{"id":14,"date":"2017-07-07T20:21:07","date_gmt":"2017-07-07T20:21:07","guid":{"rendered":"http:\/\/utsaengineer.wpengine.com\/faculty-page-example\/?page_id=14"},"modified":"2017-08-23T13:55:52","modified_gmt":"2017-08-23T18:55:52","slug":"publications","status":"publish","type":"page","link":"https:\/\/ceid.utsa.edu\/hhan\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Peer-Reviewed Journal Papers and Book Chapters<\/strong><\/p>\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n
1.<\/strong><\/td>\nChen ST, Han HC (1987). The Fourier eign transform. Chinese J Appl. Mech.<\/em>\u00a0 4(1):33-37.[Abstract]<\/a><\/td>\n<\/tr>\n
2.<\/strong><\/td>\nHan HC (1989). The linear increase law of optimum age of scientific creativity. Scientometrics<\/em>. 15(3-4):309-312. [Abstract]<\/a><\/td>\n<\/tr>\n
3.<\/strong><\/td>\nHan HC, Fung YC(1991). Residual strain in porcine and canine trachea. J Biomech<\/em>. 24(5): 307-315.[Abstract]<\/a><\/td>\n<\/tr>\n
4.<\/strong><\/td>\nHan HC, Fung YC(1991). Species dependence of the zero-stress state of aorta: pig versus rat. ASME Trans. J Biomech Eng<\/em>. 113:446-451.[Abstract]<\/a><\/td>\n<\/tr>\n
5.<\/strong><\/td>\nZhao L, Huang YT, Han HC, Huang M, Han LP, Zhang LF, Zhang R, Li J\u00a0 (1993) Mechanical and hemodynamical changes of autogenous vein grafts. Chinese J Reparative Reconstr. Surg<\/em>. 7(2):12-15.<\/td>\n<\/tr>\n
6.<\/strong><\/td>\nHan HC (1994). A review of the residual strain in living organs. Advances in Mechanics[<\/em>Chinese]. 24(1):124-131.<\/td>\n<\/tr>\n
7.<\/strong><\/td>\nHan HC (1994). Analysis of stress and strain representations. J Xi’an Jiaotong Univ.[<\/em>Chinese]. 28(1):45-50. Abstract [PDF]<\/a><\/td>\n<\/tr>\n
8.<\/strong><\/td>\nHuang M, Han HC, Zhao L (1994). The zero-stress state of canine aorta. J Appl. Biomech.[<\/em>Chinese]. 9(1): 52-55.<\/td>\n<\/tr>\n
9.<\/strong><\/td>\nHan HC, Huang M, and Yang Z (1994). The zero-stress state of major arteries and veins of human extremity<\/a>. Chinese J Biomed. Eng<\/em>. 13(3): 244-250.<\/td>\n<\/tr>\n
10.<\/strong><\/td>\nHan HC, Li G, Kuang ZB, Zhao L, Huang YT (1994). Tensile test of autogenous vein graft. Chinese J Appl. Mech<\/em>. 11(3): 122-123.<\/td>\n<\/tr>\n
11.<\/strong><\/td>\nShen Q, Zong W, Jiang D, Han HC (1994). A capacitive isometric tensile test device for soft tissue. Chinese J Biomed Instrument<\/em>. 18(6):329-332.<\/td>\n<\/tr>\n
12.<\/strong><\/td>\nHan HC, Fung YC (1995). Longitudinal strain in canine and porcine aortas. J Biomech<\/em>. 28:637-642.[Abstract]<\/a><\/td>\n<\/tr>\n
13.<\/strong><\/td>\nLiao DH, Han HC, Li LS (1995). An in vitro fatigue test of human tibia. J Appl Biomech<\/em>.\u00a0 [Chinese]. 10(4): 238-244.<\/td>\n<\/tr>\n
14.<\/strong><\/td>\nHuang M, Han HC, Zhao L (1996). The residual strain in canine arteries. Chinese J Biomed. Eng.<\/em> (English). 5(1):1-10.<\/td>\n<\/tr>\n
15.<\/strong><\/td>\nHan HC, Fung YC (1996). Direct measurement of transverse residual strains in aorta. Am J Physiol<\/em>. 270 (Heart and Circ Physiol. 39): H750-H759.[Abstract]<\/a><\/td>\n<\/tr>\n
