the fractal dimension, and the tumor growth rate. A common
property of invasive cancers is their altered glucose metabolism.
The glycolytic rate in cultured cell lines seems to correlate with
tumor aggressiveness [78]. That an increase in proliferation and a
reduction in apoptosis trigger a maximum of ATP consumption by
the tumor cells has been already confirmed [79]. The tumor meta-
bolome—mainly characterized by the glycolytic phenotype—con-
fers an advantage to the evolving cancer cell population and
contributes to their tissue invasion and the metastasis
spreading [80].
The dissipation function could be evaluated through Eq. (29)
from the data reported by Bru ́[38] for different tumors cell lines
(seeTable2).
During the avascular development the growth rate remains
constant [35], it can be proved from Eq. (29) that the metabolic
rate exhibits a maximum with respect to the fractal dimensions (see
Fig.6).
As other authors have suggested, the thermodynamic dissipa-
tive function is correlated with both the glucose metabolism and
cell shape [76]. We suggest that the latter could interfere with the
metabolic pathways.
In previous works [26, 81, 82] we have shown that the rate of
entropy production is a Lyapunov function (seeEq. ( 18)), in fact we
extended this formalism to the development of cancer [21, 22, 49,
83 ]. The dissipation function is related to the entropy production
rate through Eq. (29), showing that the dissipation function
Ψ¼f ξ_;df
0 is a function of the fractal dimensiondfand of
tumor growth rateξ_. Taking the Eulerian derivative of Eq. (12), we
haveTable 2
Dissipation function for different human tumor cell lines,T¼310 K ,R¼8.31 J/mol K. Reprinted
from [22]
Human tumor cell linesGrowth ratea
ξ_ μm
h
dfaMetabolic rate
q_GlkJμm
molhAT5 Primary human foreskin fibroblasts Human 8.72 1.23 11.97
C-33a Cervix carcinoma Human 6.40 1.25 8.46
HT-29 Colon adenocarcinoma Human 1.93 1.13 2.98
HT-29 M6 Mucus secreting HT-29 cells Human 1.85 1.12 2.88
HeLa Cervix carcinoma Human 1.34 1.30 1.64
Saos-2 Osteosarcoma Human 0.94 1.34 1.09
a[38]
144 Sheyla Montero et al.