Capio Biosciences: Improving Cancer Management through Liquid Biopsies

Follow Capio Biosciences on :

Seungpyo Hong, Co-Founder & President, Capio BiosciencesSeungpyo Hong, Co-Founder & President
When a patient is diagnosed with cancer they may face a challenging journey depending on the type and stage of the cancer they have. They are often required to have numerous follow-up tests, including invasive biopsies so that doctors can select the right treatment options. Once treatment has started, it can be even more challenging for doctors to effectively monitor treatment efficacy and to make adjustments. Today, patients often require multiple radiology visits (CT-Scan, MRI, PET-Scan, etc.) as well as invasive repeat biopsies.

While working at the MIT Langer lab, Seungpyo Hong PhD and Andrew Wang MD came up with the idea of finding new and effective biomarkers to mitigate the physical trauma and complications associated with conventional biopsies and radiology visits. Hong and Wang strongly believed that CTCs could represent a powerful biomarker to aid physicians with patient management decisions. Their ideations, followed by 10 years of academic collaborations, led to the establishment of Capio Biosciences: a biotechnology startup that focuses on creating biopsy-free and cost-effective diagnostic tests for cancer surveillance, monitoring, and potentially, diagnosis. Hong expresses that “we only wish to simplify oncology diagnostics.” It was this very desire that affixed the cornerstone of Capio Biosciences in 2015. Since then, Hong and his team have been studying how to more effectively capture CTCs from patient blood samples for enumeration and downstream analysis. In order to achieve this goal, the team looked at how to re-create the conditions in the blood stream whereby CTCs actually “slow down” by “rolling” along blood vessel walls, which directly led to the development of “biomimetic” capture technologies.

“However, while making strong headway in understanding the behavior of CTCs in blood, the challenge we started to face revolved around how to capture CTCs once they transition from one phenotype to another,” explains Hong.

Hong and his team have been studying various biomimetic technologies for the capture of CTCs in a patient’s blood sample and to potentially augment outcomes via simple blood tests


To overcome this obstacle, the company is currently developing their flagship product, CapioCyte™: a platform where blood samples are first centrifuged to isolate the buffey coat (white cells and CTCs). The sample is then passed through its in-house engineered flow chamber system where the sample travels across the surface of Capio Biosciences’ proprietary chips. The surfaces of these chips are engineered to induce biomimetic cell rolling, which enhances the capture efficiency of CTCs. “The aim is to detect CTCs with the utmost sensitivity and specificity in a clinically-significant manner,” adds Hong. With CapioCyte™, the company seeks to increase the sensitivity and specificity of CTC detection as well as to establish CTCs as a powerful biomarker. Additionally, results can be obtained much more quickly by utilizing CapioCyte™ than with conventional biopsy, and may also reduce unnecessary radiology vists. In his laboratory at the University of Wisconsin-Madison, Hong and his team utilized CapioCyte™ technology to mimic how CTCs roll in the blood stream. This led directly to the creation of nanoparticle mediated multivalent cell capture techniques. “This research helped us increase the capture efficiency of CTCs obtained from the blood by using nanoparticles conjugated with antibodies that specifically target CTCs,” says Hong.

With an eye toward future commercialization, Capio Biosciences hopes to deliver significantly improved capture efficiency, while enhancing various down-stream analysis like the identification of specific genes or mutations. To further strengthen their proof of concept, Capio Biosciences has been conducting a series of clinical research studies that have shown highly promising data. With over 300 patients participating in the company’s clinical research studies, Capio Biosciences has been successful in collecting over 1000 clinical data points with CapioCyte™. One notable data point is that Capio Biosciences were able to detect CTCs in 100 percent of 49 head and neck cancer patients. “We also published our first clinical paper in a premier cancer journal called Clinical Cancer Research.” adds Hong.

With the help of these test results, physicians can identify what treatments— radiation therapy, chemotherapy, immunotherapy, and others—reflect the best healthcare outcomes by understanding the CTC count via CapioCyte™, as well as downstream molecular analysis. The company, fueled by the promise of offering better cancer patient care with its technology, intends to drive innovation in the liquid biopsy landscape for the years to come. Looking ahead, Hong seeks to delve deeper into the possibilities of leveraging CTCs, along with other blood-circulating biomarkers, such as exosomes and circulating free DNA (cfDNA), as predictive biomarkers to further improve patient treatment and outcomes.
Share this Article:
Top 15 BioTech Startups - 2019
Capio Biosciences

Company
Capio Biosciences

Headquarters
Madison, WI

Management
Seungpyo Hong, Co-Founder & President and Andrew Wang, Co-Founder & CEO and Steve Miller, CBO

Description
Backed with over a decade’s worth of R&D in hematology and comprehensive biomimetic circulating tumor cell (CTC) analysis, Capio Biosciences wishes to simplify oncology diagnostics. The company is currently developing their flagship product, CapioCyte™: a platform where blood samples are first centrifuged to isolate the buffey coat (white cells and CTCs). The sample is then passed through its in-house engineered flow chamber system where the sample travels across the surface of Capio Biosciences’ proprietary chips. The surfaces of these chips are engineered to induce biomimetic cell rolling, which enhances the capture efficiency of CTCs. The aim is to detect CTCswith the utmost sensitivity and specificity in a clinically-significant manner. With CapioCyte™, the company seeks to increase the sensitivity and specificity of CTC detection as well as to establish CTCs as a powerful biomarker for patient surveillance and monitoring