16.<\/strong><\/td>\nXu H, Zhu M, Pei J, Zang Y, Han HC (1997). The establishment and evaluation of abdominal aorta thrombosis model in rat<\/a>. Chin J Appl Physiol<\/em>.[Chin], 13(1):89-90. [Abstract]<\/a><\/td>\n<\/tr>\n
17.<\/strong><\/td>\nXu H, Zhu M, Pei J, Zang Y, Han HC (1997). Changes in the contraction and relaxation of abdominal aorta after thrombosis in rats. Chin J Appl Physiol<\/em>.[Chinese], 13(3):260,267. [Abstract]<\/a><\/td>\n<\/tr>\n
18.<\/strong><\/td>\nXu H, Zhu M, Han H, Pei J, Wang Y, Zang Y, Hu S, (1997). Effect of thrombosis on the relaxation responses to calcitonin gene-related peptide in rat abdominal aorta. J FMMU<\/em> [Chinese], 18(6): 532-535.<\/td>\n<\/tr>\n
19.<\/strong><\/td>\nLiao DH, Han HC, Huang M, Kuang Z, Zhao L (1997) \u201cA study of stress-strain relation of autogenous vein grafts: circumferential versus longitudinal. J Med Biomech<\/em>, 12(3):134-137.<\/td>\n<\/tr>\n
20.<\/strong><\/td>\nLiao DH, Han HC, Kuang ZB (1998). Finite element analysis of human tibia. J Biomed Eng<\/em>. [Chinese] 15(1): 53-57.<\/td>\n<\/tr>\n
21.<\/strong><\/td>\nHan HC, Zhao L, Huang M, Hou LS, Huang YT, Kuang ZB(1998). Postsurgical change of the opening angle of canine autogenous vein graft. Trans ASME J Biomech Engng<\/em>. 120(2):211-216.[Abstract]<\/a><\/td>\n<\/tr>\n
22.<\/strong><\/td>\nChesler NC, Conklin BS, Han HC, Ku DN (1998). Simplified ex vivo artery culture techniques for porcine arteries. J Vasc Invest<\/em>. 4: 213-217.[Abstract]<\/a><\/td>\n<\/tr>\n
23.<\/strong><\/td>\nLiao D, Kuang Z, Han H (1999). Simulation of endothelial cell behavior under 2-D steady flow on a wavy surface. J Xi’an Jiaotong Univ<\/em>. [Chinese]. 33(2): 59-63.<\/td>\n<\/tr>\n
24.<\/strong><\/td>\nHan HC, Xu H, Zhu M, Zang YM (1999). The zero-stress state of rat abdominal aorta following hrombosis. Chin J Biomed Eng<\/em>. 18(2): 184-186.[Abstract]<\/a>[Full Text PDF]<\/a><\/td>\n<\/tr>\n
25.<\/strong><\/td>\nLiao DH, Han HC, Zhao L, Huang M, Huang YT, Kuang ZB (2000). The stress-strain relations of autogenous vein graft and its histologic correlation. Chin J Biomed Eng<\/em>. 19(3): 261-266.[Abstract]<\/a><\/td>\n<\/tr>\n
26.<\/strong><\/td>\nHou L, Huang Y, Han H (2000), Bridging artery defect with autogenous vein under required anastomosing tension \u2013 a theoretical analysis based on related biomechanical evidence<\/a>. Shengwu Yixue Gongchengxue Zazhi\/J Biomed Eng<\/em>. 17 (3): 277-280.[Abstract]<\/a><\/td>\n<\/tr>\n
27.<\/strong><\/td>\nHan HC, Ku DN (2001). Contractile responses in arteries subjected to hypertensive pressure in seven-day organ culture. Ann Biomed Eng<\/em>. 29(6):467-475.[Abstract]<\/a><\/td>\n<\/tr>\n
28.<\/strong><\/td>\nOshinski JN, Han HC, Ku DN, Pettigrew RI (2001). Quantitative prediction of improvement in cardiac function after revascularization with MR imaging and modeling-initial results. Radiology<\/em>. 221(2):515-522. [Abstract]<\/a><\/td>\n<\/tr>\n
29<\/strong>.<\/strong><\/td>\nLiao DH, Kuang ZB, Li J, Han HC (2001). [Simulation of endothelial cell behavior under 2-D pulsatile flow on a wavy surface]. Chinese J Biomed Eng. <\/em>20(6): 545-551. [Abstract]<\/a><\/td>\n<\/tr>\n
