Company Filing History:
Years Active: 2007
Title: Christopher V. Gabel: Innovator in Cellular Diagnostics
Introduction
Christopher V. Gabel, based in Somerville, Massachusetts, is a notable inventor recognized for his contributions to cellular diagnostics. With a focus on developing innovative tools for measuring cell parameters, Gabel's inventive work has the potential to impact various fields in biomedical research and diagnostics.
Latest Patents
Gabel holds one patent titled "Cellular diagnostic arrays, methods of using and processing for producing same." This patent introduces a cellular diagnostic array that allows for accurate and reproducible measurements of essential physical parameters of individual cells en masse, such as cell membrane surface area, cell volume, and excess membrane. The patent details three distinctive designs: the first utilizes a gradient array with rectangular channels for capturing cells, offering insights into the volume-to-surface area ratio. The second design employs wedge-shaped pipettes to capture individual cells, where the position of the cell swiftly reveals its surface area and volume. The third design features channels tailored to deform cells, aiding in understanding their responses to deformation.
Career Highlights
Christopher Gabel is currently affiliated with Boston University, where he engages in pioneering research that bridges engineering and biology. His efforts to improve cellular diagnostics position him as an influential figure in the intersection of technology and life sciences.
Collaborations
Gabel collaborates with esteemed colleagues, including Mark W. Bitensky and Tatsuro Yoshida. Together, they contribute to innovative research that expands the understanding and capabilities of cellular diagnostics and methodologies.
Conclusion
Christopher V. Gabel's work in cellular diagnostics exemplifies the innovative spirit of modern science and engineering. Through his patent and ongoing research, he continues to make significant strides in measuring and understanding cellular parameters, which holds promise for advancements in medical diagnostics and therapeutic strategies.