scholarly journals Precise Temporal Responses in Whisker Trigeminal Neurons

2004 ◽  
Vol 92 (1) ◽  
pp. 665-668 ◽  
Author(s):  
Lauren M. Jones ◽  
SooHyun Lee ◽  
Jason C. Trageser ◽  
Daniel J. Simons ◽  
Asaf Keller
Keyword(s):  
Trigeminal Ganglion ◽  
Neural Representation ◽  
Stimulus Information ◽  
Robust Coding ◽  
Complex Stimuli ◽  
Trigeminal Neurons ◽  
Response Profiles ◽  
Trigeminal Ganglion Neurons ◽  
Ganglion Neurons ◽  
Spike Patterns

The ability of rats using their whiskers to perform fine tactile discrimination rivals that of humans using their fingertips. Rats must perform these discriminations rapidly and accurately while palpating the environment with their whiskers. This suggests that whisker-derived inputs produce a robust and reliable code, capable of capturing complex, high-frequency information. The first neural representation of whisker-derived stimulus information is in primary afferent neurons of the trigeminal ganglion. Here we demonstrate that there is a continuum of direction-dependent response profiles in trigeminal neurons and provide the first quantitative analysis of the encoding of complex stimuli by these neurons. We show that all classes of trigeminal ganglion neurons respond with highly reproducible temporal spike patterns to transient stimuli. Such a robust coding mechanism may allow rapid perception of complex tactile features.

Effects of WIN 55, 212-2 onI K current in cultured trigeminal ganglion neurons of rat

2005 ◽  
Vol 25 (2) ◽  
pp. 124-126
Author(s):  
Ming Zhangyin ◽  
Tan Yan ◽  
Fu Hui ◽  
Cao Xuehong ◽  
Pan Jianping ◽  
...  
Keyword(s):  
Trigeminal Ganglion ◽  
K Current ◽  
Trigeminal Ganglion Neurons ◽  
Ganglion Neurons ◽  
Win 55

Capsaicin and nicotine both activate a subset of rat trigeminal ganglion neurons

1996 ◽  
Vol 270 (6) ◽  
pp. C1807-C1814 ◽  
Author(s):  
L. Liu ◽  
S. A. Simon
Keyword(s):  
Trigeminal Ganglion ◽  
Acetylcholine Receptors ◽  
Ganglion Cells ◽  
Whole Cell Patch Clamp ◽  
Current Voltage ◽  
Trigeminal Ganglion Neurons ◽  
Ganglion Neurons ◽  
Relationship Of ◽  
Current Voltage Relationship ◽  
Voltage Relationship

Nicotine and capsaicin produce many similar physiological responses that include pain, irritation, and vasodilation. To determine whether neuronal nicotine acetylcholine receptors (nAChR) are present on capsaicin-sensitive neurons, whole cell patch-clamp recordings were performed on rat trigeminal ganglion cells. It was found that approximately 20% of the total number of neurons tested was activated by both 100 microM nicotine and 1 nM capsaicin. Other subsets of neurons were activated by only one of these compounds, whereas a fourth subset was not activated by either compound. At -60 mV, the magnitude of the capsaicin-activated currents was about three times larger than the magnitude of the nicotine-activated currents. The current-voltage relationship of the nAChR exhibited marked rectification, such that for voltages > or = 0 mV the current was essentially zero. In contrast, the current-voltage relationship of the capsaicin-activated current was ohmic from +/- 60 mV. These data indicate the existence of subsets of capsaicin-sensitive afferent neurons.

Pathophysiology of trigeminal neuralgia: new evidence from a trigeminal ganglion intraoperative microneurographic recording

2004 ◽  
Vol 101 (5) ◽  
pp. 872-873 ◽  
Author(s):  
Kim J. Burchiel ◽  
Thomas K. Baumann
Keyword(s):  
Trigeminal Neuralgia ◽  
Trigeminal Ganglion ◽  
Physiological Mechanism ◽  
Vascular Compression ◽  
Entry Zone ◽  
Content Type ◽  
Root Entry Zone ◽  
Trigeminal Ganglion Neurons ◽  
Ganglion Neurons ◽  
New Evidence

✓ The origin of trigeminal neuralgia (TN) appears to be vascular compression of the trigeminal nerve at the root entry zone; however, the physiological mechanism of this disorder remains uncertain. The authors obtained intraoperative microneurographic recordings from trigeminal ganglion neurons in a patient with TN immediately before percutaneous radiofrequency-induced gangliolysis. Their findings are consistent with the idea that the pain of TN is generated, at least in part, by an abnormal discharge within the peripheral nervous system.

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