| [1] | World Health Organization. Available: http://www.who.int/mediacentre/factsheet?s/fs297/en/index.html. Accessed 2012 Jan 24.
|
| [2] | Baxter LT, Jain RK (1989) Transport of fluid and macromolecules in tumors: I. role of interstitial pressure and convection. Microvascular Research 37: 77–104.
|
| [3] | Baxter LT, Jain RK (1990) Transport of fluid and macromolecules in tumors ii. role of heterogeneous perfusion and lymphatics. Microvascular Research 40: 246–263.
|
| [4] | Baxter LT, Jain RK (1991) Transport of fluid and macromolecules in tumors iii. role of binding and metabolism. Microvascular Research 41: 5–23.
|
| [5] | Chapman SJ, Shipley RJ, Jawad R (2008) Multiscale modeling of fluid transport in tumors. Bulletin of Mathematical Biology 70: 2334–2357.
|
| [6] | Eikenberry S (2009) A tumor cord model for doxorubicin delivery and dose optimization in solid tumors. Theoretical biology and Medical Modelling 6: 16.
|
| [7] | Shipley RJ, Chapman SJ (2010) Multiscale modelling of fluid and drug transport in vascular tumours. Bulletin of Mathematical Biology 72: 1464–1491.
|
| [8] | Boas D, Jones S, Devor A, Huppert T, Dale A (2008) A vascular anatomical network model of the spatiotemporal response to brain activation. NeuroImage 40: 1116–1129.
|
| [9] | Reichold J, Stampanoni M, Keller AL, Buck A, Jenny P, et al. (2009) Vascular graph model to simulate the cerebral blood flow in realistic vascular networks. Journal of Cerebral Blood Flow & Metabolism 29: 1429–1443.
|
| [10] | Guibert R, Fonta C, Plouraboue F (2010) Cerebral blood flow modeling in primate cortex. Journal of Cerebral Blood Flow & Metabolism 30: 1860–1873.
|
| [11] | Lorthois S, Cassot F, Lauwers F (2011) Simulation study of brain blood flow regulation by intra-cortical arterioles in an anatomically accurate large human vascular network: Part i: Methodology and baseline flow. NeuroImage 54: 1031–1042.
|
| [12] | Lorthois S, Cassot F, Lauwers F (2011) Simulation study of brain blood flow regulation by intra-cortical arterioles in an anatomically accurate large human vascular network. part ii: Flow variations induced by global or localized modifications of arteriolar diameters. NeuroImage 54: 2840–2853.
|
| [13] | Shijubo N, Kojima H, Nagata M, Ohchi T, Suzuki A, et al. (2003) Tumor angiogenesis of non-small cell lung cancer. Microscopy Research and Technique 60: 186–198.
|
| [14] | Renkin E, Goresky C, Groom A, Rose C, Lundgren O, et al. (1984) HANDBOOK OF PHYSIOLOGY Section 2: The Cardiovascular System Volume IV. Microcirculation, Part 2. American Physiological Society.
|
| [15] | Jardins TD (2008) Cardiopulmonary Anatomy & Physiology - Essentials of Respiratory Care. Cengage Learning.
|
| [16] | Schmidt R, Lang F (2007) Physiologie des Menschen - mit Pathophysiologie. Springer, 30. edition.
|
| [17] | Lipowsky HH, Usami S, Chien S (1980) In vivo measurements of apparent viscosity and microvessel hematocrit in the mesentery of the cat. Microvascular Research 19: 297–319.
|
| [18] | Pries AR, Neuhaus D, Gaehtgens P (1992) Blood viscosity in tube flow: dependence on diameter and hematocrit. AMERICAN JOURNAL OF PHYSIOLOGY 263: H1770–H1778.
|
| [19] | Li CW, Cheng HD (1993) A nonlinear fluid model for pulmonary blood circulation. Journal of Biomechanics 6: 653–664.
|
| [20] | Lüllmann H, Mohr K, Hein L (2004) Taschenatlas Pharmakologie. Stuttgart: Thieme, 5. edition.
|
| [21] | Tuma RF, Duran WN, Ley K, editors. (2008) Microcirculation. Academic Press.
|
| [22] | Bear J (1972) Dynamics of Fluids in Porous Media. Courier Dover Publications.
|
| [23] | Bachmann D, Bumle R, Baraka-Lokmane S, Brauchler R, Dietrich P, et al. (2005) Flow and Transport in Fractured Porous Media. Springer.
|
| [24] | Serikov VB (1991) Porous phase model of the lung interstitial fluid motion. Microvascular Research 42: 1–16.
|
| [25] | Weibel ER (1991) Fractal geometry: a design principle for living organisms. AMERICAN JOURNAL OF PHYSIOLOGY 261: L361–L369.
|
| [26] | Baish JW, Netti PA, Jain RK (1997) Transmural coupling of fluid flow in microcirculatory network and interstitium in tumors. Microvascular Research 53: 128–141.
|
| [27] | Muthuchamy M, Zawieja D (2008) Molecular regulation of lymphatic contractility. Ann NY Acad Sci 1131: 89–99.
|
| [28] | Jain RK (1998) Delivery of molecular and cellular medicine to solid tumors. Journal of Controlled Release 53: 49–67.
