Biomedical Engineering Reference
In-Depth Information
Acknowledgments
The authors are indebted to their collaborators Vicencio Davila,
Amiram Grinvald, Kohtaro Kamino, Les Loew, Bill Ross, Brian
Salzberg, Dejan Vucinic, Alan Waggoner, Matt Wachowiak, and
Jian-young Wu for numerous discussions about optical methods.
The experiments carried out in our laboratories were supported
by NIH grants DC05259 and NS42739, Deutsche Forschungs-
gemeinschaft (SFB 391 and SFB 596) and the Bundesminis-
terium fur Bildung und Forschung (NGFN-2).
References
1. Cohen L.B., Salzberg B.M. (1978). Opti-
cal measurement of membrane potential. Rev
Physiol Biochem Pharmacol, 83, 35-88.
2. Loew L.M., Cohen L.B., Salzberg B.M.,
Obaid A.L., Bezanilla F. (1985). Charge-
shift probes of membrane potential. Char-
acterization of aminostyrylpyridinium dyes
on the squid giant axon. Biophys J, 47,
71-77.
3. Gupta R.K., Salzberg B.M., Grinvald A.,
Cohen L.B., Kamino K., Lesher S., Boyle
M.B., Waggoner A.S., Wang C.H. (1981).
Improvements in optical methods for mea-
suring rapid changes in membrane potential.
J. Membr. Biol., 58, 123-137.
4. Waggoner A.S., Grinvald A. (1977). Mech-
anisms of rapid optical changes of potential
sensitive
uation of optimal voltage-sensitive dyes for
optical measurement of embryonic neural
activity. J Memb. Biology, 144, 167-176.
10. Zecevic D. (1996). Multiple spike-initiation
zones in single neurons revealed by voltage-
sensitive dyes. Nature. 381: 322-325.
11. Palmer L.M., Stuart G.J. (2006) Site of
action potential initiation in layer 5 pyra-
midal
neurons.
J
Neurosci.
2006
Feb
8;26(6):1854-63.
12. Canepari M., Djurisic M., Zecevic D. (2007)
Dendritic signals from rat hippocampal
CA1 pyramidal neurons during coincident
pre- and post-synaptic activity: a combined
voltage-
and
calcium-imaging
study.
J
Physiol. 580:463-484.
13. Neher E., Augustine G.J. (1992) Calcium
gradients and buffers in bovine chromaffin
cells. J Physiol. 450:273-301.
14. Helmchen F., Imoto K., Sakmann, B (1996)
Ca
2
+
buffering and action potential-evoked
Ca
2
+ signaling in dendrites of pyramidal
neurons. Biophys. J. 70:1069-1081.
15. Stuart G.J., Sakmann B. (1994). Active
propagation of somatic action potentials into
neocortical pyramidal cell dendrites. Nature
367, 69-72.
16. Spruston N., Schiller Y., Stuart G., Sak-
mann B. (1995). Activity-dependent action
potential invasion and calcium influx into
hippocampal CA1 dendrites. Science 268,
297-300.
17. Magee J.C., Johnston D. (1995). Synaptic
activation of voltage-gated channels in the
dendrites of hippocampal pyramidal neurons.
Science, 268, 301-304.
18. Magee J.C., Christofi G., Miyakawa H.,
Christie B., Lasser-Ross N., Johnston D.
(1995). Subthreshold synaptic activation
of voltage-gated calcium channels mediate
a
dyes.
Annu
NY
Acad
Sci,
303,
217-241.
5. Fromherz P., Dambacher K.H., Ephardt
H., Lambacher A., Muller C.O., Neigl R.,
Schaden H., Schenk O., Vetter T. (1991).
Fluorescent dyes as probes of voltage
transients in neuron membranes: Progress
report. Ber. Bunsenges. Phys. Chem., 95,
1333-1345.
6. Cohen L.B., Lesher, S. (1986). Optical
monitoring of membrane potential: methods
of multisite optical measurement. Soc Gen
Physiol Ser, 40, 71-99.
7. Grinvald A., Frostig R.D., Lieke E.,
Hildesheim R. (1988) Optical imaging of
neuronal activity. Physiological Reviews. 68:
1285-1366.
8. Nakashima M., Yamada S., Shiono S.,
Maeda M., Satoh F. (1992) 448-detector
Optical Recording System: Development
and application to
Aplysia
gill-withdrawal
reflex. IEEE Trans Biomed Eng. 39: 26-36.
9. Momose-Sato Y., Sato K., Sakai T., Hirota
A., Matsutani K., Kamino, K. (1995). Eval-
localized
calcium
influx
into
dendrites
