Students’ monitor will help moms in labor

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David Ruth
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david@rice.edu

Mike Williams
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mikewilliams@rice.edu

Students’ monitor will help moms in labor

Rice U. seniors design and build a contraction monitor for mothers-to-be in low-resource settings

HOUSTON – (April 2, 2018) – Rice University seniors are developing an efficient and inexpensive uterine contraction monitor to help save the lives of mothers in labor and their newborns in resource-poor settings.

A team of bioengineering students who call themselves Contractionally Obligated designed, built and programmed not only a sensor to monitor women in labor but also a unique test rig. They plan to validate the monitor’s accuracy with the help of faculty at the University of Texas Health Science Center at Houston (UTHealth) and their patients.

Rice University bioengineering student Catherine Schult mounts a puck-like sensor to a beach ball, which served as a stand-in for women in labor who will benefit from the contraction monitor device. Rice students built the monitor to help medical personnel in low-resource settings keep track of their patients. (Credit: Jeff Fitlow/Rice University)

Rice University bioengineering student Catherine Schult mounts a puck-like sensor to a beach ball, which served as a stand-in for women in labor who will benefit from the contraction monitor device. Photo by Jeff Fitlow

Eventually, the monitor will likely be tested in maternity wards at hospitals in Malawi, where the Rice 360˚ Institute for Global Health is working to solve the challenges they and other low-resource hospitals face.

“Maternal mortality is a large problem in Malawi,” said Leah Sherman, one of two team members who has spent time there with Rice 360˚. “We’ve seen the wards, which isn’t something you can easily forget, and we all have a passion for bringing the maternal mortality rate down. Of all of the bioengineering projects we were offered, this one seemed the most powerful and impactful for a community that is in dire need.”

Sherman and Mildred Antwi-Nsiah, who has also worked in Malawi, were joined in the effort by teammates Aniket Tolpadi, Patricia DaSilva, Shannon Fei and Catherine Schult. All spent long days this school year at Rice’s Oshman Engineering Design Kitchen (OEDK), where some designed and programmed the sensor and monitoring algorithm and others pieced together a method to test their invention.

“In Malawi, nurses are supposed to perform a partograph, in which they manually measure contractions every 30 minutes for 10 minutes, but the patient-to-nurse ratio is 15-to-1, so it’s not physically possible to adequately monitor all the patients,” Sherman said. “Most mothers there go unmonitored for the majority of their labor.”

A puck-like device with a pressure-sensitive membrane is the central component in a system to monitor the contractions of women in labor. The device developed by Rice University bioengineering students is intended to help medical personnel in low-resource settings keep track of their patients. (Credit: Jeff Fitlow/Rice University)

A puck-like device with a pressure-sensitive membrane is the central component in a system to monitor the contractions of women in labor. Photo by Jeff Fitlow

The heart of the Rice device is a puck-like sensor that presses against the patient’s abdomen and is held in place by a robust, washable rubber and nylon belt designed by the team to lessen the need for disposable supplies and cut the risk of infection. Contracting muscles move a membrane on the sensor, which in turn moves an LED on the inside closer to a photoresistor that measures the intensity of the light and determines the voltage output to a microcontroller. That sends information about the contractions to the user interface in real time.

When contractions become more frequent or indicate a risk to the patient, a box attached to the computer will light up and sound an alarm, Antwi-Nsiah said. “When they’re outside of a safe physiological range for more than 10 minutes, the audible and visual cues will become more intense,” she said.

Rice University bioengineering student Patricia DaSilva wires up her team's contraction monitor at Rice's Oshman Engineering Design Kitchen. DaSilva is part of a team of seniors designing the monitor to help women in low-resource settings like Rice's partner hospitals in Malawi. (Credit: Jeff Fitlow/Rice University)

Rice University bioengineering student Patricia DaSilva wires up her team’s contraction monitor at Rice’s Oshman Engineering Design Kitchen. Photo by Jeff Fitlow

Because contractions can last between 30 seconds and three minutes, the team’s test device had to deliver a gradual increase and decrease in pressure to the sensor. A beach ball hooked to a set of microcontroller-controlled solenoids was the answer. “We started with a hand pump, but it was hard to get the nice, smooth curves you would get in real life,” Schult said.

The contraction monitor is designed to cost less than $100, according to the team.

The students plan to test the monitor under the supervision of Dr. Suneet Chauhan, a professor in UTHealth’s Department of Obstetrics, Gynecology and Reproductive Sciences. Chauhan is co-advising the team with OEDK Director Maria Oden, a teaching professor in bioengineering; Eric Richardson, a lecturer in bioengineering, and Jennifer Carns, a postdoctoral researcher in the lab of Rice 360˚ Director Rebecca Richards-Kortum.

The Contractionally Obligated team of Rice University bioengineering students have developed an efficient and inexpensive uterine contraction monitor to help save the lives of mothers in labor and their newborns in resource-poor settings. From left: Shannon Fei, Aniket Tolpadi, Leah Sherman, Patricia DaSilva, Mildred Antwi-Nsiah and Catherine Schult. (Credit: Jeff Fitlow/Rice University)

The Contractionally Obligated team, from left: Shannon Fei, Aniket Tolpadi, Leah Sherman, Patricia DaSilva, Mildred Antwi-Nsiah and Catherine Schult. Photo by Jeff Fitlow

Validation will be done in parallel with devices used by UTHealth faculty in their practices, though the Rice team won’t hook up its graphical interface so attending physicians will only have access to their own monitors, Schult said. “Also, for some women who have higher-risk pregnancies, they often monitor them with an intrauterine pressure catheter (IUPC), which is the gold standard and very accurate.

