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Items: 1 to 50 of 87

1.

GABAA receptor subunit mRNA expression in cultured embryonic and adult human dorsal root ganglion neurons.

Maddox FN, Valeyev AY, Poth K, Holohean AM, Wood PM, Davidoff RA, Hackman JC, Luetje CW.

Brain Res Dev Brain Res. 2004 Apr 19;149(2):143-51.

PMID:
15063094
2.

Subarachnoid hemorrhage or migraine?

Evans RW, Davidoff RA.

Headache. 2001 Jan;41(1):99-101.

PMID:
11168612
3.

Pentobarbital-activated Cl(-) channels in cultured adult and embryonic human DRG neurons.

Valeyev AY, Hackman JC, Holohean AM, Wood PM, Davidoff RA.

Brain Res Dev Brain Res. 2000 Nov 30;124(1-2):137-40.

PMID:
11113523
4.

Alphaxalone activates a Cl- conductance independent of GABAA receptors in cultured embryonic human dorsal root ganglion neurons.

Valeyev AY, Hackman JC, Holohean AM, Wood PM, Katz JL, Davidoff RA.

J Neurophysiol. 1999 Jul;82(1):10-5.

5.

GABA-Induced Cl- current in cultured embryonic human dorsal root ganglion neurons.

Valeyev AY, Hackman JC, Holohean AM, Wood PM, Katz JL, Davidoff RA.

J Neurophysiol. 1999 Jul;82(1):1-9.

6.

On headache and the neck.

Davidoff RA.

Cephalalgia. 1999 Apr;19(3):135-6. No abstract available.

PMID:
10234459
7.
8.

Trigger points and myofascial pain: toward understanding how they affect headaches.

Davidoff RA.

Cephalalgia. 1998 Sep;18(7):436-48. Review.

PMID:
9793695
9.
10.

Pharmacologically novel GABA receptor in human dorsal root ganglion neurons.

Valeyev AY, Hackman JC, Wood PM, Davidoff RA.

J Neurophysiol. 1996 Nov;76(5):3555-8.

PMID:
8930293
11.
12.

Modulation of frog spinal cord interneuronal activity by activation of 5-HT3 receptors.

Holohean AM, Hackman JC, Davidoff RA.

Brain Res. 1995 Dec 18;704(2):184-90.

PMID:
8788913
14.

Properties of ibogaine and its principal metabolite (12-hydroxyibogamine) at the MK-801 binding site of the NMDA receptor complex.

Mash DC, Staley JK, Pablo JP, Holohean AM, Hackman JC, Davidoff RA.

Neurosci Lett. 1995 Jun 2;192(1):53-6.

PMID:
7675310
15.

Activation of alpha-adrenoceptors indirectly facilitates sodium pumping in frog motoneurons.

Shope SB, Hackman JC, Holohean AM, Davidoff RA.

Brain Res. 1993 Dec 10;630(1-2):207-13.

PMID:
7509707
16.

Skeletal muscle tone and the misunderstood stretch reflex.

Davidoff RA.

Neurology. 1992 May;42(5):951-63. Review.

PMID:
1579249
17.
18.

Serotonin1A facilitation of frog motoneuron responses to afferent stimuli and to N-methyl-D-aspartate.

Holohean AM, Hackman JC, Shope SB, Davidoff RA.

Neuroscience. 1992;48(2):469-77.

PMID:
1351269
19.

Aspects of spinal cord structure and reflex function.

Davidoff RA, Hackman JC.

Neurol Clin. 1991 Aug;9(3):533-50. Review.

PMID:
1921945
20.
21.

Serotonin and GABA-induced depolarizations of frog primary afferent fibers.

Gharagozloo A, Holohean AM, Hackman JC, Davidoff RA.

Brain Res. 1990 Nov 5;532(1-2):19-24.

PMID:
2178032
22.

An in vitro study of the effects of serotonin on frog primary afferent terminals.

Holohean AM, Hackman JC, Davidoff RA.

Neurosci Lett. 1990 May 31;113(2):175-80.

PMID:
2143002
23.

The pyramidal tract.

Davidoff RA.

Neurology. 1990 Feb;40(2):332-9. Review. No abstract available.

PMID:
2405296
24.

Changes in membrane potential of frog motoneurons induced by activation of serotonin receptor subtypes.

Holohean AM, Hackman JC, Davidoff RA.

Neuroscience. 1990;34(3):555-64.

PMID:
2141111
25.

The dorsal columns.

Davidoff RA.

Neurology. 1989 Oct;39(10):1377-85. Review. No abstract available.

PMID:
2552351
26.

NMDA antagonists and potentiation of NMDA-induced motoneuron depolarizations in the isolated frog spinal cord.

Zhang DX, Hackman JC, Davidoff RA.

Brain Res. 1989 Jul 24;493(1):129-35.

PMID:
2570616
27.

Monoamines and extracellular potassium concentration in the amphibian spinal cord.

