Path of Excellence: Student Spotlight

Graham Ives

January 25, 2018 // by Lauren James

Fourth-year medical student Graham Ives combines his medical skills and knowledge of biomedical innovation with teaching in a new piloting consultant program, Innovation & Entrepreneurship Medical Student Expert Advisor Program


For a new medical device to make it from “bench to bedside,” it needs guidance from not just an engineer but someone in the medical field who knows how it will actually work in the clinical setting with patients.

That’s where someone like Graham Ives comes in.

Graham has been interacting with patients since he was a kid helping around the office at his mom’s medical practice.  Now a fourth-year medical student at the University of Michigan with a passion for teaching, Graham saw medical innovation and device development as a way to improve surgical outcomes and expand treatment options for patients. And when Fast Forward Medical Innovation’s fastPACE program came up in spring 2017, he jumped on the opportunity to learn more about innovation development and customer discovery.

Now, as an Path of Excellence (PoE) Innovation and Entrepreneurship student, Graham is continuing his journey in the world of innovation in biomedical research and medicine.

“Coming into the PoE, I didn’t know what an innovation looked like from a medical perspective,” he said. “It has given me a chance to see the different aspects on how to work with engineers and investors and what I can bring to the table.”

He combines his medical skills and knowledge of biomedical innovation with teaching in a newly piloting consultant program, I&E Medical Student Expert Advisor Program, where he and another medical school student act as liaisons between doctors and engineers– working as middlemen “trying to communicate better to see what questions to ask,” he said. “It shows me the whole process and shows me where I can fit in as a doctor.”

Graham’s interest in the medical field started at an early age. His mother is a primary care doctor and he worked in her office growing up, doing back office work and staffing the front desk, which gave him a chance to meet the patients. That’s when he really could see himself in the profession, he said.

With a desire to fix things, Graham started his undergraduate degree in electrical engineering, but later pivoted to molecular biology. After completing his degree at University of Colorado at Boulder, he made the move east to the University of Michigan for medical school.

“There are lots of schools with big names in terms of surgery, but mentorship is crucial for me,” Graham said. “The mentorship, support, and resources for students is great here.”

And while he has stayed busy with his studies, Graham has helped make an impact through leadership and teaching. Not only has he worked at The Princeton Review as an MCAT biology instructor, but he was also a teaching fellow at the SCRUBS Surgery Interest Group, and a co-president of Students Teaching AIDS to Students (STATS).

“I enjoy feeling like I’m contributing to a larger goal and helping to advance my field,” Graham said. “These organizations have each given me some small ability to do that.”

Before coming to U-M Medical School, he spent a lot of time at CU Boulder volunteering with advocacy organizations for survivors of sexual assault and other marginalized groups, which “helped develop a particular passion for working with and advocating for vulnerable patient populations,” he said in his personal statement.

While in Michigan, Graham has volunteered as an admissions ambassador for the U-M Medical School and as a MedBuddy at MedStart where he paired up with pediatric inpatients at the C.S. Mott Children’s Hospital. Currently, he volunteers at the U-M Student-Run Free Clinic in Livingston County.

Now in his fourth year, his main focus is getting a residency and becoming a doctor. He is looking at strong plastic surgery programs with an innovation component to build on his knowledge and continue work on expanding patient treatments. This also includes teaching and helping vulnerable populations.

“I’m hoping to continue teaching in residency and beyond to train future surgeons,” Graham said. “And I will take the opportunity to help underserved populations during my training and career by providing high-quality reconstructive care and surgical care for transgender patients who otherwise have limited options.”

Student Spotlight

Michael Moore

November 13, 2017 // by Lauren James


Imagine going to the hospital for a biopsy to learn if you have a cancerous tumor. In the days leading up to the procedure, you’re filled with anxiety at the possibility that you might have something that could be serious, even terminal.

Then what if you go through this entire process only to find out that the biopsy was inconclusive, and you have to do another… and maybe even another one?

Unfortunately, this happens quite often—one out of five times, to be exact, innovator Michael Moore said. It occurs when not enough cells are collected during fine-needle aspiration biopsy procedures, and it’s a problem which, in turn, wastes time and increases patients’ stress when they have to return for another biopsy before learning a diagnosis.

Moore, 24, a University of Michigan medical student and participant in Fast Forward Medical Innovation’s Innovation & Entrepreneurship Path of Excellence (PoE) program, made this discovery when doctors thought Moore’s father had tonsil cancer. The doctors did three biopsies that were all inconclusive before they ended up performing surgery, after all.

“They don’t know what typically is in the needle when doing the biopsy and the patients have to come back and do another one,” Moore said.

He aims to solve this with a special technology that allows patients and healthcare providers to speed up diagnosis by ensuring that enough cells are collected during fine-needle aspiration biopsy procedures. It does this by doing a cell count, so clinicians know almost immediately if they have enough tissue for a diagnosis.

“When you get a biopsy the first time, you know what it is,” he said.

The team behind the diagnostic, formerly called Soft Lesion Analytics and now branded Medkairos, is among the 12 Ann Arbor semifinalists in the Michigan Accelerate competition– one of the largest business competitions in North America, and the state’s largest gathering of high-tech companies and venture investors. The competition awards $1 million in prizes, including a $500,000 grand prize.

On Thursday, Nov. 16, at the Detroit Masonic Temple, all semifinalists – including Moore and his team- will pitch their innovations for a shot at the grand prize. The top 10 finalists will pitch that evening during a gala awards dinner.

The prize money would help transform Medkairos, closing its next round of funding, Moore said, and could change how the business is run.

“This is the biggest stage,” he said. “People will start understanding who we are and see how it could really help patients. The more information a clinician has before surgery, the better the patient outcome, and that’s what we are trying to achieve.”

Before putting his ideas on a pathway to commercialization, the University of Alabama graduate discovered his passion for the field of medicine when his grandfather was going through the late stages of colon cancer. It was the time taking care of him and working as a wound care tech at an acute care center in Slidell, La., as an undergrad when Moore realized that medicine was a field he could picture himself in.

It gave him the opportunity to interact with the patients and help completely transform their lives. This includes a patient who Moore said couldn’t feed herself after surgery. After taking care of her for a month, she was able to feed herself again.

“It taught me that I had the passion to take care of patients and I had the stomach for it,” he said, “which is important.”

After completing his undergrad degree, Moore made the move up north to the University of Michigan where he enrolled in medical school. As a student, he had innovation ideas, but no business background, so he joined FFMI’s PoE program. It’s there where he got firsthand experience with the biomedical innovation process and had a chance to really see if his ideas were viable for commercialization.

“I made a lot of mistakes and we pivoted a lot over the last year,” he said.

In fact, he changed his product three times before realizing what the clinicians actually needed—a diagnostic that allows clinicians to get an accurate biopsy the first time.

Now, Moore, alongside team members Andy Kozminski and Andrew Stephens, are working to get the technology developed even further and make it to the FDA. The ultimate goal, Moore said, is to make the leap to the National Institute Cancer centers, Commission on Cancer (CoC) hospitals, and other accredited cancer centers across the country.

With this technology, Moore said he wants to work with the clinicians, not replace them.

“If you can streamline this process, we can make things better for patients.”