“If our device detects 70 percent of contractions relative to those detected by that (IUPC) technology, it will be equivalent to the tocodynamometer used in the United States, which is our base goal.”

Contractionally Obligated will demonstrate its device at the annual George R. Brown School of Engineering Design Showcase April 12 at Rice’s Tudor Fieldhouse. The event opens to the public at 4:30 p.m., with the winners of cash prizes announced at 7. More than 80 teams are expected to compete this year.

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Read about the project at http://oedk.rice.edu/Sys/PublicProfile/41443332/4330110

Follow Rice News and Media Relations via Twitter @RiceUNews

Video:

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https://youtu.be/lw2de-6x3Gk

Video produced by Brandon Martin/Rice University

Related materials:

George R. Brown School of Engineering: https://engineering.rice.edu

Rice Department of Bioengineering: https://bioengineering.rice.edu

Images for download:

Rice University seniors adjust their prototype to monitor the contractions of women in labor. Their device is intended to help nurses monitor their patients in low-resource settings, such as hospitals in Malawi. From left: Patricia DaSilva, Aniket Tolpadi, Mildred Antwi-Nsiah and Shannon Fei. (Credit: Jeff Fitlow/Rice University)

 

 

 

 

http://news.rice.edu/files/2018/03/0402_CONTRACTION-1-WEB-yxkose.jpg

Rice University seniors adjust their prototype to monitor the contractions of women in labor. Their device is intended to help nurses monitor their patients in low-resource settings, such as hospitals in Malawi. From left: Patricia DaSilva, Aniket Tolpadi, Mildred Antwi-Nsiah and Shannon Fei. (Credit: Jeff Fitlow/Rice University)

Rice University bioengineering student Catherine Schult mounts a puck-like sensor to a beach ball, which served as a stand-in for women in labor who will benefit from the contraction monitor device. Rice students built the monitor to help medical personnel in low-resource settings keep track of their patients. (Credit: Jeff Fitlow/Rice University)

 

 

 

 

 

 

 

http://news.rice.edu/files/2018/03/0402_CONTRACTION-2-WEB-wks43o.jpg

Rice University bioengineering student Catherine Schult mounts a puck-like sensor to a beach ball, which served as a stand-in for women in labor who will benefit from the contraction monitor device. Rice students built the monitor to help medical personnel in low-resource settings keep track of their patients. (Credit: Jeff Fitlow/Rice University)

 

Rice University bioengineering student Patricia DaSilva wires up her team's contraction monitor at Rice's Oshman Engineering Design Kitchen. DaSilva is part of a team of seniors designing the monitor to help women in low-resource settings like Rice's partner hospitals in Malawi. (Credit: Jeff Fitlow/Rice University)

 

 

 

 

http://news.rice.edu/files/2018/03/0402_CONTRACTION-3-WEB-t0gaa2.jpg

Rice University bioengineering student Patricia DaSilva wires up her team’s contraction monitor at Rice’s Oshman Engineering Design Kitchen. DaSilva is part of a team of seniors designing the monitor to help women in low-resource settings like Rice’s partner hospitals in Malawi. (Credit: Jeff Fitlow/Rice University)

A puck-like device with a pressure-sensitive membrane is the central component in a system to monitor the contractions of women in labor. The device developed by Rice University bioengineering students is intended to help medical personnel in low-resource settings keep track of their patients. (Credit: Jeff Fitlow/Rice University)

 

 

 

 

http://news.rice.edu/files/2018/03/0402_CONTRACTION-4-WEB-1ii4bph.jpg

A puck-like device with a pressure-sensitive membrane is the central component in a system to monitor the contractions of women in labor. The device developed by Rice University bioengineering students is intended to help medical personnel in low-resource settings keep track of their patients. (Credit: Jeff Fitlow/Rice University)

The Contractionally Obligated team of Rice University bioengineering students have developed an efficient and inexpensive uterine contraction monitor to help save the lives of mothers in labor and their newborns in resource-poor settings. From left: Shannon Fei, Aniket Tolpadi, Leah Sherman, Patricia DaSilva, Mildred Antwi-Nsiah and Catherine Schult. (Credit: Jeff Fitlow/Rice University)

 

 

 

 

http://news.rice.edu/files/2018/03/0402_CONTRACTION-5-WEB-1ocxnrc.jpg

The Contractionally Obligated team of Rice University bioengineering students have developed an efficient and inexpensive uterine contraction monitor to help save the lives of mothers in labor and their newborns in resource-poor settings. From left: Shannon Fei, Aniket Tolpadi, Leah Sherman, Patricia DaSilva, Mildred Antwi-Nsiah and Catherine Schult. (Credit: Jeff Fitlow/Rice University)

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About Mike Williams

Mike Williams is a senior media relations specialist in Rice University's Office of Public Affairs.