|
| [29] | Bongrand P (1999) Ligand-receptor interactions. Rep Prog Phys 62: 921–968.
|
| [30] | Beard DA, Wu F, Cabrera ME, Dash RK (2008) Modeling of cellular metabolism and microcirculatory transport. Microcirculation 15: 777–793.
|
| [31] | Formaggia L, Quarteroni A, Veneziani A (2009) Cardiovascular Mathematics - Modelling and simulation of the circulatory system. Springer-Verlag.
|
| [32] | Vankan WJ, Huyghe JM, Janssen JD, Huson A, Hacking WJG, et al. (1997) Finite element analysis of blood flow through biological tissue. International Journal of Engineering Science 35: 375–385.
|
| [33] | Weibel ER (1963) Morphometry of the Human Lung. Springer-Verlag.
|
| [34] | Kurbel S, Kurbel B, Belovari T, Mari? S, Steiner R, et al. (2001) Model of interstitial pressure as a result of cyclical changes in the capillary wall fluid transport. Medical Hypotheses 57: 161–166.
|
| [35] | Jain R (1987) Transport of molecules across tumor vasculature. Cancer and Metastasis Reviews 6: 559–593.
|
| [36] | Horsfield K (1978) Morphometry of the small pulmonary arteries in man. Circulation Research 42: 593–597.
|
| [37] | Horsfield K, Gordon WI (1981) Morphometry of pulmonary veins in man. Lung 159: 211–218.
|
| [38] | Huang W, Yen RT, McLaurine M, Bledsoe G (1996) Morphometry of the human pulonary vasculature. Journal of Applied Physiology 81: 2123–2133.
|
| [39] | Singhal S, Henderson R, Horsfield K, Harding K, Cumming G (1973) Morphometry of the human pulmonary arterial tree. Circulation Research 33: 190–197.
|
| [40] | Baish JW, Gazit Y, Berk DA, Nozue M, Baxter LT, et al. (1996) Role of tumor vascular architecture in nutrient and drug delivery: An invasion percolation-based network model. Microvascular Research 51: 327–346.
|
| [41] | Jang S, Wientjes M, Lu D, Au J (2003) Drug delivery and transport to solid tumors. Pharmaceutical Research 1337–1350.
|
| [42] | Negrini D, Passi A (2007) Interstitial matrix and transendothelial fluxes in normal lung. Respiratory Physiology and Neurobiology 159: 301–310.
|
| [43] | Effors R (1984) Pulmonary microcirculation and exchange. In: Renkin EM, Michel C, Geiger S, editors. Handbook of Physiology. American Physiological Society, volume IV.
|
| [44] | Helmig R (1997) Multiphase Flow and Transport Processes in the Subsurface - A Contribution to the Modeling of Hydrosystems. Springer-Verlag.
|
| [45] | Flemisch B, Darcis M, Erbertseder K, Faigle B, Lauser A, et al. (2011) Dumux: Dune for multi-(phase, component, scale, physics, …) flow and transport in porous media. Advances in Water Resources 34: 1102–1112.
|
| [46] | Obrist D, Weber B, Buck A, Jenny P (2010) Red blood cell distribution in simplified capillary networks. PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES 368: 2897–2918.
|
| [47] | Reichold J (2011) Cerebral Blood Flow Modeling. Ph.D. thesis, ETH Zurich.
|
| [48] | Baber K (2009) Modeling the Transfer of Therapeutic Agents from the Vascular Space to the Tissue Compartment (a Continuum Approach). Master's thesis, Universit?t Stuttgart.
|
| [49] | Sugihara-Seki M, Fu B (2005) Blood flow and permeability in microvessels. Fluid Dynamic Research 37: 82–132.
|
| [50] | Lowe G (1987) Blood rheology in vitro and in vivo. Bailliere's Clinical Haematology 1: 597–636.
|
| [51] | Liepsch D (1987) Str?mungsuntersuchungen an Modellen menchlicher Blutgef??-Systeme. Reihe 7: Stroemungsmechanik. Dsseldorf: VDI Verlag.
|
| [52] | Swabb EA, Wei J, Gullino PM (1974) Diffusion and convection in normal and neoplastic tissues. Cancer Research 34: 2814–2822.
|
| [53] | Jain R (1987) Transport of molecules in the tumor interstitium: A review. Cancer Research 47: 3039–3051.
|
| [54] | Brown B, Primhak R, Smallwood R, Milnes P, Narracott A, et al. (2002) Neonatal lungs: maturational changes in lung resistivity spectra. Medical & Biological Engineering & Computation 40: 506–511.
|
| [55] | Pluen A, Boucher Y, Ramanujan S, McKee T, Gohongi T, et al. (2001) Role of tumor-host interactions in interstitial diffusion of macromolecules: Cranial vs. subcutaneous tumors. Proceedings of the National Academy of Sciences 98: 4628–4633.
|
| [56] | Renkin E (1978) Transport pathways through capillary endothelium pathways. Microvascular Research 15: 123–135.
|
| [57] | Pishko GL, Astary GW, Mareci TH, Sarntinoranont M (2011) Sensitivity analysis of an image-based solid tumor computational model with heterogeneous vasculature and porosity. Annals of Biomedical Engineering 39: 2360–2373.
|
