Biomedical Engineering Reference
In-Depth Information
47.
Rutishauser, R. (1998) Plastochrone
ratio and leaf arc as parameters of
a quantitative phyllotaxis analysis in
vascular plants, in
Symmetry in Plants
,
WS Series in Mathematical Biology and
Medicine, vol. 4 (eds R.V. Jean and D.
Barabe), (Series editors P.M. Auger and
R.V. Jean), World Scientific Publishers,
pp. 171- 212.
61.
Ross, M.H., Romrell, L.J., and Kaye,
G.I. (1995)
Histology: A Text and At-
las
, 3rd edn, Williams & Wilkins,
Baltimore.
62.
Ross, M.H. and Pawlina, W. (2006)
Histology: A Text and Atlas, with Cor-
related Cell and Molecular Biology
,
Lippincott Williams & Wilkins, Hager-
stown, MD.
48.
Atela, P. and Gole, C. (2007)
Phyllotaxis
http://maven.smith.
edu/
∼
phyllo/About/math.html
.
63.
Gray, H. (1918)
Anatomy of the Human
Body
, Lea & Febiger, Philadelphia. Also
(2010)
http://www.bartleby.com/107/
.
49.
Thompson D'Arcy, W. (1917, 1942)
On Growth and Form
,Cambridge
University Press.
64.
Gray, H. (2008)
Gray's Anatomy:
The Anatomical Basis of Clini-
cal Practice
, 40th edn, Elsevier,
Churchill-Livingstone.
50.
Rivier, N. and Lissowski, A. (1982)
J.
Phys. A: Math. Gen.
,
15
(3), L143- L148.
65.
Downey, P.A. and Siegel, M.I. (2006)
Phys. Ther.
,
86
(1), 77- 91.
51.
Hofmeister, W.F.B. (1868) Allgemeine
Morphologie der Gewachse,
Handbuch
der Physiologischen Botanik
,vol.1,Part
2, Wilhelm Engelmann, Leipzig, pp.
405- 664.
66.
Bochenek, A. (1924)
Anatomia
cz
ł
owieka
, tom 2, wyd.IV, Nakładem
Polskiej Akademii Umiej˛tnosci,
Krakow.
Wojnar, R. (2009) Strains in tissue
development: a vortex description, in
More Progresses in Analysis
,
Proceedings
of the 5th International ISAAC Congress,
Catania, Italy, 25-30 July 2005
(eds
H.G.W. Begehr and F. Nicolosi), World
Scientific, New Jersey, London, Singa-
pore, Beijing, Shanghai, Hong Kong,
Taipei, Chennai, pp. 1271- 1281.
52.
67.
National Center for Biotech-
nology Information (2004)
http://www.ncbi.nlm.nih.gov/About/
primer/genetics_cell.html
.
68.
Connective Tissue (2010)
http://training.seer.cancer.gov/module_
anatomy/unit2_2_body_tissues2_conne-
ctive.html
.
69.
Marino, Th.A., Lamperti, A.A.,
and Sodicoff, M. (2000) Connec-
tive Tissue Web Book, Temple
University School of Medicine,
http://astro.temple.edu/
53.
Newell, A.C., Shipman, P.D., and Sun,
Z. (2008)
Plant Signal Behav.
,
3
(8),
586- 589.
54.
Gebhardt, W. (1911) Knochenbildung
und Colloidchemie.
Arch. Entwickl.
Mech.
,
32
, 727-734.
∼
sodicm/
labs/CtWeb/sld004.htm
.
70.
Strum, J.M., Gartner, L.P., and Hiatt,
J.L. (2007)
Cell Biology and Histol-
ogy
, Lippincott Williams & Wilkins,
Hagerstwon, MD.
55.
Counce, S.J. (1994)
Dev. Genes. Evol.
,
204
(2), 79- 92.
56.
Giraud-Guille, M.M. (1988)
Calcif.
Tissue Int.
,
42
, 167- 180.
71.
McLean, F.C. (1955)
Sci. Am.
,
192
(2),
84.
Erickson, R.O. (1998) Phyllotactic
symmetry in plant growth, in
Sym-
metry in Plants
(eds R.V. Jean and D.,
Barabe), World Scientific, Singapore,
pp. xvii-xxvi.
57.
Bone Development and Growth
http://training.seer.cancer.gov/module_
anatomy/unit3_3_bone_growth
.
72.
73.
School of Anatomy and Human Bi-
ology The University of Western
Australia Blue Histology - Skeletal
Tissues - Bone (2009)
http://
www.lab.anhb.uwa.edu.au/mb140/
CorePages/Bone/Bone.htm
.
58.
Dumais, J. and Kwiatkowska, D. (2002)
Plant J.
,
31
(2), 229- 241.
59.
Gibson, M.C., Patel, A.B., Nagpal, R.,
and Perrimon, N. (2006)
Nature
,
442
,
1038- 1041.
60.
Farhadifar, R., Roper, J.-Ch., Aigouy,
B., Eaton, S., and Julicher, F. (2007)
Curr. Biol.
,
17
(24), 2095- 2104.
74.
National Cancer Institute, SEER Train-
ing Modules: Classification of Bones
