Hoa Vinh Pham

Title: Innovations of Hoa Vinh Pham in Quantitative Phase Microscopy

Introduction

Hoa Vinh Pham is an accomplished inventor based in Pittsburgh, PA. He has made significant contributions to the field of microscopy, particularly in the development of advanced imaging techniques for biological applications. His work focuses on enhancing the analysis of unstained tissue and cells, which is crucial for medical research and diagnostics.

Latest Patents

Hoa Vinh Pham holds a patent for "Depth-resolved spatial-domain low-coherence quantitative phase microscopy for unstained tissue and cells." This innovative patent provides systems, methods, and other embodiments associated with high-throughput analysis of 3D nanoscale architectural alterations in unstained tissue and cells. The apparatus includes a drOPD mapping module, a transmission phase imaging module, and a bright-field and transmission phase imaging module. The drOPD mapping module utilizes reflection-mode low-coherence spectral interferometry for mapping unstained tissue. The transmission phase imaging module allows for quantitative phase imaging of both unstained and stained tissue, producing an image registration reference. The bright-field and transmission phase imaging module facilitates bright-field imaging of H&E-stained tissue for nuclei identification and pathology correlation. Hoa Vinh Pham has 1 patent to his name.

Career Highlights

Hoa Vinh Pham is affiliated with the University of Pittsburgh, where he continues to advance his research in quantitative phase microscopy. His work has garnered attention for its potential applications in medical diagnostics and research, particularly in understanding cellular structures without the need for staining.

Collaborations

Hoa Vinh Pham has collaborated with notable colleagues, including Yang Liu and Shikhar Uttam Fnu. These collaborations have contributed to the development of innovative techniques and methodologies in the field of microscopy.

Conclusion

Hoa Vinh Pham's contributions to quantitative phase microscopy represent a significant advancement in the analysis of biological tissues. His innovative patent and ongoing research at the University of Pittsburgh highlight his commitment to improving medical diagnostics and research methodologies.