Amygdaloid

Mandel-gummi, n. almond gum. -kem, m. almond kernel, -milch, /. almond milk, (Pharm.) emulsion of almond, -ol, n. almond oil. -saure, /. mandelic acid, -s ureamid, n. mandelamide. -seife, /. almond soap, -stein, m. amygdaloid tonsillar concretion. [Pg.287]

Mandel-stoff, m. amygdalin. -storax, m. amygdaloid storax. [Pg.287]

Fig. 8.1 Rostrocaudal neuroanatomical distribution of CCR5-immunoreactivity in the telencephalon, diencephalon and mesencephalon using a CCR5 antibody (Santa Cruz Biotechnology, Santa Cruz, CA, USA). Regions corresponding to pictures are depicted in coronal diagrams taken from the Paxinos and Watson (1998). (a, b) M Motor cortex, (c, d) CPu caudate putamen (striatum), (e,t)SID substantia innominata dorsal part, (g, h) GP globus pallidus, (i, j)Me medial amygdaloid...

Ichikawa M. (1988). Plasticity of intra-amygdaloid connections following the denervation of fibres from accessory olfactory bulb to medial amygdaloid nucleus in adult rat. Brain Res 451, 248-254. [Pg.213]

Ichikawa M. and Oka Y. (1988). Increase of LHRH immunoreactive fibres in medial amygdaloid nucleus after removal of accessory olfactory bulb. Zoo/ Sci (Tokyo) 5, 1300-1312. [Pg.214]

Rasia A., Londero R. and Achaval M. (1999). Effects of gonadal hormones on the morphology of neurons from the medial amygdaloid nucleus of rats. Brain Res Bull 48, 173-183. [Pg.239]

Chang CK, Lin MT. DL-Tetrahydropalmatine may act through inhibition of amygdaloid release of dopamine to inhibit an epileptic attack in rats. Neurosci Lett 2001 307 163-166. [Pg.165]

Takahashi, L. K. and Gladstone, C. D. (1988) Medial amygdaloid lesions and the regulation of sociosexual behavioral patterns across the estrous cycle in female golden hamsters. Behav. Neurosci. 102, 268-75. [Pg.239]

Wright, C.I., Beijer, A.V.J. and Groenewegen, H.J. (1996) Basal amygdaloid complex afferents to the rat nucleus accumbens are compartmentally organized. J. Neurosci. 16, 1877-1893. [Pg.270]

Wood, R,I, and Coolen, L.M. (1997) Integration of chemosensory and hormonal cues is essential for sexual behaviour in the male Syrian hamster role of the medial amygdaloid nucleus, Neuroscience 78, 1027-35. [Pg.378]

Corcoran ME, McCaughran JA Jr, Wada JA. (1978). Antiepileptic and prophylactic effects of tetrahydrocannabinols in amygdaloid kindled rats. Epilepsia. 19(1) 47-55. [Pg.557]

Wada JA, Osawa T, Corcoran ME. (1975). Effects of tetrahydrocannabinols on kindled amygdaloid seizures and photogenic seizures in Senegalese baboons, Papio papio. Epilepsia. 16(3) 439-48. [Pg.567]

Protein identified by IHC in the ventral pallidum, cerebral cortex, the amygdaloid area, the nucleus of the diagonal band, others of rat brain (Shinoda et al., 1989). Less activity in human fetal brain than other tissues assayed by pH] release from 1-androstenedione into water (Doody and Carr, 1989). [Pg.51]

Found by IHC in amygdaloid structures, supraoptic nucleus, reticular thalamic nucleus, olfactory tract and piriform cortex, less so in the paraventricular and arcuate nuclei and hippocampus of rat (Sanghera et al., 1991). [Pg.51]

Protein in neurons of rat medial amygdaloid nucleus by IHC. Enzyme activity in fetal rat brain competitively inhibited by dopamine and norepinephrine (Jimbo et al., 1998). [Pg.51]

Roozendaal B, McGaugh JL. 1996. Amygdaloid nuclei lesions differentially affect glucocorticoid-induced memory enhancement in an inhibitory avoidance task. Neurobiol Learn Mem 65(1) 1-8. [Pg.253]

The long length fibres link the ventral tegmental and substantia nigra dopamine-containing cells with the neostriatum (mainly the caudate and the putamen), the limbic cortex (the medial prefrontal, cingulate and entorhinal areas) and with limbic structures such as the septum, nucleus accumbens, amygdaloid complex and piriform cortex. These projections are... [Pg.68]

From the accessory bulb, projections lead to the medial nuclei and posteri-omedial portion of the cortical nuclei of the amygdala. The amygdala in turn is connected to higher centers via the stria terminalis, and hypothalamic structures. Thus, the accessory olfactory system represents a neural pathway separate from the main olfactory system. Both project into absolutely different parts of the amygdaloids (Powers and Winans, 1975 Powers etal, 1979). [Pg.103]

Goosens KA, Maren S (2002) Long-term potentiation as a substrate for memory evidence from studies of amygdaloid plasticity and Pavlovian fear conditioning. Hippocampus 12 592-599... [Pg.28]

Tang J, Wagner S, Schachner M, Dityatev A, Wotjak CT (2003) Potentiation of amygdaloid and hippocampal auditory evoked potentials in a discriminatory fear-conditioning task in mice as a function of tone pattern and context. Eur J Neurosci 18 639-650 Thomas E (1988) Forebrain mechanisms in the relief of fear the role of the lateral septum. Psychobiology 16 36-44... [Pg.33]

Gray TS (1990) Amygdaloid CRF pathways role in autonomic, neuroendocrine, and behavioral responses ot stress. In De Souza EB, Nemeroff CB (eds) Annals of the New York Academy of Sciences. Corticotropin-releasing factor and cytokines Proceedings of the Hans Selye Symposium on Nemoendocrinology and Stress, vol 697. New York Academy of Sciences, New York, pp 53-60... [Pg.64]

Van Bockstaele EJ, Colago EE, Valentino RJ (1998) Amygdaloid corticotropin-releasing factor targets locus coeruleus dendrites substrate for the co-ordination of emotional and cognitive limbs of the stress response. J Neuroendocrinol 10 743-757... [Pg.140]

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