30.<\/strong><\/td>\nHan HC, Oshinski JN, Ku DN, Pettigrew RI (2002). A left ventricle model to predict post-revascularization ejection fraction based on cine magnetic resonance images. J Biomech Eng.124(<\/em>1):52-55. [Abstract] <\/a><\/td>\n<\/tr>\n
31.<\/strong><\/td>\nLiao DH, Li J, Kuang ZB, Han HC (2002). [Numerical simulation of the shear stress on the surfaces of endothelial cells under static and 24h flow conditions]. Chinese J Biomed Eng. <\/em>21(1): 21-27. [Abstract]<\/a><\/td>\n<\/tr>\n
32.<\/strong><\/td>\nHou L, Huang Y, Han H (2002). [Compliance variation following the change of longitudinal stretch ratio. A study on femoral artery and vein in a rabbit model]. J Biomed Eng<\/em>.[Chinese] 19(2): 207-211.\u00a0 [Abstract]<\/a><\/td>\n<\/tr>\n
33.<\/strong><\/td>\nHan HC<\/strong>, Ku DN, Vito RP (2003). Arterial wall adaptation under elevated axial stretch in organ culture. Ann Biomed Eng<\/em> 31(4): 403-411.\u00a0[Abstract]<\/a><\/td>\n<\/tr>\n
34.<\/strong><\/td>\nKu DN, Han HC<\/strong> (2003), Assessment of function in tissue engineered vascular grafts. In Functional Tissue Engineering<\/em>, Springer-Verlag. New York, NY, Chapter 19, 258-267. (Book Chapter)\u00a0[Abstract]<\/a><\/td>\n<\/tr>\n
35.<\/strong><\/td>\nHan HC<\/strong> (2004). An echocardiogram-based 16-segment model for predicting left ventricular ejection fraction improvement. J Theor Biol <\/em>228(1): 7-15.[Abstract]<\/a>.<\/td>\n<\/tr>\n
36.<\/strong><\/td>\nHan HC<\/strong>, Lerakis S (2004). The relation between viable segments and the left ventricular ejection fraction improvement: a theoretical analysis. J Med Eng Technol<\/em> 28(6):242-253. [Abstract]<\/a><\/td>\n<\/tr>\n
37.<\/strong><\/td>\nHan HC<\/strong>, Martin RP, Lerakis G, Lerakis S, (2005). Prediction of the left ventricular ejection fraction improvement using echocardiography and mechanical modeling. J Am Society of Echocardiography<\/em> 18(7): 718-721. [Abstract]<\/a><\/td>\n<\/tr>\n
38.<\/strong><\/td>\nDavis NP, Han HC<\/strong>, Wayman B, Vito RP (2005). Sustained axial loading lengthens arteries in organ culture. Ann Biomed Eng<\/em>. 33(7): 869-879. [Abstract]<\/a><\/td>\n<\/tr>\n
39<\/strong>.<\/strong><\/td>\nHan HC<\/strong>, Marita S, Ku DN (2006). Changes in opening angles of hypertensive and hypotensive arteries in three-day organ culture.\u00a0 J Biomech<\/em> 39:2410-2418. [Abstract]<\/a><\/td>\n<\/tr>\n
40.<\/strong><\/td>\nChalla V, Han HC<\/strong> (2007), Spatial variations in wall thickness, material stiffness, and initial shape affect wall stress and shape of intracranial aneurysms. Neurol<\/em> Res<\/em>. 29(6): 569-577. [Abstract]<\/a><\/td>\n<\/tr>\n
41.<\/strong><\/td>\nHan HC<\/strong> (2007). A biomechanical model of artery buckling. J Biomech.<\/em> 40(16): 3672-3678. [Abstract]<\/a><\/td>\n<\/tr>\n
42.<\/strong><\/td>\nJin Y, Han HC<\/strong>, and Lindsey ML (2007).\u00a0 Editorial: ACE Inhibitors to Block MMP-9 Activity:\u00a0 New Functions for Old Inhibitors.\u00a0 J Molecular and Cellular Cardiology<\/em> (JMCC). 40 (6): 664-666. [Abstract]<\/a><\/td>\n<\/tr>\n
43.<\/strong><\/td>\nLin J, Lopez E, Jin Y, Van Remmen H, Bauch T, Han HC<\/strong>, Lindsey ML \u00a0(2008). Age-related cardiac muscle sarcopenia: combining experimental and mathematical modeling to identify mechanisms. Experimental Gerontology<\/em>.\u00a0 43(4): 296-306. [Abstract]<\/a><\/td>\n<\/tr>\n
