Biomedical Engineering Reference
In-Depth Information
stimulation of the rat.
J. Neurosci
.
2
6, 8409-
8416 (2006).
11. Gurden, H., Uchida, N., & Mainen, Z.F.
Sensory-evoked intrinsic optical signals in the
olfactory bulb are coupled to glutamate release
and uptake.
Neuron
5
2, 335-345 (2006).
12. Logothetis, N.K. The Underpinnings of the
BOLD Functional Magnetic Resonance Imag-
ing
uli in rat olfactory bulb by dynamic func-
tional MRI.
Proc. Natl. Acad. Sci. U. S. A
9
7,
10601-10606 (2000).
26. Kida, I., Xu, F., Shulman, R.G., & Hyder,
F. Mapping at glomerular resolution: fMRI
of rat olfactory bulb.
Magn Reson. Med
.
4
8,
570-576 (2002).
27. Schafer, J.R., Kida, I., Xu, F., Rothman, D.L.,
& Hyder, F. Reproducibility of odor maps by
fMRI in rodents.
Neuroimage
.
3
1, 1238-1246
(2006).
28. Wachowiak, M. & Cohen, L.B. Representa-
tion of odorants by receptor neuron input
to the mouse olfactory bulb.
Neuron
3
2,
723-735 (2001).
29. Spors, H., Wachowiak, M., Cohen, L.B.,
& Friedrich, R.W. Temporal dynamics and
latency patterns of receptor neuron input to
the olfactory bulb.
J. Neurosci
.
2
6, 1247-1259
(2006).
30. Wachowiak, M., Denk, W., & Friedrich, R.W.
Functional organization of sensory input to
the olfactory bulb glomerulus analyzed by
two-photon calcium imaging.
Proc Natl Acad
Sci U S A
1
01, 9097-9102 (2004).
31. Spors, H. & Grinvald, A. Spatio-temporal
dynamics of odor representations in the mam-
malian olfactory bulb.
Neuron
3
4, 301-315
(2002).
32. Rubin, B.D. & Katz, L.C. Optical imag-
ing of odorant representations in the mam-
malian olfactory bulb.
Neuron
2
3, 499-511
(1999).
33. Uchida, N., Takahashi, Y.K., Tanifuji, M., &
Mori, K. Odor maps in the mammalian olfac-
tory bulb: Domain organization and odorant
structural features.
Nat. Neurosci
.
3
, 1035-
1043 (2000).
34. Belluscio, L. & Katz, L.C. Symmetry, stereo-
typy, and topography of odorant representa-
tions in mouse olfactory bulbs.
J. Neurosci
.
2
1,
2113-2122 (2001).
35. Luo, M. & Katz, L.C. Response correlation
maps of neurons in the mammalian olfactory
bulb.
Neuron
3
2, 1165-1179 (2001).
36. Meister, M. & Bonhoeffer, T. Tuning and
topography in an odor map on the rat olfac-
tory bulb.
J. Neurosci
.
2
1, 1351-1360 (2001).
37. Yuan, Q., Harley, C.W., McLean, J.H., &
Knopfel, T. Optical imaging of odor prefer-
ence memory in the rat olfactory bulb.
J. Neu-
rophysiol
.
8
7, 3156-3159 (2002).
38. Imamura, K., Mataga, N., & Mori, K. Cod-
ing of odor molecules by mitral/tufted cells in
rabbit olfactory bulb. I. Aliphatic compounds.
J. Neurophysiol
.
6
8, 1986-2002 (1992).
39. Katoh, K., Koshimoto, H., Tani, A., & Mori,
K. Coding of odor molecules by mitral/tufted
cells in rabbit olfactory bulb. II. Aromatic
Signal.
J.
Neurosci
.
2
3,
3963-3971
(2003).
13. Iadecola, C. & Nedergaard, M. Glial regu-
lation of the cerebral microvasculature.
Nat
Neurosci
1
0, 1369-1376 (2007).
14. Zonta, M.
et al
. Neuron-to-astrocyte signal-
ing is central to the dynamic control of brain
microcirculation.
Nat.
Neurosci
.
6
,
43-50
(2003).
15. Cauli, B.
et al
. Cortical GABA interneurons
in neurovascular coupling: Relays for sub-
cortical vasoactive pathways.
J. Neurosci
.
2
4,
8940-8949 (2004).
16. Mulligan, S.J. & MacVicar, B.A. Calcium tran-
sients in astrocyte endfeet cause cerebrovas-
cular
constrictions.
Nature
4
31,
195-199
(2004).
17. Filosa, J.A., Bonev, A.D., & Nelson, M.T. Cal-
cium dynamics in cortical astrocytes and arteri-
oles during neurovascular coupling.
Circ. Res
.
9
5, e73-e81 (2004).
18. Metea, M.R. & Newman, E.A. Glial cells
dilate and constrict blood vessels: A mecha-
nism of neurovascular coupling.
J. Neurosci
.
2
6, 2862-2870 (2006).
19. Filosa, J.A.
et al
. Local potassium signaling
couples neuronal activity to vasodilation in the
brain.
Nat. Neurosci
.
9
, 1397-1403 (2006).
20. Rancillac, A.
et al
. Glutamatergic Control of
Microvascular Tone by Distinct GABA Neu-
rons
in
the
Cerebellum.
J.
Neurosci
.
2
6,
6997-7006 (2006).
21. Vassar, R.
et al
. Topographic organization of
sensory projections to the olfactory bulb.
Cell
7
9, 981-991 (1994).
22. Ressler, K.J., Sullivan, S.L., & Buck, L.B.
Information coding in the olfactory system:
Evidence for a stereotyped and highly orga-
nized epitope map in the olfactory bulb.
Cell
7
9, 1245-55 (1994).
23. Nagao, H., Yoshihara, Y., Mitsui, S., Fujisawa,
H., & Mori, K. Two mirror-image sensory
maps with domain organization in the mouse
main olfactory bulb.
Neuroreport
1
1, 3023-
3027 (2000).
24. Yang, X.
et al
. Dynamic mapping at the lam-
inar level of odor-elicited responses in rat
olfactory bulb by functional MRI.
Proc. Natl.
Acad. Sci. U. S. A
9
5, 7715-7720 (1998).
25. Xu, F., Kida, I., Hyder, F., & Shulman, R.G.
Assessment and discrimination of odor stim-