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Have iPod, Will Test for Drug Toxicity

Published: Thursday, October 31, 2013
Last Updated: Thursday, October 31, 2013
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Rice students help Houston-based start-up create drug toxicity app.

Accurate and rapid testing for drug toxicity just became easier, thanks to a half-dozen Rice University student interns working at Houston-based startup Nano3D Biosciences (n3D).

The bioengineering and nanoscale physics students just wrapped up a yearlong effort to aid the company in developing a new method for conducting high-throughput, in vitro cytotoxicity assays. A research paper about the new method was published this month in Nature’s open-access journal Scientific Reports.

“This would not have been possible without the students,” said Glauco Souza, n3D’s president and chief scientific officer. “They helped develop the scientific protocols and hardware for this, and they wrote both the iPod app and the analytic software.”

The new assay method, which n3D has dubbed the “BiO Assay,” uses a free iPod app to collect time-lapse images of 3-D cell cultures that have been exposed to varying levels of a drug. Those images are then fed through an analytical program that measures each sample and creates time-lapse movies, graphs and charts of the drug’s cytotoxic profile.

“This literally collects about 100,000 data points during a 12-hour, overnight experiment,” said study co-author Shane Neeley, a Rice bioengineering graduate student who has interned at n3D for nine months. “That’s all relevant publishable data that relate to the different times, doses and cell types and other key variables in the experiment.”

Souza and Rice faculty members Tom Killian and Robert Raphael co-founded n3D in 2008 based on technology they created to grow 3-D cell cultures using magnetic levitation. The technology relies on inert, nontoxic magnetic nanoparticles that attach to living cells. Magnets can then be used to lift and suspend the cells as they grow and divide.

The research is part of a growing trend to create better lab techniques for testing drug toxicity. At issue is the fact that the toxic side effects of many new drugs are discovered only during human clinical testing, which means tests on 2-D cell cultures and on lab animals failed to identify the toxicity risk in humans. Cells grown in 3-D cultures behave more like the body’s native tissues, and scientists have scrambled to find ways of using 3-D cultures to reduce the need for animal testing and to rule out toxic drug candidates earlier.

“It’s been estimated that improving the accuracy of early cytotoxicity screenings by even 10 percent could save drug companies as much as $100 million per drug,” said study co-author Hubert Tseng ’13, n3D’s senior research scientist. Tseng, who interned with the company prior to earning his Ph.D. in bioengineering in March, played an instrumental role in developing several of the company’s products, including the BiO Assay.

Souza said the company developed the BiO Assay out of necessity; Interns in the lab were spending hour after hour snapping photos of individual cell cultures on the microscope. Each experiment involved exposing a hundreds of cell cultures to varying doses of a drug. The microscopic images revealed how much smaller the culture became over time, as the toxic drug slowly killed off the cells in the colony. Each culture was grown in its own tiny chamber on standard plates that each contained 96 chambers.

“Without looking in the microscope, just looking at the camera and clicking like a robot, it would take 20 minutes to take pictures of all 96 wells on one plate,” Souza said. “To analyze that, all 96, with a ruler, took even longer.”

Study first authors David Timm ’12 and Jianbo Chen ’13, professional masters students in nanoscale physics, had to repeat that tedious process over and over, as often as possible, on dozens of 96-well plates that were being used in multiple experiments.

“We decided there had to be a better way, so we began experimenting with using an iPod,” Souza said. “It was promising, but none of the available apps worked very well, so we decided we needed to make our own. I called Apple and asked them to give me the name of a developer here in Houston. When they heard where I was, they said, ‘Don’t (hire a developer). Go to Rice University and get a couple of students instead. You’ll get a better app, and it will do exactly what you want.’”

Study co-author William Haisler ’12 had just graduated from Rice and joined n3D as a graduate student intern. Haisler was no stranger to n3D’s cell culturing technology because he and four other Rice seniors worked with the company as part of their senior capstone design project at Rice’s Oshman Engineering Design Kitchen. The team, Cells in 3-D, created a magnetic pen to help manipulate suspended cell cultures.

Haisler volunteered to create the iPod app. He’d done some Java coding in high school and written several programs during his time at Rice, but he had to learn a new programming language, Objective C, to write the iPod app.

“Apple provides a good amount of sample code, and it’s an object-oriented language like Java, so learning the language wasn’t too bad,” Haisler said. “In terms of developing the app, the biggest challenge was using the tools to access the photo album and the camera. The troubleshooting was difficult because you don’t get full access because of how they use their security.”

Tseng said the team considered going with Android, an open platform that would have eliminated such issues, but they needed the standard hardware format that the iPod offered. Unlike Android handsets, every iPod is the same size and has the same camera location — two factors that were key for getting the repeatable, standardized results required for scientific experiments.

But even with the standard camera location, the team found that slight shadows on the wells furthest from the camera were throwing off their measurements. Correcting the system’s optics fell to Chen, now a Ph.D. student in electrical and computer engineering. He researched various designs before choosing a compact Fresnel lens as being the easiest to use and the most cost-effective.

The problem of capturing images was solved; the new system could snap a photo every few seconds for days at a time. Even setting it for 15-minute intervals produced hundreds of pictures in short order, so the problem of analyzing photos became even more acute.

Chen wrote the first analytical software using MatLab, and Neeley modified that after joining the group in February. Neeley had several years experience writing code in Python, a versatile, high-level language, so he used that to convert Chen’s code and add new features.

“Basically, the idea was to automate everything and process all the data uniformly,” Neeley said. “No matter what time points you use or what types of cells or the angles of the plates, you will still get nice figures that will look good at the end.”

Souza said the ease of use and low startup costs for using the system will make high-throughput screening feasible in places, including many classrooms, where it would have been unthinkable.

“We’re hoping to get this into some high school classrooms here in Houston, and we’re working with one of Houston’s largest community colleges, Lone Star College, to see if it can be used there,” he said.


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