0092-8240/02/020423 + 01
$35.00/0
(7.2.1)
(7.2.2)
(7.1.1)
(7.1.3)
(7.1.3)
(7.1.4)
(7.1.5)
(6.2.1)
ν3 = 1.28 µM−1
γ1 = 4.0
γ2 = 4.0
γ1 = 2.0
γ2 = 1.5
θ = 0.056 h−1
ν3 = 1.28 µM−1
λ3 = 19.0 µM−1 h−1
α2 = 1.0 µM
β2 = 0.1 µM
α2 = 1.0 µM
β2 = 0.5 µM
A2 = 44.13 µM−1
v0 = 4.0 µM mm h−1
Trel = +∞
µ = 4.56 h−1
ν1 = 0.007 µM−1
νe = 1.7 × 103 µM−1
Trel = +∞
νe = 1.7 × 103 µM−1
µ = 4.56 h−1
Explanatory notes are given in Appendix B.
Some of the constants used in Table 2 differ slightly from those used in Tables 3–6.
ν1 = 0.007 µM−1
T f = 18.0 h
ν2 = 0.014 µM−1
Trel = 1.0 h
λ1 = 73.0 µM−1 h−1
ν2 = 0.014 µM−1
λ2 = 146.0 µ M−1 h−1
Trel = 1.0 h
λ3 = 19.0 µM−1 h−1
F0 = 1.0 × 10−2 µM
α1 = 0.1 µM
β1 = 1.0 µM
D N = 3.6 × 10−6 mm2 h−1 α1 = 0.1 µM
= 1.40
β1 = 1.0 µM
λ = 1.1 × 10−9 µM−2
m1 = 2
µ1 = 0.005 h−1
Ca0 = 10−4 µM
A1 = 0.0
B1 = 1.0/ h
Ar = 10.0 µM h−1
Tiv = T1
Ar = 250.0 µM h−1
ψ1 = 0.3
f 1 = 0.60 µM
ψ = 2.0 mm h−1
ψ 0 = 2.0 mm h−1
θ 0 = 0.0 mm h−1
m 0 = 12
δ = 0.0
(5.1.1) λ1 = 73.0 µM−1 h−1
f 0 = 1.0 × 10−2 µM
λ2 = 146.0 µM−1 h−1
(5.1.2) νe = 1.0 µM−1
(5.2.1) DV = 3.6 × 10−3 mm2 h−1
Vr (x, y, t) = 0.0 µM h−1
D A = 6.5 × 10−3 mm2 h−1
(5.2.2) νe = 1.0 µM−1
TF = 18.0 h
D F = 3.6 × 10−8 mm2 h−1
(6.1.1) Dη = 3.6 × 10−6 mm2 h−1
Table 2. Physiological and kinetic constants.
424
Bulletin of Mathematical Biology (2002) 64, 423
doi:10.1006/bulm.2002.0294
Available online at http://www.idealibrary.com on
Erratum
Levine, H. A., S. Pamuk, B. D. Sleeman and M. Nilsen-Hamilton (2001).
Mathematical Modeling of Capillary Formation and Development in Tumor Angiogenesis: Penetration into the Stroma. Bull. Math. Biol. 63, 801–863, doi:10.1006/
bulm.2001.0240.
This paper was published in the above issue of Bulletin of Mathematical Biology
but Table 2 was inadvertently printed incorrectly. The correct version is printed
here. Academic Press apologizes for this error.
c 2002 Society for Mathematical Biology