44.<\/strong><\/td>\nHan HC<\/strong> (2008). Nonlinear Buckling of blood vessels: A theoretical study. J Biomech.<\/em> 41(12): 2708-2713. [Abstract]<\/a><\/td>\n<\/tr>\n
45.<\/strong><\/td>\nLee Y, Drury-Stewart D, Vito RP, Han HC<\/strong> (2008). Morphologic adaptation of arterial endothelial cells under axial stretch in organ culture. J Biomech<\/em>. 41:3274-3277.[Abstract]<\/a><\/td>\n<\/tr>\n
46.<\/strong><\/td>\nHan HC<\/strong> (2009). The mechanical buckling of curved arteries. Molecular & Cell Biomech.<\/em> 6(2): 93-100.[Abstract]<\/a><\/td>\n<\/tr>\n
47.<\/strong><\/td>\nKim YS, Galis ZS, Rachev A, Han HC<\/strong>, Vito RP (2009). Matrix metalloproteinase-2 and -9 are associated with high stresses predicted using a nonlinear heterogeneous model of arteries.\u00a0ASME J Biomech Eng<\/em> 131(1):011009. [Abstract]<\/a><\/td>\n<\/tr>\n
48.<\/strong><\/td>\nYao Q, Hayman DM, Dai Q, Lindsey ML, Han HC<\/strong> (2009). Alterations in pulse pressure stimulate arterial wall matrix remodeling. J Biomech Eng<\/em>. 131(10) 101011, Oct. 2009. [Abstract]<\/a><\/td>\n<\/tr>\n
49<\/strong>.<\/strong><\/td>\nHan HC<\/strong> (2009). Blood vessel buckling within surrounding tissue generates tortuosity. J Biomech<\/em>. 42(16): 2797-2801. [Abstract]<\/a><\/td>\n<\/tr>\n
50.<\/strong><\/td>\nHan HC<\/strong> (2009). The theoretical foundation for artery buckling under internal pressure. J Biomech Eng<\/em>. 131(12): 124501. [Abstract]<\/a><\/td>\n<\/tr>\n
51.<\/strong><\/td>\nNorthcutt A. Datir P, Han HC<\/strong> (2009). Computational simulations of buckling of oval and tapered arteries. In Tributes to Yuan-Cheng Fung on His 90th Birthday. Biomechanics: From Molecules to Man<\/em>. Ed: Shu Chien, Peter C Y. Chen, Geert W. Schmid-Sch\u00f6nbein, Pin Tong, and Savio L-Y Woo, World Scientific Publishing Co. ISBN 978-9814289870. Chapter 6, 53-64.<\/td>\n<\/tr>\n
52.<\/strong><\/td>\nHan HC<\/strong> (2010) \u201cLetter to the Editor: Response to comment on \u201cA biomechanical model of artery buckling.\u201d J Biomech<\/em> 43(4):802-803.<\/td>\n<\/tr>\n
53.<\/strong><\/td>\nLee YU, Luo J, Sprague EA, Han HC<\/strong> (2010). Comparison of artery organ culture and co-culture models for studying endothelial cell migration and its effect on smooth muscle cell proliferation and migration. Ann Biomed Eng<\/em>. 38(3):801-12. [Abstract]<\/a><\/td>\n<\/tr>\n
54.<\/strong><\/td>\nMartinez R, Fierro CA. Shireman PK, Han HC<\/strong> (2010). Mechanical buckling of veins under internal pressure. Ann Biomed Eng<\/em>. 38(4):1345-53.\u00a0 [Abstract]<\/a><\/td>\n<\/tr>\n
55.<\/strong><\/td>\nWang Y, Yang\u00a0 J, Han HC<\/strong>, Lindsey ML, Jin Y (2010) \u201cA conceptual cellular interaction model of left ventricular remodeling post-MI: dynamic network with exit-entry competition strategy\u201d BMC System Biology <\/em>\u00a04(suppl 1):S5 (1-10). [Abstract]<\/a><\/td>\n<\/tr>\n
56.<\/strong><\/td>\nLee YU, Hayman D, Sprague EA, Han HC<\/strong> (2010). Effects of axial stretch on intimal thickness and cell proliferation in arteries in organ culture. Cell & Mol Bioeng<\/em>. 3(3): 286-295.[abstract]<\/a><\/td>\n<\/tr>\n
