ZFIN ID: ZDB-PERS-990414-6
Hu, Norman
Email: norm.hu@hsc.utah.edu
URL:
Affiliation: Yost Lab
Address: Center for Children Huntsman Cancer Institute University of Utah 2000 Circle of Hope, Room 4210 Salt Lake City, UT 84112-5550 USA
Country: United States
Phone: (801) 585-5877
Fax: (801) 585-5470
ORCID ID:


BIOGRAPHY AND RESEARCH INTERESTS


PUBLICATIONS
Lafontant, P.J., Behzad, A.R., Brown, E., Landry, P., Hu, N., and Burns, A.R. (2013) Cardiac myocyte diversity and a fibroblast network in the junctional region of the zebrafish heart revealed by transmission and serial block-face scanning electron microscopy. PLoS One. 8(8):e72388
Hu, N., Yost, H.J., and Clark, E.B. (2001) Cardiac morphology and blood pressure in the adult zebrafish. The Anatomical record. 264(1):1-12
Hu, N., Clark, E.B., and Yost, H.J. (2001) Cardiac morphology and blood pressure in the adult zebrafish. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 15(5):A1231
Hu, N., Sedmera, D., Yost, H.J., and Clark, E.B. (2000) Structure and function of the developing zebrafish heart. The Anatomical record. 260(2):148-157

NON-ZEBRAFISH PUBLICATIONS
Clark EB, Hu N. Developmental hemodynamic changes in the chick embryo stages 18 to 27. Circ Res 51:810-815, 1982.

Wispe J, Hu N, Clark EB. Effect of environmental hypothermia on dorsal aortic blood flow in the chick embryo, stages 18 to 24. Pediatr Res 17:945-948, 1983.

Clark EB, Hu N, Rosenquist GC. Effect of conotruncal constriction on aortic-mitral valve continuity in stage 18, 21, and 24 chick embryo. Am J Cardiol 53:324-327, 1984.

Hawkins JA, Hu N, Clark EB. Effect of caffeine on cardiovascular function in the stage 24 chick embryo. Dev Pharmacol Ther 7:334-343, 1984.

Nakazawa M, Clark EB, Hu N, Wispe J. Effect of environmental hypothermia on vitelline arterial pressure and vascular resistance in the stage 18, 21, and 24 chick embryo. Pediatr Res 19:651-654, 1985.

Clark EB, Hu N, Dooley JB. The effect of isoproterenol on cardiovascular function in the stage 24 chick embryo. Teratology 31:41-47, 1985.

Clark EB, Hu N, Dummett JI, Vandekieft GK, Olson C, Tomanek R. Ventricular function and morphology in the chick embryo stage 18 to 29. Am J Physiol 250:H407-H413, 1986.

Nakazawa M, Miyagawa S, Takao A, Clark EB, Hu N. Hemodynamic effects of environmental hyperthermia in stage 18, 21 and 24 chick Embryos. Pediatr Res 20:1213-1215, 1986.

Dunnigan A, Hu N, Benson Jr DW, Clark EB. Effect of heart rate increase on dorsal aortic flow in the stage 24 chick embryo. Pediatr Res 22:442-444, 1987.

Zahka KG, Hu N, Brin KP, Yin FCP, Clark EB. Aortic impedance and hydraulic power in the chick embryo from stages 18 to 29. Circ Res 64:1091-1095, 1989.

Clark EB, Hu N, Frommelt P, Vandekieft JL, Dummett JL, Tomanek RJ. Effect of increased ventricular pressure on heart growth in chick embryo. Am J Physiol 257:H55-H61, 1989.

Benson Jr. DW, Huges SF, Hu N, Clark EB. Effect of heart rate increase on dorsal aortic flow before and after volume loading in the stage-24 chick embryo. Pediatr Res 26:438-441, 1989.

Hu N, Clark EB. Hemodynamic characteristics of stage 12 to 29 chick embryo. Circ Res 65:1665-1670, 1989.

