- Luo L (2009) Entropy production in a cell
and reversal of entropy flow as an anticancer
therapy. Front Phys China 4:122–136
- Lucia U, Ponzetto A (2017) Some thermody-
namic considerations on low frequency elec-
tromagnetic waves effects on cancer invasion
and metastasis. Physica A 467:289–295
- Kim S, Lahmy R, Riha C, Yang C, Jakubison
BL, van Niekerk J, Itkin-Ansari P (2015) The
basic helix-loop-helix transcription factor E47
reprograms human pancreatic cancer cells to a
quiescent acinar state with reduced tumori-
genic potential. Pancreas 44(5):718–727
- Aceto N, Toner M, Maheswaran S, Haber DA
(2015) En route to metastasis: circulating
tumor cell clusters and epithelial-to-mesen-
chymal transition. Trends Cancer 1(1):44–52
- Norton L (2005) Conceptual and practical
implications of breast tissue geometry: toward
a more effective, less toxic therapy. Oncologist
10:370–381
- D’Anselmi F, Valerio M, Cucina A, Galli L,
Proietti S, Dinicola S, Pasqualato A,
Manetti C, Ricci G, Giuliani A, Bizzarri M
(2011) Metabolism and cell shape in cancer:
a fractal analysis. Int J Biochem Cell Biol 43
(7):1052–1058
- Luo L et al (2006) Physicochemical attack
against solid tumors based on the reversal of
direction of entropy flow: an attempt to intro-
duce thermodynamics in anticancer therapy.
Diagn Pathol 1(1):43
- Gatenby RA, Gillies RJ (2004) Why do can-
cers have high aerobic glycolysis? Nat Rev
Cancer 4(11):891–899
- Lucia U, Ponzetto A, Deisboeck TS (2016)
Constructal approach to cell membranes
transport: amending the ‘Norton-Simon’
hypothesis for cancer treatment. Sci Rep
6:19451
- De Berardinis R, Lum JJ, Hatzivassiliou G,
Thompson CB (2008) The biology of cancer:
metabolic reprogramming fuels cell growth
and proliferation. Cell Metab 7:11–20
- Nieto-Villar JM, Izquierdo-Kulich E, Quin-
tana Gonza ́lez RL, Rieumont J (2013) Una
aproximacio ́n del criterio evolutivo de Prigo-
gine a sistemas quı ́micos. Revista Mexicana de
Fı ́sica 59:527–529
- Betancourt-Mar JA, Rodrıguez-Ricard M,
Mansilla R, Cocho G, Nieto-Villar JM
(2016) Entropy production: evolution cri-
teria, robustness and fractal dimension. Rev
Mex Fis 62:164–167
- Llanos-Pe ́rez J, Betancourt-Mar J, Cocho G,
Mansilla R, Nieto-Villar JM (2016) Phase
transitions in tumor growth: III Vascular and
metastasis behavior. Physica A 462:560–568
- Seyfried TN, Flores RE, Poff AM, D’Agostino
DP (2014) Cancer as a metabolic disease:
implications for novel therapeutics. Carcino-
genesis 35(3):515–527
- Molnar J (2005) Thermodynamic aspects of
cancer: possible role of negative entropy in
tumor growth, its relation to kinetic and
genetic resistance. Lett Drug Des Discov
26:429–438
- Wagner BA, Venkataraman S, Buettner GR
(2011) The rate of oxygen utilization by
cells. Free Radic Biol Med 51:700–712
- Marı ́n-Herna ́ndez A, Gallardo JC,
Rodrı ́guez S, Encalada R, Moreno R, Saave-
dra E (2011) Modeling cancer glycolysis. Bio-
chim Biophys Acta Bioenerg 1807
(6):755–767
- Moreno-Sa ́nchez R (2014) Who controls the
ATP supply in cancer cells? Biochemistry les-
sons to understand cancer energy metabolism.
Int J Biochem Cell Biol 50:10–23
- Collins VP, Loeffler RK, Tivey H (1956)
Observations on growth rates of human
tumors. J Roentgenol Radium Ther Nucl
Med 76:988–1000
- Leibniz-Institut DSMZ Deutsche Sammlung
von Mikroorganismen und Zellkulturen
GmbH (2014) Catalogue of human and ani-
mal cell lines
- Netherlands Translational Research Center
B.V. (NTRC) Oncolines
- American Type Culture Collection (ATCC)
ATCC Human cell lines
- Reeves R, Edberg DD, Li Y (2001) Architec-
tural transcription factor HMGI(Y) promotes
tumor progression and mesenchymal transi-
tion of human epithelial cells. Mol Cell Biol
21(2):575–594
- Nunez AM, Jakolev S, Briand JP, Gaire M,
Krust A, Rio MC, Chamon P (1987) Charac-
terization of the estrogen-induced pS2 pro-
tein secreted by the human breast cancer cell
line MCF-7. Endocrinology 121:1759–1765
- Totpal K, Aggarwal BB (1991) Interleukin
4 potentiates the antiproliferative effects of
tumor necrosis factor on various tumor cell
lines1. Cancer Res 51:4266–4270
- Chi TY, Chen CG, Lai PB (2004) Eicosapen-
taenoic acid induces Fas-mediated apoptosis
through a p53-dependent pathway in hepa-
toma cells. Cancer J 10:190–200
- Hoosein NM (1991) Involvement of uroki-
nase and its receptor in the invasiveness of
human prostatic carcinoma cell lines. Cancer
Commun 3(8):255–264
Parameters Estimation in Phase-Space Landscape Reconstruction of Cell Fate... 167