Stuart Campbell

Website:

Lab Website

Professor of Biomedical Engineering & Cellular and Molecular Physiology

Room / Office: Malone 211

Office Address:

55 Prospect Street

New Haven, CT 06511

Mailing Address:

P.O. Box 208260

New Haven, CT 06520

Phone: (203) 432-4321

Email: stuart.campbell@yale.edu

Degrees:

B.S., Washington State University
Ph.D., University of California, San Diego

Interests:

Dr. Campbell’s research currently focuses on understanding the mechanisms that underlie genetic forms of heart disease. His laboratory uses both computational and experimental biomechanics approaches to improve quantitative understanding of these diseases and evolve new therapies. On the computational side, Dr. Campbell has developed novel multi-scale models of the heart that integrate genomic, functional, and anatomical data to predict behavior of the intact organ. The quantitative genotype-phenotype relationships represented in these models are then used to generate testable hypotheses that drive experiments. His laboratory is also developing instrumentation to perform high-throughput functional measurements of individual cardiac cells, allowing spatially varying properties within the heart to be more accurately characterized and incorporated into multi-scale models.

Selected Awards & Honors:

NSF CAREER Award (2017)
Stewart Whitman Award, Gill Heart Institute, University of Kentucky (2011)
American Heart Association Postdoctoral Fellowship (2011-2012)
Gordon Engineering Leadership Award, Jacobs School of Engineering, University of California, San Diego (2009)
American Heart Association Predoctoral Fellowship (2008-2009)

Selected Publications:

Park, Jinkyu; Anderson, Christopher W.; Sewanan, Lorenzo R.; Kural, Mehmet H.; Huang, Yan; Luo, Jiesi; Gui, Liqiong; Riaz, Muhammad; Lopez, Colleen A.; Ng, Ronald; Das, Subhash K.; Wang, Juan; Niklason, Laura; Campbell, Stuart G.; Qyang, Yibing (2020). Modular design of a tissue engineered pulsatile conduit using human induced pluripotent stem cell-derived cardiomyocytes. Acta Biomaterialia. 102:220-230.
Ng, Ronald; Sewanan, Lorenzo R.; Brill, Allison L.; Stankey, Paul; Li, Xia; Qyang, Yibing; Ehrlich, Barbara E.; Campbell, Stuart G. (2020). Contractile work directly modulates mitochondrial protein levels in human engineered heart tissues. American Journal of Physiology-Heart and Circulatory Physiology. 318:6 (H1516-H1524).
Campbell, Kenneth S.; Chrisman, Brianna Sierra; Campbell, Stuart G. (2020). Multiscale modeling of cardiovascular function predicts that the End-Systolic Pressure Volume Relationship can be targeted via multiple therapeutic strategies. Frontiers in physiology. 11:1043.
Ng, Ronald; Sewanan, Lorenzo; Stankey, Paul; Li, Xia; Qyang, Yibing; Campbell, Stuart (2020). Shortening Velocity Causes Myosin Isoform Shift in Human Engineered Heart Tissues. Circulation Research.
Clark J.A., Weiss J.D., and Campbell S.G. (2019).A Microwell Cell Capture Device Reveals Variable Response to Dobutamine in Isolated Cardiomyocytes. Biophysical Journal. 7: 1258-1268.
Ma Y., Su K.N., Pfau D., Rao V.S., Wu X., Hu X., Leng L., Du X., Piecychna M., Bedi K., Campbell S.G., Eichmann A., Testani J.M., Margulies K.B., Bucala R., and Young L.H. (2019). Cardiomyocyte d-dopachrome tautomerase protects against heart failure. JCI Insight. 4:e128900
Ng R., Manring H., Papoutsidakis N., Albertelli T., Tsai N., See C.J., Li X., Park J., StevensT.L., Bobbili P.J., Riaz M., Ren Y., Stoddard C.E., Janssen P.M.L., Bunch T.J., Hall S.P., Lo Y.C., Jacoby D.L.*, Qyang Y.*, Wright N.*, Ackermann M.A.*, Campbell S.G.* (2019). Patient Mutations Linked to Arrhythmogenic Cardiomyopathy Enhance Calpain-Mediated Desmoplakin Degradation. JCI Insight. 4:e128643.

*Co-corresponding authors
Lehman W., Moore J.R., Campbell S.G., and Rynkiewicz M.J. (2019). The Effect of Tropomyosin Mutations on Actin-Tropomyosin Binding: In Search of Lost Time. Biophysical Journal. 116:2275-2284.
Sewanan L.R., Schwan J., Kluger J., Park J., Jacoby D.L., Qyang Y., and Campbell S.G. (2019). Extracellular Matrix from Hypertrophic Myocardium Provokes Impaired Twitch Dynamics in Healthy Cardiomyocytes. Journal of the American College of Cardiology: Basic to Translational Science. 4:495–505.
Sewanan L.R. and Campbell S.G. (2019). Modeling sarcomeric cardiomyopathies with human cardiomyocytes derived from induced pluripotent stem cells. Journal of Physiology. 14: 2909-2922.
Campbell S.G., Qyang Y., and Hinson J.T. (2019). Sarcomere-Directed Calcium Reporters in Cardiomyocytes: Putting Sensors Where Sensing Makes Sense. Circulation Research. 124:1151-1153.
Niederer S.A., Campbell K.S., Campbell S.G. (2019). A short history of the development of mathematical models of cardiac mechanics. Journal of Molecular and Cellular Cardiology. 127:11-19.
Clark J.A. and Campbell S.G. (2019). Diverse relaxation rates exist among rat cardiomyocytes isolated from a single myocardial region. Journal of Physiology. 597:711-722.
Lehman W., Li X., Kiani F.A., Moore J.R., Campbell S.G., Fischer F., and Rynkiewicz M.J. (2018). Precise Binding of Tropomyosin on Actin Involves Sequence-Dependent Variance in Coiled-coil Twisting. Biophysical Journal. 115:1082-1092.
Campbell K.S., Janssen P.M.L., and Campbell S.G. (2018). Force-Dependent Recruitment from the Myosin Off State Contributes to Length-Dependent Activation. Biophysical Journal. 115:543-553.