Keller BB, Hu N, Clark EB. Correlation of ventricular area, perimeter, and mid-conotruncal diameter with ventricular mass and function in the stage 12 to 24 chick embryo. Circ Res 66:109-114, 1990.

Wagman A, Hu N, Clark EB. Effect of changes in circulating blood volume on cardiac output, arterial and ventricular blood pressure in the stage 18, 24 and 29 chick embryo. Circ Res 67:187-192, 1990.

Clark EB, Hu N. Hemodynamics of the developing cardiovascular system. In: Bockman DE, Kirby ML, eds. Embryonic origins of defective heart development. New York: Annals of the NY Academy of Sciences, 588:41-47, 1990.

Keller BB, Hu N, Serrino PJ, Clark EB. Ventricular pressure-area loop characteristics in the stage 16 to 24 chick embryo. Circ Res 68:226-231, 1991.

Hu N, Connuck DM, Keller BB, Clark EB. Diastolic filling characteristics in the stage 12 to 27 chick embryo ventricle. Pediatr Res 29:334-337, 1991.

Clark EB, Hu N, Turner DR, Litter JE, Hansen J. Effect of chronic verapamil treatment on ventricular function and growth in the chick embryo. Am J Physiol 261:H166-H171, 1991.

Campbell KA, Hu N, Clark EB, Keller BB. Analysis of dynamic atrial dimension and function during early cardiac development in the chick embryo. Pediatr Res 32:333-337, 1992.

Taber LA, Hu N, Pexeider T, Clark EB, Keller EB. Residual strain in the ventricle of the stage 16-24 chick embryo. Circ Res 72:455-462, 1993.

Keller BB, Tinney JP, Hu N. Embryonic ventricular diastolic and systolic pressure-volume relations. Cardiol Young 4:19- 27, 1994.

Hu N, Hansen AL, Clark EB, Keller BB. Effect of atrial natriuretic peptide on diastolic filling in the stage 21 chick embryo.
Pediatr Res 37:465-468, 1995.

Hu N, Keller BB. Relationship of simultaneous atrial and ventricular pressures in the stage 16 to 27 chick embryo. Am J Physiol 269:H1359-H1362, 1995.

Hu N, Ngo TD, Clark EB. Distribution of blood flow between embryo and vitelline bed in the stage 18, 21 and 24 chick embryo. Cardiovasc Res 31:E127-E131, 1996.

Yoshigi M, Hu N, Keller BB. Dorsal aortic impedance in the stage 24 chick embryo following acute changes in circulating blood volume. Am J Physiol 270:H1597-H1606, 1996.

Patel VD, Nolan RS, Hu N, Clark EB, Hootnick DR, Levinsohn EM, Packard Jr. DS. Embryonic hypertension following exposure to teratogenic doses of 5-fluro-2'-deoxyuridine. Biomed Environ Sci 9:408-17, 1996.

Sedmera D, Pexieder T, Hu N, Clark EB. Developmental changes in the myocardial architecture of the chick. Anat Rec 248:421-432, 1997.

Sedmera D, Pexieder T, Hu N, Clark EB. A quantitative study of the ventricular myoarchitecture in the stage 21-29 chick
embryo following decreased loading. Eur J Morph 36:105-119, 1998.

Tomanek RJ, Lotun K, Clark EB, Suvarna PR, Hu N. VEGF and bFGF stimulate myocardial vascularization in embryonic
chick. Am J Physiol 274:H1620-H1626, 1998.

Sedmera D, Pexieder T, Rychterova V, Hu N, Clark EB. Remodeling of chick embryonic ventricular myoarchi-tecture under experimentally changed loading conditions. Anat Rec 254:238-252, 1999.

Tomanek RJ, Hu N, Bick Phan, Clark EB. Rate of coronary vascularization during embryonic development is influenced by the rate of myocardial growth. Cardiovasc Res 41:663-671, 1999.