| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| H Bao, R M Bradley, C M Mistrett. Development of intrinsic electrophysiological properties in neurons from the gustatory region of rat nucleus of solitary tract. Brain research. Developmental brain research. vol 86. issue 1-2. 1995-10-05. PMID:7656407. |
therefore, we used whole cell recordings in an in vitro slice preparation of the rat brainstem to characterize development of resting membrane, action potential and repetitive discharge properties of cells in gustatory nst at postnatal days 5, 10, 15, 20, and 30, and adult ages. |
1995-10-05 |
2023-08-12 |
rat |
| K C Berridge, S Peciñ. Benzodiazepines, appetite, and taste palatability. Neuroscience and biobehavioral reviews. vol 19. issue 1. 1995-07-06. PMID:7770192. |
in studies of the effect of benzodiazepines on affective reactions that are naturally elicited from rats by tastes, we have shown that (a) benzodiazepines enhance hedonic taste palatability in a receptor-specific fashion; (b) the relevant receptors and the minimal neural circuitry required to mediate benzodiazepine-induced palatability enhancement both exist complete in the decerebrate brain stem; and (c) even in normal brains, receptors in the brain stem, not forebrain, are the primary substrate for the benzodiazepine-induced enhancement of taste palatability. |
1995-07-06 |
2023-08-12 |
human |
| K C Berridge, S Peciñ. Benzodiazepines, appetite, and taste palatability. Neuroscience and biobehavioral reviews. vol 19. issue 1. 1995-07-06. PMID:7770192. |
we conclude that a 'benzodiazepine-gaba' neural system in the brain stem constitutes an important component of the neural hierarchy responsible for taste pleasure. |
1995-07-06 |
2023-08-12 |
human |
| D V Smith, H Liu, M B Vog. Neural coding of aversive and appetitive gustatory stimuli: interactions in the hamster brain stem. Physiology & behavior. vol 56. issue 6. 1995-04-06. PMID:7878090. |
neural coding of aversive and appetitive gustatory stimuli: interactions in the hamster brain stem. |
1995-04-06 |
2023-08-12 |
Not clear |
| D V Smith, H Liu, M B Vog. Neural coding of aversive and appetitive gustatory stimuli: interactions in the hamster brain stem. Physiology & behavior. vol 56. issue 6. 1995-04-06. PMID:7878090. |
there is increasing evidence, both electrophysiological and behavioral, that bitter and sweet stimuli drive parallel pathways in the gustatory brainstem. |
1995-04-06 |
2023-08-12 |
Not clear |
| D V Smith, H Liu, M B Vog. Neural coding of aversive and appetitive gustatory stimuli: interactions in the hamster brain stem. Physiology & behavior. vol 56. issue 6. 1995-04-06. PMID:7878090. |
these results imply that aversive and appetitive stimuli produce mutual inhibition in the gustatory system; studies of the chorda tympani nerve response suggest that this inhibition likely arises within the brainstem. |
1995-04-06 |
2023-08-12 |
Not clear |
| D V Smith, H Liu, M B Vog. Neural coding of aversive and appetitive gustatory stimuli: interactions in the hamster brain stem. Physiology & behavior. vol 56. issue 6. 1995-04-06. PMID:7878090. |
a second line of investigation, using both an in vitro brainstem slice preparation and in vivo pharmacological manipulations of cells in the hamster nst, has demonstrated an inhibitory network within the rostral nst that plays a role in the modulation of taste activity. |
1995-04-06 |
2023-08-12 |
Not clear |
| M Takemura, S Wakisaka, A Yoshida, Y Nagase, Y C Bae, Y Shigenag. NADPH-diaphorase in the spinal trigeminal nucleus oralis and rostral solitary tract nucleus of rats. Neuroscience. vol 61. issue 3. 1994-12-27. PMID:7526270. |
these results show that nadph-diaphorase-positive neurons in the lower brainstem could be regulated trans-synaptically by primary afferents, possibly gustatory inputs. |
1994-12-27 |
2023-08-12 |
rat |
| C M Mistretta, S E Labya. Maturation of neuron types in nucleus of solitary tract associated with functional convergence during development of taste circuits. The Journal of comparative neurology. vol 345. issue 3. 1994-10-27. PMID:7523462. |
to learn whether neuron morphology alters in concert with convergence and neurophysiological development in nst, three-dimensional neuron reconstructions were made of cells in a functionally defined region of gustatory nst from golgi preparations of the brainstem. |
1994-10-27 |
2023-08-12 |
Not clear |
| R P Erickson, P M Di Lorenzo, M A Woodbur. Classification of taste responses in brain stem: membership in fuzzy sets. Journal of neurophysiology. vol 71. issue 6. 1994-10-24. PMID:7931507. |
classification of taste responses in brain stem: membership in fuzzy sets. |
1994-10-24 |
2023-08-12 |
rat |
| J M Kaplan, R J Seeley, H J Gril. Daily caloric intake in intact and chronic decerebrate rats. Behavioral neuroscience. vol 107. issue 5. 1994-02-15. PMID:8280397. |
