone yells at me? That means
they were paying attention. What if my
boss doesn’t like it? Work with your Public
Information Representative to find out the rules.
Are you convinced? Good. Let’s get started. Fox offers these
general guidelines for creating a profile on any one of the social media sites
we listed at the beginning of this post.
- Check KnowEm.com to see your profile name’s availability
- Search for doppelgangers and consider using middle initial
- Have a profile picture of yourself – DO NOT use the school logo!
- Try to keep the same name, profile pic, imagery and look across all your social profiles – we call these social skins, and it helps create a personal brand
- For your professional profiles, be as transparent as possible about your affiliations
- Include a Twitter bio, and tag @UCSDJacobs, @Calit2UCSD or @UCSanDiego
The “Staple” Update
Strategy
Many people have a single type of update that they post
regularly, such as a status update or industry news. In fact, Fox says, some
people only retweet or share other people’s content. For every four staple
updates, mix it up with a different piece of content.
Optimal Posting
Frequency
Facebook: 2x/day
Twitter: 5x/day
LinkedIn: 1x/day
Google +: 2x/day
Pinterest: 5x/day
Instagram: 2x/day
Next Steps
- Start using hashtags to search for keywords that match your interest
- Follow people who are tweeting about those topics
- Create lists to keep your feed organized
- Adjust your settings
Here’s an example in practice. Say TechCrunch posts an
article, and you just happen to come across it while browsing the Internet
before you start your work for the day: “Ron Conway Says Each Engineer Hired
Creates Four Entry-Level Jobs”
If you have:
10 seconds – hit retweet
2 minutes – retweet, and post to
LinkedIn
5 minutes – all of the above and
follow Ron Conway, then read some of his posts
10 minutes – all of the above and
tweet “@RonConway, great insights in @TechCrunch today!”
30 minutes – all of the above and
tweet “Hey, @RonConway, here’s how our tech could create jobs [insert link to a
blog post you’ve written]
Social Media Best
Practices
Posting:
- Consider creating separate accounts
- Don’t clutter up feeds with irrelevant info
- Don’t over-post, make vague posts or complain chronically
- Tailor your post to the medium
- Ditch jargon, use metaphors, break down concepts – for blogs, use Flesch-Kincaid readability test (Microsoft Word)
- Respect other’s privacy
- Respect media embargoes, NDAs and ‘exclusives’
- You are not obligated to accept friend requests or “follow” someone who follows you on Twitter
- Comment, “like”, retweet, reply and otherwise be supportive
- Try “hiding” and if that doesn’t work “unfollow” and “unfriend”
- Use correct grammar!
- To make social media worth your while, Fox has these tips:
- Decide what your goals are and use targeted tools
- Post when your readers are online
- Use and search for hashtags (#engineering)
- Optimize your paper titles for social media – people love lists (5 ways, 10 things, etc.)
- Be selective – create lists in Twitter; change your settings or ‘get notifications’ for Facebook posts
- Find what works for you
The ultimate goal is to create investment.
In the end, it all comes full-circle, Fox says. We are using
social media to talk about science, and science to study social media.
Tiffany Fox will host one more workshop as part of her “Communicating
Research: How to ‘Speak Science’ and Be Understood” series on May 19 from 5 to
7 p.m. The final workshop will be titled “Communicating with the Lay Public”. The
workshop is free-of-charge and will be held in the Booker Conference Room (Room
2512), Jacobs Hall/EBU1, UC San Diego. You can register here.
Tuesday, May 5, 2015
UC San Diego student places third in UC-wide pitch competition
Alex Phan, a grad student in mechanical and aerospace engineering at the Jacobs School, placed third in the Grad Slam 2015 competition organized by the University of California, San Diego, for his talk about an intraocular pressure sensor.
Phan and his team are working with Dr. Robert N. Weinreb at the Shiley Eye Center to develop a sensor that can be implanted in the eye and allow for eye pressure monitoring anywhere. The sensor is coupled with a smart phone to take measurements. He is working in the lab of MAE professor Frank Talke here at the Jacobs School.
You can listen to Phan's talk in the video above. It starts around the 27 minute mark.
More info about the contest here: http://www.universityofcalifornia.edu/grad-slam#article-video
Phan and his team are working with Dr. Robert N. Weinreb at the Shiley Eye Center to develop a sensor that can be implanted in the eye and allow for eye pressure monitoring anywhere. The sensor is coupled with a smart phone to take measurements. He is working in the lab of MAE professor Frank Talke here at the Jacobs School.
You can listen to Phan's talk in the video above. It starts around the 27 minute mark.
More info about the contest here: http://www.universityofcalifornia.edu/grad-slam#article-video
Friday, May 1, 2015
From the classroom: My experience in the new hands-on bioengineering course
Julie Yip |
The 2014-2015 academic year is Yip’s
first in her new field, and she has agreed to share some of her experiences
with us here. The following is a reflection of her experience in a new bioengineering
course (Bioengineering I) that exposes first-year bionengineering students to
hands-on research right off the bat:
Bioengineering
I was such a great experience. The class itself embodied everything I had hoped
to expect when I chose to study at UC San Diego. I knew the university offered endless
research opportunities and a leading education (especially in bioengineering)
but I never thought I could have the amount of exposure that the class offered
this early on in my academic career.
The
format of the class exposed students to a broader and deeper perspective on the
possibilities within bioengineering. Bioengineering professors and guest
speakers led each lecture, offering students some insight into the speakers’ own
specific research interests such as new ways to use electrodes, cardiomyocytes
for regenerative medicine and Ebola. In addition, the class was based on three
individual, highly interactive group projects: Electrophysiology for Brain-Body-Machine
Interfaces; Treatment of Ebola with Limited Resources; and 3D-Printing at
Macro-Micro Scales for Organ and Tissue Engineering.
Working
on a team project was probably my favorite part of the entire course, and I was
fortunate enough to be placed on the one in which I was most interested: the 3D
bone printing project. I had no prior experience working with 3D printers, and
I had never before entertained the idea that I would get to do so anytime soon.
Ultimately and despite some tedious steps, the only way I can most accurately
describe the experience of developing our three-dimensional bone print from its
original CT scans is in the following words: “It was so cool.”
You
must be thinking about how ridiculously dorky I sound. But, really, that
dorkiness is indicative of something very special.
The
project was not fun solely because we had the opportunity to work with highly
advanced technology; the experience was also enjoyable because of the people in
my group. My team members were brilliant, driven students – not to mention kind-hearted
and easy to work with. And I believe we all shared, more or less, my dorkiness.
That is, we were all excited to simply learn. No matter how we got to the class
– whether we thought bioengineering sounded like an interesting major during
college app seasons or went back to school after graduating and working as a medical
professional – we were passionate about what we were doing. I am humbled by
them, and I am humbled by my own experience.
Watch for more from Julie Yip, and more on the new Bioengineering I course.