Biomedical Engineering Reference
In-Depth Information
47. Skobe, M., Hawighorst, T., Jackson, D.G., Prevo, R., Janes, L., Velasco, P., Riccardi, L.,
Alitalo, K., Claffey, K., Detmar, M.: Induction of tumor lymphangiogenesis by VEGF-C
promotes breast cancer metastasis. Nat. Med. 7(2), 192-198 (2001)
48. Stacker, S.A., Achen, M.G., Jussila, L., Baldwin, M.E., Alitalo, K.: Lymphangiogenesis and
cancer metastasis. Nat. Rev. Cancer 2, 573-583 (2002)
49. Suga, H., Sagawa, K.: Mathematical interrelationship between instantaneous ventricular
pressure-volume
ratio
and
myocardial
force-velocity
relation.
Ann.
Biomed.
Eng.
1,
160-181 (1972)
50. Suga, H., Sagawa, K.: Instantaneous pressure-volume relations and their ratio in the excised,
supported canine left ventricle. Circ. Res. 35, 117-126 (1974)
51. Suga, H., Sagawa, K., Shoukas, A.A.: Load independence of the instantaneous pressure-
volume ratio of the canine left ventricle and effects of epinephrine and heart rate on the ratio.
Circ. Res. 32, 314-322 (1973)
52. Swartz, M.A., Fleury, M.E.: The physiology of the lymph system. Ann. Rev. Biomed. Eng. 9,
229-256 (2007)
53. Swartz, M.A., Kaipainen, A., Netti, P.A., Boucher, Y., Grodzinsky, A.J., Jain, R.K.:
Mechanics of interstitial-lymphatic fluid transport: theoretical foundation and experimental
validation. J. Biomech. 32, 1297-1307 (1999)
54. Trzewik, J., Mallipattu, S.K., Artmann, G.M., Delano, F.A., Schmid-Schönbein, G.W.:
Evidence for a second valve system in lymphatics: endothelial microvalves. FASEB J. 15,
1711-1717 (2001)
55. Venugopal, A.M., Quick, C.M., Laine, G.A., Stewart, R.H.: Optimal postnodal lymphatic
network structure that maximizes active propulsion of lymph. Am. J. Physiol. Heart Circ.
Physiol. 296, H303-H309 (2009)
56. Venugopal,
A.M.,
Stewart,
R.H.,
Laine,
G.A.,
Dongaonkar,
R.M.,
Quick,
C.M.:
Lymphangion
coordination
minimally
affects
mean
flow
in
lymphatic
vessels.
Am.
J. Physiol. Heart Circ. Physiol. 293, H1183-H1189 (2007)
57. Venugopal, A.M., Stewart, R.H., Laine, G.A., Quick, C.M.: Nonlinear lymphangion
pressure-volume relationship minimizes edema. Am. J. Physiol. Heart Circ. Physiol. 299,
H876-H882 (2010)
58. Weller, H.G., Tabor, G., Jasak, H., Fureby, C.: A tensorial approach to computational
continuum mechanics using object orientated techniques. Comput. Phys. 12(6), 620-631
(1998)
59. Young, P.G., Beresford-West, T.B.H., Coward, S.R.L., Notarberardino, B., Walker, B.,
Abdul-Aziz, A.: An efficient approach to converting 3D image data into highly accurate
computational models. Phil. Trans. R. Soc. A 366, 3155-3173 (2008)
60. Zawieja, D.C.: Contractile physiology of lymphatics. Lymphat. Res. Biol. 7(2), 87-96 (2009)
61. Zweifach, B.W., Prather, J.W.: Micromanipulation of pressure in terminal lymphatics in the
mesentery. Am. J. Physiol. 288(5), 1326-1331 (1975)
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