Guest Editorial: Special Issue on Fetal Hemodynamics
Tài liệu tham khảo
Arzt, W., and G. Tulzer. Fetal surgery for cardiac lesions. Prenat. Diagn. 31:695–698, 2011.
Balasubramanian, S., and T. A. Tacy. Functional imaging in fetal echocardiography. Cardiovasc. Eng. Technol. 2013. doi:10.1007/s13239-013-0132-z.
Bremer, J. L. The presence and influence of two spiral streams in the heart of the chick embryo. Am. J. Anat. 49:409–440, 1932.
Burggren, W. W. What is the purpose of the embryonic heart beat? Or how facts can ultimately prevail over physiological dogma. Physiol. Biochem. Zool. 77:333–345, 2004.
Burggren, W. W. Cardiovascular development and angiogenesis in the early vertebrate embryo. Cardiovasc. Eng. Technol. 2013. doi:10.1007/s13239-013-0118-x.
Clark, E. B., and G. C. Rosenquist. Spectrum of cardiovascular anomalies following cardiac loop constriction in the chick embryo. Birth Defects Orig. Artic. Ser. 14:431–442, 1978.
de la Pompa, J. L., and J. A. Epstein. Coordinating tissue interactions: notch signaling in cardiac development and disease. Dev. Cell. 22:244–254, 2012.
Gessner, I. H. Spectrum of congenital cardiac anomalies produced in chick embryos by mechanical interference with cardiogenesis. Circ. Res. 18:625–633, 1966.
Giancarlo, P., K. Laganà, F. Gervaso, S. Rigano, and E. Ferrazzi. How do cord compressions affect the umbilical venous flow resistance? An in vitro investigation of the biomechanical mechanisms. Cardiovasc. Eng. Technol. 2013. doi:10.1007/s13239-013-0131-0.
Goenezen, S., M. Y. Rennie, and S. Rugonyi. Biomechanics of early cardiac development. Biomech. Model. Mechanobiol. 11:1187–1204, 2012.
Hogers, B., and M. C. DeRuiter, A. C. Gittenberger-de Groot, and R. E. Poelmann. Extraembryonic venous obstructions lead to cardiovascular malformations and can be embryo lethal. Cardiovasc. Res. 41:87–99, 1999.
Hu, N., D. A. Christensen, A. K. Agrawal, C. Beaumont, E. B. Clark, and J. A. Hawkins. Dependence of aortic arch morphogenesis on intracardiac blood flow in the left atrial ligated chick embryo. Anat. Rec. (Hoboken) 292:652–660, 2009.
Hutson, M. R., and M. L. Kirby. Neural crest and cardiovascular development: a 20-year perspective. Birth Defects Res. C Embryo Today 69:2–13, 2003.
Johnson, B. M., M. G. Deborah, and L. P. Dasi. The transitional cardiac pumping mechanics in the embryonic heart. Cardiovasc. Eng. Technol. 2013. doi:10.1007/s13239-013-0120-3.
Leinana, P. R., T. Kiserudb, and L. R. Hellevika. Human ductus venosus velocity profiles in the first trimester. Cardiovasc. Eng. Technol. 2013. doi:10.1007/s13239-013-0133-y.
Loffredo, C. A. Epidemiology of cardiovascular malformations: prevalence and risk factors. Am. J. Med. Genet. 97:319–325, 2000.
Luria, O., J. Bar, J. Shalev, M. Kovo, A. Golan, and O. Barnea. Inverse solution of the fetal-circulation model based on ultrasound Doppler measurements. Cardiovasc. Eng. Technol. 2013. doi:10.1007/s13239-013-0153-7.
McElhinney, D. B., W. Tworetzky, and J. E. Lock. Current status of fetal cardiac intervention. Circulation 121:1256–1263, 2010.
Moller, J. Prevalence and incidence of cardiac malformation. In: Perspectives in Pediatric Cardiology: Surgery of Congenital Heart Disease: Pediatric Cardiac Care Consortium, 1984–1995, edited by J. Moller. Armonk, NY: Futura Publishing, 1998, pp. 19–26.
Phoon, C. K. Circulatory physiology in the developing embryo. Curr. Opin. Pediatr. 13:456–464, 2001.
Poelmann, R. E., A. C. Gittenberger-de Groot, and B. P. Hierck. The development of the heart and microcirculation: role of shear stress. Med. Biol. Eng. Comput. 46:479–484, 2008.
Sizarov, A., W. H. Lamers, T. J. Mohun, N. A. Brown, R. H. Anderson, and A. F. Moorman. Three-dimensional and molecular analysis of the arterial pole of the developing human heart. J. Anat. 220:336–349, 2012.
Taber, L. A., B. B. Keller, and E. B. Clark. Cardiac mechanics in the stage-16 chick embryo. J. Biomech. Eng. 114:427–434, 1992.
Tobita, K., J. B. Garrison, L. J. Liu, J. P. Tinney, and B. B. Keller. Three-dimensional myofiber architecture of the embryonic left ventricle during normal development and altered mechanical loads. Anat. Rec. A Discov. Mol. Cell Evol. Biol. 283:193–201, 2005.
Votino, C., J. Jani, N. Damry, H. Dessy, X. Kang, T. Cos, et al. Magnetic resonance imaging in the normal fetal heart and in congenital heart disease. Ultrasound Obstet. Gynecol. 39:322–329, 2012.
Yoshida, H., F. Manasek, and R. A. Arcilla. Intracardiac flow patterns in early embryonic life. A reexamination. Circ. Res. 53:363–371, 1983.