By KIM PALMER
On Thursday Nov. 21, the Ohio Third Frontier Commission approved $76.85 million to startup and early-stage technology companies statewide to help accelerate the commercialization of institution-owned technologies, according to a statement from the Ohio Development Service Agency.
Under the Ohio Third Frontier Entrepreneurial Services Provider Program (ESP), $26.5 million in grants were awarded to JumpStart Inc. to help entrepreneurs in Northeast Ohio.
Another program, the Ohio Third Frontier Technology Validation and Start-up Fund (TVSF), provides grants to Ohio institutions of higher education and other nonprofit research institutions. The goal is to capitalize technology that is commercially viable with the goal of eventually licensing that technology. TVSF awarded nearly $1 million on Nov. 21, including the following in Northeast Ohio:
Originally published at https://www.crainscleveland.com/government/third-frontier-awards-nearly-77-million-tech-funds-statewide
interview and photos by Skylar Cole
This Akron-born company, created by Drs. Chelsea Monty-Bromer and Hanieh Ghadimi, is using fabric sensors to change the way we think about our sweat.
The goal is to create a sensor that will be similar to a Fitbit. The sensor would track hydration, sodium output, lactic acid buildup and other factors based on the contents of your sweat. That information would then be transferred to an app that would tell you just what you need to stay hydrated or when you might need to take a break.
Monty-Bromer is a professor of Chemical and Biomolecular Engineering at The University of Akron. Ghadimi was her postdoc before creating RooSense.
This interview has been edited for clarity and brevity.
Skylar Cole: Why did the two of you originally start the company?
Chelsea Monty-Bromer: We originally thought [our technology] would be for veterans, inside of their prosthetic limbs — it would kick on like a cooling device. When [veterans] come back from combat, especially younger veterans, if they have a lower limb amputation and they run, they start to sweat, and that can cause chafing, which can cause a blister. So we developed a way to signal a cooling device that the prosthetic limb was too hot.
The problem was that the cooling device required too much power. So we had a sensing mechanism, but we had nothing to use it for.
We participated in a program called NSF iCorp, and in that program, they had you go out and do discovery and customer interviews with a pretty wide range of different customers.We found that endurance athletes, or athletes who are exercising for more than three hours at a time, are typically worried about their hydration status, and specifically how to develop a hydration plan — what hydration products to drink and when to drink them and how much to drink. We were seeing a lot of people with cramping issues, people that were kind of guessing and checking what drinks to drink. We kind of found a really cool market need, and once we found that, we decided to take that technology and make it into a company.
SC: How does the technology work?
CM-B: We electro-spin nylon. So we get nylon just like you would think about [in] pantyhose, except for it’s a little thicker and white. So we get this material and then we functionalize it with carbon nanotubes to make it conductive. And then we further functionalize it for whatever we want to look for. So, right now, we’re looking for sodium ions, the salt that’s in your sweat. Once we functionalize it further, we can then detect sodium ion concentration. In that way we can kind of bin athletes into low-, medium- and high-salt sweaters. Each kind of sweat pattern needs a different kind of sports drink or sports powder, or whatever people want to drink.
SC: You previously mentioned endurance athletes, but would this benefit everyday people?
CM-B: So we think, like, marathon runners, triathletes, soccer players, football players, especially during this time of year when they’re out practicing twice a day… Anyone whos a high-level athlete who is having problems staying hydrated or with cramping, we will be able to help them. The longer you’re exercising at a stretch, the more you will need us. But as we get more data, we can start to help the everyday athlete, so people who are only working out an hour or so every day.
SC: Where do you see this idea going? Do you plan on scaling it?
CM-B: We are in talks right now to join a joint venture with a company that makes hydration drinks. The idea is that they can send out the sensor and an athlete can wear it during their actual workout plan, maybe during a race, and then the data will go to an app where they can access the data, where [the other company] will be able to prescribe them a hydration plan that is specific to them. That’s kind of the first round, and then the athlete will send the sensor back so we can reuse the hardware.
The next round would be having athletes wearing it all the time. So we would make a band, sort of like a Fitbit. The more data we get, the more information we will be able to give athletes to tell them, ‘OK, your heart rate went up, your sodium concentration went up and your temperature went up. You need to take a break or you need to drink something.’ As we have more and more data, then it can be something you can envision going into assisted living or hospitals — places where you really want to know about people’s health, to get into the idea of everyday health.
SC: How big is the technology?
CM-B: Right now it’s just an armband.
SC: What has been your favorite part about this whole process, whether it be starting the company or developing the technology?
CM-B: It’s really cool to be doing something that no one else has done before. It’s really exciting. And no one else has made a fabric sensor like this. It’s really fun to be making something that no one else has made and be developing a monitor that will then help, and maybe even change the way we think about healthcare and being on the frontlines of that.
SC: That must also make it difficult seeing as no one has done this, there’s no reference point.
CM-B: Right, so there’s a lot of education in this. So when we go to pitch the idea, we kind of have to make sure that we educate our audience as to how important this is, especially for high-level athletes, because a lot of people either don’t exercise or they exercise a little bit so they’re not really seeing these issues. Gatorade, one of the biggest sports-drink companies in the world, is finally starting to do some education for us; that has been helpful. But yeah, making a smart textile that no one else has made has been the best part for me.
SC: Did either of you have any experience with entrepreneurship before this company?
CM-B: No, we’re completely new at this. We actually use the small business development center which is in Bounce a lot. We rely on them a lot and talk to the entrepreneurs and residents here to kind of get their insight. Being at Bounce is very helpful because we are able to get a lot of resources from people who have started or worked with companies. Having all of these resources is very helpful.
I think the most important thing is that this is just the beginning. We just have a couple of grants now, but we’re really hoping to ramp up and scale it and, little by little, change the way people think about hydration.
Skylar Cole is a senior at Bio-Med Science Academy
Original published at https://thedevilstrip.com/roosense-thinks-people-should-sweat-smarter/
By JOSEPH CICCOLINI
RooSense, An Akron Based Start-up, is getting a $25,000 grant to further its research on a fabric it's developing that can help you monitor your body’s electrolytes.
The technology can be utilized to help users come up with a better hydration plan tailored to their body.
RooSense founder Chelsea Monty-Bromer says the material can be used to help athletes and other individuals better hydrate their bodies.
“Once they wear it more often then we can learn more about how people sweat, how much sodium they lose, how that affects their performance, how it affects their health," she said.
With the grant from Innovation Fund Northeast Ohio, the company wants to continue to do more research with the hopes of helping athletes and possibly implementing the technology into the medical field.
“Because it’s a fabric material you can think about it in every hospital gown to give doctors an idea about the hydration level of their patients without having to do any kind of tests," Monty-Bromer said. "It would just be constantly monitoring them.”
The company is also hoping to create an app to help analyze their research data with the money received.
RooSense has been working with Ronald Otterstetter and his team in the University of Akron's exercise science department for on-body testing of the product.
The company’s goal is to get this new fabric to the market in two years.
Originally published at https://www.wksu.org/post/akron-startup-receives-funding-dehydration-detection-fabric#stream/0