57.<\/strong><\/td>\nHan HC<\/strong>, Liu Q, Cui F (2010). Response to Comment on “A biomechanical model of artery buckling” and subsequent comments. J Biomech<\/em>. 43(14): 2864.<\/td>\n<\/tr>\n
58.<\/strong><\/td>\nLee AY, Han HC<\/strong> (2010). A thin-walled nonlinear model for vein buckling. Cardiovasc<\/em> Eng & Tech<\/em>. 1(4): 282-289.[Abstract]<\/a><\/td>\n<\/tr>\n
59<\/strong>.<\/strong><\/td>\nHan HC<\/strong> (2011). Determination of the critical pressure of artery buckling using the potential energy approach. Ann Biomed Eng<\/em> 39(3):1032-40.[abstract]<\/a><\/td>\n<\/tr>\n
60.<\/strong><\/td>\nJin Y, Han HC<\/strong>, Berger J, Dai Q, Lindsey ML (2011). Combining experimental and mathematical modeling to reveal mechanisms of macrophage-dependent left ventricular remodeling.. BMC System Biol<\/em>. 5:60.[abstract]<\/a><\/td>\n<\/tr>\n
61.<\/strong><\/td>\nDatir P, Lee AY. Lamm SD, Han HC<\/strong> (2011). Effect of geometric variations on the buckling of arteries. Int<\/em> J Appl Mech<\/em>\u00a0 3(2): 385-406.[abstract]<\/a><\/td>\n<\/tr>\n
62.<\/strong><\/td>\nChesnutt JKW, Han HC<\/strong> (2011). Tortuosity triggers platelet activation and thrombus formation in microvessels. ASME J Biomech Eng<\/em>. 133(12):121004.[abstract]<\/a><\/td>\n<\/tr>\n
63.<\/strong><\/td>\nLee AY, Han B, Lamm SD, Fierro CA, Han HC<\/strong> (2012). Effects of elastin degradation and surrounding matrix support on artery stability. Am J Physiol<\/em> –Heart Circ Physiol<\/em> 302(4): H873\u2013H884.[abstract]<\/a><\/td>\n<\/tr>\n
64.<\/strong><\/td>\nGao F, Cheng JH, Xue JH, Bai YG, Chen MS, Huang WQ, Huang J, Wu SX, Han HC<\/strong>, Zhang LF(2012). In-vivo and ex-vivo studies on region-specific remodeling of large elastic arteries due to simulated weightlessness and its prevention by gravity-based countermeasure. Acta<\/em> Physiologica Sinica<\/em>, 64(1): 14\u201326.).[abstract]<\/a><\/td>\n<\/tr>\n
65.<\/strong><\/td>\nMartinez R, Han HC <\/strong>(2012). Effect of collagenase on the critical buckling pressure of arteries. Mol<\/em> Cell Biomech<\/em> 9 (1):55-76.(Invited).[abstract]<\/a><\/td>\n<\/tr>\n
66.<\/strong><\/td>\nHan HC<\/strong>, Jiang ZL (2012). Vascular remodeling under axial tension. J Med Biomech<\/em> [Chinese] (invited review) 27(1):7-12.[abstract]<\/a><\/td>\n<\/tr>\n
67.<\/strong><\/td>\nHan HC<\/strong> (2012). Twisted blood vessels: symptoms, etiology, and biomechanical mechanisms. J Vasc Res<\/em>. 49(3):185-197.[abstract]<\/a><\/td>\n<\/tr>\n
68.<\/strong><\/td>\nLiu Q, Han HC<\/strong> (2012). Mechanical buckling of arteries under pulsatile pressure. J Biomech<\/em>. 45(7):1192-1198.[abstract]<\/a><\/td>\n<\/tr>\n
69.<\/strong><\/td>\n\u00a0Hayman DM, Xiao Y, Yao Q, Jiang ZL, Lindsey ML, Han HC<\/strong> (2012). Alterations in pulse pressure affect artery function. Cell <\/em>& Mol<\/em> Bioeng<\/em> 5(4):474-487.[abstract]<\/a><\/td>\n<\/tr>\n
70.<\/strong><\/td>\nYang T, Chiao YA, Wang Y, Voorhees A, Han HC<\/strong>, Lindsey ML, Jin YF (2012). Mathematical modeling of left ventricular geometry changes in aging mice, BMC Systems Biology<\/em>, 6(Suppl 3): S10.<\/td>\n<\/tr>\n