results suggest that, although the caudal brainstem, as previously shown (grill & kaplan, 1990), is sufficient to modulate ingestive behavior in taste reactivity and single-meal tests, it is not sufficient to regulate daily caloric intake. |
1994-02-15 |
2023-08-12 |
rat |
| N Ito, N Suzuk. [Ipsilateral gustatory disturbance by thalamic hemorrhage]. Rinsho shinkeigaku = Clinical neurology. vol 33. issue 5. 1993-10-05. PMID:8365066. |
animal studies have recently demonstrated that the gustatory pathway ascends in the brainstem ipsilaterally without crossing, and terminates in the ipsilateral lower caudal limit of the thalamus, i.e., the nucleus ventralis posteromedialis parvocellularis (vpmpc). |
1993-10-05 |
2023-08-12 |
human |
| N Ito, N Suzuk. [Ipsilateral gustatory disturbance by thalamic hemorrhage]. Rinsho shinkeigaku = Clinical neurology. vol 33. issue 5. 1993-10-05. PMID:8365066. |
some clinical reports on cases of ipsilateral gustatory disturbance caused by tegmental pontine hemorrhage have suggested that the human gustatory pathway may also ascend ipsilaterally in the brainstem. |
1993-10-05 |
2023-08-12 |
human |
| B J Davis, R M Krea. Distribution of tachykinin- and opioid-expressing neurons in the hamster solitary nucleus: an immuno- and in situ hybridization histochemical study. Brain research. vol 616. issue 1-2. 1993-09-30. PMID:7689413. |
the hamster was chosen because it is frequently used as a model in taste studies, yet there is a relative dearth of data about peptide expression or the classical neurotransmitters in the brainstem of this animal. |
1993-09-30 |
2023-08-12 |
Not clear |
| B J Davi. GABA-like immunoreactivity in the gustatory zone of the nucleus of the solitary tract in the hamster: light and electron microscopic studies. Brain research bulletin. vol 30. issue 1-2. 1993-02-12. PMID:8420636. |
because gaba is often implicated as the neurotransmitter of small inhibitory local circuit neurons, these findings indicate a possible inhibitory aspect to the processing of taste information at the level of the first relay in the brainstem. |
1993-02-12 |
2023-08-12 |
Not clear |
| M Gallo, G Roldan, J Bure. Differential involvement of gustatory insular cortex and amygdala in the acquisition and retrieval of conditioned taste aversion in rats. Behavioural brain research. vol 52. issue 1. 1993-02-01. PMID:1335264. |
it is argued that gc and am implement processing of gustatory and visceral signals, respectively, but that formation and consolidation of the cta engram proceeds outside forebrain, probably at the level of the brainstem. |
1993-02-01 |
2023-08-11 |
rat |
| M E Frank, T P Hettinger, A E Mot. The sense of taste: neurobiology, aging, and medication effects. Critical reviews in oral biology and medicine : an official publication of the American Association of Oral Biologists. vol 3. issue 4. 1992-11-25. PMID:1391417. |
neural circuits that mediate taste in primates include cranial nerves vii, ix, and x, the solitary nucleus in the brain stem, the ventroposteromedial nucleus of the thalamus, and the insular-opercular cortex. |
1992-11-25 |
2023-08-11 |
Not clear |
| T E Finger, J S Kanwa. Ascending general visceral pathways within the brainstems of two teleost fishes: Ictalurus punctatus and Carassius auratus. The Journal of comparative neurology. vol 320. issue 4. 1992-08-18. PMID:1629401. |
in general, the results indicate that general visceral systems ascend in parallel to gustatory systems within the brainstem, and that general visceral but not gustatory nuclei are immunoreactive for the peptide cgrp. |
1992-08-18 |
2023-08-11 |
Not clear |
| L E Goehler, T E Finge. Functional organization of vagal reflex systems in the brain stem of the goldfish, Carassius auratus. The Journal of comparative neurology. vol 319. issue 4. 1992-08-06. PMID:1619041. |
gustatory information from the pharynx is apparently processed in the same brain stem system as pharyngeal general visceral information, suggesting that functional or regional characteristics of visceral sensory information may be more important for brain stem processing than the traditional "special" (gustatory) versus "general" visceral dichotomy. |
1992-08-06 |
2023-08-11 |
Not clear |
| H J Grill, J M Kapla. Sham feeding in intact and chronic decerebrate rats. The American journal of physiology. vol 262. issue 6 Pt 2. 1992-08-04. PMID:1621860. |
like intact rats, decerebrate rats consumed more sucrose in the open condition but only for concentrations exceeding 0.1 m. this concentration-dependent sham sucrose intake of chronic decerebrate rats provides compelling evidence that the integration of sucrose's taste and postingestive effects that modulates ingestive behavior can be accomplished by the caudal brain stem. |
1992-08-04 |
2023-08-11 |
rat |