Selective Gq Activation in Cardiac Fibroblasts Decreases Isometric Force Generation in 3D Engineered Cardiac Tissues
Publication
, Conference
Pomeroy, JE; Bursac, N
Published in: CIRCULATION
2018
Duke Scholars
Published In
CIRCULATION
EISSN
1524-4539
ISSN
0009-7322
Publication Date
2018
Volume
138
Related Subject Headings
- Cardiovascular System & Hematology
- 4207 Sports science and exercise
- 3202 Clinical sciences
- 3201 Cardiovascular medicine and haematology
- 1117 Public Health and Health Services
- 1103 Clinical Sciences
- 1102 Cardiorespiratory Medicine and Haematology
Citation
APA
Chicago
ICMJE
MLA
NLM
Pomeroy, J. E., & Bursac, N. (2018). Selective Gq Activation in Cardiac Fibroblasts Decreases Isometric Force Generation in 3D Engineered Cardiac Tissues. In CIRCULATION (Vol. 138).
Pomeroy, Jordan E., and Nenad Bursac. “Selective Gq Activation in Cardiac Fibroblasts Decreases Isometric Force Generation in 3D Engineered Cardiac Tissues.” In CIRCULATION, Vol. 138, 2018.
Pomeroy JE, Bursac N. Selective Gq Activation in Cardiac Fibroblasts Decreases Isometric Force Generation in 3D Engineered Cardiac Tissues. In: CIRCULATION. 2018.
Pomeroy, Jordan E., and Nenad Bursac. “Selective Gq Activation in Cardiac Fibroblasts Decreases Isometric Force Generation in 3D Engineered Cardiac Tissues.” CIRCULATION, vol. 138, 2018.
Pomeroy JE, Bursac N. Selective Gq Activation in Cardiac Fibroblasts Decreases Isometric Force Generation in 3D Engineered Cardiac Tissues. CIRCULATION. 2018.
Published In
CIRCULATION
EISSN
1524-4539
ISSN
0009-7322
Publication Date
2018
Volume
138
Related Subject Headings
- Cardiovascular System & Hematology
- 4207 Sports science and exercise
- 3202 Clinical sciences
- 3201 Cardiovascular medicine and haematology
- 1117 Public Health and Health Services
- 1103 Clinical Sciences
- 1102 Cardiorespiratory Medicine and Haematology