71.<\/strong><\/td>\nLiu Q, Han HC<\/strong> (2013). Mechanical buckling of arterioles in collateral development. J Theor Biol<\/em>, 316: 42-48. [abstract]<\/a><\/td>\n<\/tr>\n
72.<\/strong><\/td>\nHayman DM, Zhang J, Liu Q, Xiao Y. Han HC<\/strong> (2013). Smooth muscle contraction increases the critical buckling pressure of arteries. J Biomech<\/em> 46(4):841-4.[abstract]<\/a><\/td>\n<\/tr>\n
73.<\/strong><\/td>\nMa Y, Halade GV, Zhang J, Ramirez TA, Levin D, Voorhees A, Jin YF, Han HC<\/strong>, Manicone AM, and Lindsey ML (2013). Matrix metalloproteinase-28 deletion exacerbates cardiac dysfunction and rupture following myocardial infarction in mice by inhibiting M2 macrophage activation. Circ<\/em> Res <\/em>112(4):675-688.[abstract]<\/a><\/td>\n<\/tr>\n
74.<\/strong><\/td>\nHan HC<\/strong>, Chesnutt JKW, Garcia JR, Liu Q, Wen Q (2013). Artery buckling: new phenotypes, models and applications. (Invited review) Ann Biomed Eng<\/em> 41(7):1399-1410.[abstract]<\/a>.<\/td>\n<\/tr>\n
75.<\/strong><\/td>\nGarcia JR, Lamm SD, Han HC<\/strong> (2013). Twist buckling behavior of arteries. Biomech<\/em> Model Mechanobiol<\/em> 12(5): 915-927.[abstract]<\/a><\/td>\n<\/tr>\n
76.<\/strong><\/td>\nChesnutt JKW, Han HC (2013). Platelet size and density affect shear-induced thrombosis formation in tortuous arterioles. Physical Biology<\/em> 10(5):056003.[abstract]<\/a><\/td>\n<\/tr>\n
77.<\/strong><\/td>\nChesnutt JKW, Han HC<\/strong> (2013). Effect of red blood cells on platelet activation and thrombus formation in tortuous arterioles. Frontiers Bioeng Biotech<\/em>. 1:18 (1-12), Dec 3, 2013. [abstract]<\/a><\/td>\n<\/tr>\n
78<\/strong><\/td>\nGrimes KM, Voorhees A, Chiao YA, Han HC<\/strong>, Lindsey ML, Buffenstein R (2014). Cardiac function of the naked mole-rat: ecophysiological responses to working underground. Am J Physiol<\/em>.- Heart Circ Physiol<\/em>. 306(5):H730-7. [abstract]<\/a><\/td>\n<\/tr>\n
79<\/strong><\/td>\nVoorhees A. Han HC<\/strong> (2014). A model to determine the effect of collagen fiber alignment on heart function post myocardial infarction. J Theoretical Biol Model<\/em> 11:6 (1-19). [abstract]<\/a><\/td>\n<\/tr>\n
80.<\/strong><\/td>\nYabluchanskiy A, Ma Y, Chiao YA, Lopez EF, Voorhees AP, Toba H, Hall ME, Han HC<\/strong>, Lindsey ML, Jin YF (2014). Cardiac aging is initiated by matrix metalloproteinase-9 mediated endothelial dysfunction. Am J Physiol.<\/em> 306(10):H1398-407[abstract]<\/a><\/td>\n<\/tr>\n
81.<\/strong><\/td>\nZhang J, Liu Q, Han HC<\/strong> (2014). An in vivo<\/em> animal model of artery buckling for studying wall remodeling. Ann Biomed Eng<\/em> 42(8): 1658-1667.[abstract]<\/a><\/td>\n<\/tr>\n
82.<\/strong><\/td>\nLiu Q, Wen Q, Mottahedi M, Han HC<\/strong> (2014). Artery buckling analysis using four-fiber wall model. J Biomech <\/em>47(11): 2790-2796.<\/em> [abstract]<\/a><\/td>\n<\/tr>\n
83.<\/strong><\/td>\nXiao Y, Hayman D, Khalafvand SS, Lindsey ML, Han HC<\/strong> (2014). Artery buckling stimulated cell proliferation in associated with NF-\u03baB activation. Am J Physiol \u2013Heart Circ Physiol. <\/em>307(4): H542-H551. [abstract]<\/a><\/td>\n<\/tr>\n
