Qi Gao | 3D Co-Culture | Best Researcher Award

Published on by Cell Biologist

Dr. Qi Gao | 3D Co-Culture | Best Researcher Award

Dr. Qi Gao | Stanford University | United States

Dr. Qi Gao is a dedicated biomedical scientist with over a decade of research experience in molecular biology, regenerative medicine, and tissue engineering. With a Ph.D. in Biomedical Engineering from the City University of Hong Kong, Dr. Gao currently conducts translational research at Stanford University. Her work explores the intricate cellular interactions in 3D tissue models, focusing on macrophage and mesenchymal stromal cell dynamics under inflammatory and oxidative stress conditions. Dr. Gao is recognized for her interdisciplinary approach, blending biology, engineering, and advanced analytics to solve clinical challenges in orthopaedics and joint degeneration. She has co-authored numerous high-impact publications and has mentored young scientists in experimental methods and protein misfolding mechanisms. Her work is frequently published in top-tier journals and presented at international conferences. With strong teaching, communication, and analytical skills, Dr. Gao is a prominent contributor to innovations in personalized medicine and regenerative healthcare solutions.

Publication Profile: 

Orcid

Education:

Dr. Qi Gao earned her Ph.D. in Biomedical Engineering from the City University of Hong Kong , where she built a strong foundation in cellular biology, protein misfolding, and regenerative tissue modeling. During her doctoral studies, she actively contributed to teaching undergraduate students in the Biosafety in Equipment and Facilities course, conducting eighteen classes per seminar. She also served as a mentor to seven undergraduate students, advising their theses in protein misfolding and providing hands-on experimental guidance twice weekly. Her academic training reflects a rigorous, research-intensive environment combined with mentorship and teaching responsibilities. This background has given her deep expertise in experimental design, data synthesis, and translational applications of biomedical innovations. Since completing her Ph.D., she has pursued postdoctoral and collaborative research opportunities at Stanford University, further expanding her skills in regenerative medicine, AI-assisted imaging, and macrophage-mediated joint modeling for translational use in orthopaedics.

Experience:

Dr. Qi Gao brings 10+ years of research and academic experience across global institutions. At the City University of Hong Kong, she conducted pioneering research into protein misfolding and stem cell biology. She transitioned to Stanford University, where she has been a driving force behind multiple 3D tissue engineering and inflammation modeling projects. Her work at Stanford includes the development of innervated organoids, macrophage-stem cell interaction models, and AI applications in orthopaedic imaging. Qi has mentored students, collaborated with leading scientists, and managed complex translational research projects. She possesses strong technical skills in cell culture, biomaterials, confocal microscopy, flow cytometry, and molecular analysis. Beyond bench science, she is proficient in scientific writing, grant applications, and interdisciplinary collaboration. Her research addresses real-world clinical problems such as osteoarthritis, bone degeneration, and inflammation, positioning her as a key contributor in advancing regenerative medicine and clinical translation.

Awards and Honors:

Dr. Qi Gao is a two-time recipient of the Translational Research and Applied Medicine (TRAM) Pilot Grant at Stanford University for the cycles, recognizing her innovative approaches to disease modeling and regenerative therapies. These competitive grants fund projects with strong potential for clinical translation and societal impact. Her recognition in academic circles extends beyond funding; she has been selected as a lead author and collaborator in numerous peer-reviewed publications, including journals like Osteoarthritis and Cartilage, Journal of Inflammation Research, and Stem Cell Research & Therapy. She has presented at major scientific conferences and is frequently cited for her work on macrophage modulation, oxidative stress, and joint inflammation models. These accolades demonstrate her commitment to high-impact, interdisciplinary biomedical research and her ability to consistently deliver results that advance both science and clinical care.

Research Focus:

Dr. Qi Gao’s research centers on the cellular and molecular mechanisms underlying joint inflammation, bone regeneration, and tissue remodeling. She specializes in 3D organoid cultures, particularly models that replicate the synovium-cartilage interface and the bone microenvironment. A core theme of her work is understanding how macrophage phenotypes and mesenchymal stromal cells (MSCs) interact to regulate angiogenesis, osteogenesis, and fibrosis, particularly in inflammatory and corticosteroid-impaired settings. She also investigates the use of metformin and other small molecules to mitigate oxidative stress in stem cell therapies. In addition, Dr. Gao is involved in AI-assisted imaging to improve diagnostic accuracy for bone pathologies such as osteonecrosis of the femoral head. Her translational approach bridges basic science with clinical application, enabling her work to influence therapies for osteoarthritis, bone healing, and personalized regenerative medicine. Her future goals include developing biomimetic models that accurately predict treatment responses in orthopaedic diseases.

Publications Top Notes: 

  1. Macrophage phenotypes modulate neoangiogenesis and fibroblast profiles in synovial-like organoid cultures.

  2. An innervated synovium-cartilage chip for modeling knee joint inflammation and associated pain.

  3. Metformin modulates cell oxidative stress to mitigate corticosteroid-induced suppression of osteogenesis in a 3D model.

  4. 3D culture of MSCs for clinical application.

  5. The advantages and shortcomings of stem cell therapy for enhanced bone healing.

  6. Metabolic profile of mesenchymal stromal cells and macrophages in the presence of polyethylene particles in a 3D model.

  7. Macrophages modulate the function of MSC- and iPSC-derived fibroblasts in the presence of polyethylene particles.

  8. The effects of macrophage phenotype on osteogenic differentiation of MSCs in the presence of polyethylene particles.

  9. Optimization of cytometry by time-of-flight staining for peripheral blood and bone marrow samples.

  10. Metformin modulates oxidative stress in murine mesenchymal stem cells and alleviates corticosteroid-induced inflammation.

Conclusion:

Dr. Qi Gao represents an exceptional biomedical researcher whose contributions have directly advanced the fields of tissue engineering, regenerative medicine, and cell therapy. Her body of work demonstrates scientific rigor, innovation, and real-world relevance. With continued leadership in translational research, mentorship of junior scientists, and active collaboration across disciplines, Dr. Gao is not only suitable but highly competitive for the Best Researcher Award. Her scientific career trajectory strongly aligns with the values of the award—excellence, innovation, and societal impact in science.