Davidoff RA, Holohean AM, Gharagozloo A, Hackman JC.

Acta Physiol Scand Suppl. 1989;582:52. No abstract available.

PMID:
2816444
28.

Excitotoxicity, reflex responses, and evoked changes in extracellular potassium in the frog spinal cord.

Zhang DX, Hackman JC, Davidoff RA.

Comp Biochem Physiol C. 1989;92(2):205-10.

PMID:
2565181
29.

Excitatory transmitters, ventral root potentials and [K+]o in the isolated frog leg-spinal cord preparation.

Holohean AM, Vega JL, Hackman JC, Davidoff RA.

Neurosci Lett. 1988 Dec 19;95(1-3):173-8.

PMID:
2465509
30.

Primary afferent activity, putative excitatory transmitters and extracellular potassium levels in frog spinal cord.

Davidoff RA, Hackman JC, Holohean AM, Vega JL, Zhang DX.

J Physiol. 1988 Mar;397:291-306.

31.

After-hyperpolarizations produced in frog motoneurons by excitatory amino acid analogues.

Hackman JC, Holohean AM, Wohlberg CJ, Davidoff RA.

Brain Res. 1987 Mar 24;407(1):94-101.

PMID:
3034375
32.
33.

Analysis of the responses of frog motoneurons to epinephrine and norepinephrine.

Wohlberg CJ, Davidoff RA, Hackman JC.

Neurosci Lett. 1986 Aug 29;69(2):150-5.

PMID:
3763041
34.

Effects of barium on isolated frog spinal cord.

Hackman JC, Ryan GP, Wohlberg CJ, Davidoff RA.

Comp Biochem Physiol C. 1986;85(1):49-56.

PMID:
2877804
35.

Potential changes of frog afferent terminals in response to dopamine.

Ryan GP, Hackman JC, Wohlberg CJ, Davidoff RA.

Brain Res. 1985 Mar 4;328(2):283-90.

PMID:
3157424
36.
37.

Antispasticity drugs: mechanisms of action.

Davidoff RA.

Ann Neurol. 1985 Feb;17(2):107-16. Review.

PMID:
2858176
38.

Spontaneous dorsal root potentials arise from interneuronal activity in the isolated frog spinal cord.

Ryan GP, Hackman JC, Wohlberg CJ, Davidoff RA.

Brain Res. 1984 Jun 3;301(2):331-41.

PMID:
6203611
39.

Spinal seizures and excitatory amino acid-mediated synaptic transmission.

Ryan GP, Hackman JC, Davidoff RA.

Neurosci Lett. 1984 Feb 10;44(2):161-6.

PMID:
6324051
40.

Prolonged 13 c+post-tetanic depolarization of frog dorsal root fibers.

Davidoff RA, Hackman JC.

Neuroscience. 1983 May;9(1):235-43. No abstract available.

PMID:
6308506
41.

Catecholamine effects on frog dorsal root terminals.

Ryan GP, Hackman JC, Wohlberg CJ, Davidoff RA.

Neurosci Lett. 1983 Mar 28;36(1):63-8.

PMID:
6856204
42.

Studies of neurotransmitter actions (GABA, glycine, and convulsants).

Davidoff RA.

Res Publ Assoc Res Nerv Ment Dis. 1983;61:53-85. Review. No abstract available.

PMID:
6133327
43.

GABA 'desensitization' of frog primary afferent fibers.

Hackman JC, Auslander D, Grayson V, Davidoff RA.

Brain Res. 1982 Dec 16;253(1-2):143-52.

PMID:
6295548
44.

Excitatory amino acids and potassium release in the frog spinal cord.

Hackman JC, Ryan GP, Davidoff RA.

Neurosci Lett. 1982 Dec 13;33(3):289-93.

PMID:
6131397
45.

The presynaptic effects of valproic acid in the isolated frog spinal cord.

Hackman JC, Grayson V, Davidoff RA.

Brain Res. 1981 Sep 14;220(2):269-85.

PMID:
6116514
46.

Amino acids and presynaptic inhibition.

Davidoff RA.

Adv Biochem Psychopharmacol. 1981;29:249-55. Review. No abstract available.

PMID:
7020366
47.
48.

Amino acid antagonists do not block the depolarizing effects of potassium ions on frog primary afferents.

Davidoff RA, Hackman JC, Osorio I.

Neuroscience. 1980;5(1):117-26. No abstract available.

PMID:
6768000
49.

gamma-Hydroxybutyric acid is not a GABA-mimetic agent in the spinal cord.

Osorio I, Davidoff RA.

Ann Neurol. 1979 Aug;6(2):111-6.

PMID:
227319
50.

GABA or potassium: which mediates primary afferent depolarization?

Osorio I, Hackman JC, Davidoff RA.

Brain Res. 1979 Jan 26;161(1):183-6. No abstract available.

PMID:
215276

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