84.<\/strong><\/td>\nGu X, Jiang J, Wu L, Yang Y, Zhang P, Han HC<\/strong>, Jiang Z, Qi Y (2014). The role of FOXO1 on cyclic stretch induced proliferation of vascular smooth muscle cells during hypertension. J Med Biomech<\/em> [Chinese] 29(5): 440-446.<\/td>\n<\/tr>\n
85.<\/strong><\/td>\nLee AY, Sanyal A. Shadfan R, Xiao Y, Han HC<\/strong> (2014). Mechanical instability of normal and aneurismal arteries. J Biomech<\/em> 47: 3868-3875. [abstract]<\/a><\/td>\n<\/tr>\n
86.<\/strong><\/td>\nChesnutt JKW, Han HC<\/strong> (2015). Simulation of the microscopic process during initiation of stent thrombosis. Comput<\/em> Biol Med<\/em> 56:182-191. [abstract]<\/a> (open access)<\/td>\n<\/tr>\n
87.<\/strong><\/td>\nSanyal A, Han HC<\/strong> (2015). Artery buckling affects the mechanical stress in atherosclerotic plaques. Biomed Eng Online<\/em> 14(Suppl 1): S4:1-10. [abstract]<\/a> (open access)<\/td>\n<\/tr>\n
88.<\/strong><\/td>\nKhalafvand SS, Han HC<\/strong> (2015), Stability of carotid artery under steady state and pulsatile blood flow: A fluid-structure interaction study. ASME J Biomech Eng<\/em>. 137(6): 061007. [abstract]<\/a><\/td>\n<\/tr>\n
89.<\/strong><\/td>\nLuetkemeyer CM, James RH, Devarakonda ST, Le VP, Liu Q, Han HC<\/strong>, Wagenseil J (2015). Critical buckling pressures in mouse arteries with altered elastic fibers. J Mech Behav Biomed Mater <\/em>46: 69-82. [abstract]<\/a><\/td>\n<\/tr>\n
90.<\/strong><\/td>\nVoorhees AP, DeLeon-Pennell KY, Ma Y, Halade GV, Yabluchanskiy A, Iyer RP, Flynn E, Cates CA, Lindsey ML, Han HC<\/strong> (2015). Building a better infarct: Modulation of collagen cross-linking to increase infarct stiffness and reduce left ventricular dilation post-myocardial infarction. J Mol Cell Cardiol<\/em> 85:229-239. [abstract]<\/a><\/td>\n<\/tr>\n
91.<\/strong><\/td>\nWang G, Xiao Y, Voorhees AP, Qin YX, Jiang Z, Han HC<\/strong> (2015). Vascular responses of arteries under twisting load. Ann Biomed Eng<\/em> 43(8):1738-47. [abstract]<\/a><\/td>\n<\/tr>\n
92.<\/strong><\/td>\nVoorhees AP. Han HC<\/strong> (2015). Biomechanics of Cardiac Function. (Invited review). Comprehensive Physiol<\/em>. 5:1623\u20131644. [abstract]<\/a><\/td>\n<\/tr>\n
93.<\/strong><\/td>\nHuang K, Yan ZQ, Zhao D, Chen SG, Gao LZ, Zhang P, Shen BR, Han HC<\/strong>, Qi YX, Jiang ZL (2015). SIRT1 and FOXO mediate contractile differentiation of vascular smooth muscle cells under cyclic stretch. Cell Physiol Biochem<\/em>. 37(5): 1817-1829. [abstract]<\/a><\/td>\n<\/tr>\n
94.<\/strong><\/td>\nQi N, Gao H, Ogden RW, Holzapfel GA, Han HC<\/strong>, Luo XY (2015). Investigation of the optimal collagen fibre orientation in human iliac arteries. J Mech Behavior Biomed Mat<\/em> 52: 108-119. [abstract]<\/a><\/td>\n<\/tr>\n
95.<\/strong><\/td>\nChesnutt JKW, Han HC<\/strong> (2016). Computational simulation of platelet interactions in the initiation of stent thrombosis due to stent malapposition. Phys Biol<\/em> 13(1):016001. [abstract]<\/a><\/td>\n<\/tr>\n
96.<\/strong><\/td>\nYabluchanskiy A, Ma Y, DeLeon-Pennell KY, Altara R, Halade GV, Voorhees AP, Nguyen NT, Jin YF, Winniford MD, Hall ME, Han HC<\/strong>, Lindsey ML (2016). Myocardial Infarction Superimposed on Aging: MMP-9 Deletion Promotes M2 Macrophage Polarization. J Gerontol A Biol Sci Med Sci.<\/em> 71(4):475-83. Apr 2016. [abstract]<\/a><\/td>\n<\/tr>\n
97.<\/strong><\/td>\nMottahedi M, Han HC<\/strong> (2016). Artery buckling analysis using two layered model with collagen dispersion. J Mech Behavior Biomed Mat<\/em> 60: 515\u2013524. [abstract]<\/a><\/td>\n<\/tr>\n
98.<\/strong><\/td>\nXiao Y, Liu Q, Han HC<\/strong> (2016). Buckling reduces eNOS production and stimulates extracellular matrix remodeling in arteries in ex vivo organ culture. Ann Biomed Eng<\/em>. 44(9):2840-50. [abstract]<\/a><\/td>\n<\/tr>\n
99.<\/strong><\/td>\nHan HC, Liu Q, Jiang ZL (2016). Mechanical Behavior and Wall Remodeling of Blood Vessels under Axial Twist (Invited review). J Med Biomech, <\/em>31(4):319-326.<\/em> [abstract]<\/a><\/td>\n<\/tr>\n
100.<\/strong><\/td>\nAlagarsamy K, Fortier A, Kumar N, Mohammad A, Banerjee S, Han HC<\/strong>, Mishra RS (2016). Computational modeling of stent implant procedure and comparison of different stent materials. J Biomed Eng Res<\/em>. 1: 101.<\/td>\n<\/tr>\n
101.<\/strong><\/td>\nFatemiFar F, Han HC (2016). Effect of axial stretch on lumen collapse of arteries. J Biomech Eng<\/em>. 138(12), 124503. [abstract]<\/a>.<\/td>\n<\/tr>\n
102.<\/strong><\/td>\nAlagarsamy K, Fortier A, Komarasamy M, Mishra R, Mohammad A, Banerjee S, Han HC<\/strong> (2016). Mechanical properties of High Entropy Alloy Al0.1CoCrFeNi for Peripheral Vascular Stent Application. Cardiovasc<\/em> Eng & Tech<\/em>. 7(4): 448-454. [abstract]<\/a><\/td>\n<\/tr>\n
103.<\/strong><\/td>\nHalaney DL, Sanyal A, Nafissi NA, Escobedo D, Goros M, Michalek J, Acevedo PJ, P\u00e9rez W, Escobar GP, Feldman MD, Han HC<\/strong> (2017). The importance of trabeculae carneae for left ventricular diastolic compliance: improvement in compliance with trabecular cutting. J Biomech Eng<\/em>. 139 (3):031012 (p 1-8)<\/td>\n<\/tr>\n
104.<\/strong><\/td>\nYang H, Fortier A, Horne K, Mohammad A, Banerjee S, Han HC<\/strong> (2017), Investigation of Stent Implant Mechanics Using Linear Analytical and Computational Approach. Cardiovascular Eng<\/em> Tech<\/em>. 8(1):81-90.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n\n\n\n\n\n
105.<\/strong><\/td>\nGarcia JR, Sanyal A, FatemiFar F, Mottahedi M, Han HC<\/strong> (2017). Twist mechanical properties and twist buckling of veins. J Biomech<\/em> 58: 123-130.<\/td>\n<\/tr>\n
106.<\/strong><\/td>\nWang GL, Wang LY, Yang SX, Chen XH, Yao QP, Gong XB, Qi YX, Jiang ZL, Han HC<\/strong> (2017). Rat arterial wall remodeling under sustained twist. J Biomech<\/em>: 60:124-133.<\/td>\n<\/tr>\n
.<\/strong><\/td>\n<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

 <\/p>\n","protected":false},"excerpt":{"rendered":"

Peer-Reviewed Journal Papers and Book Chapters 1. Chen ST, Han HC (1987). The Fourier eign transform. Chinese J Appl. Mech.\u00a0 4(1):33-37.[Abstract] 2. Han HC (1989). The linear increase law of optimum age of scientific creativity. Scientometrics. 15(3-4):309-312. [Abstract] 3. Han HC, Fung YC(1991). Residual strain in porcine and canine trachea. J Biomech. 24(5): 307-315.[Abstract] 4. … <\/p>\n

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