0.3(top 100%)
impact factor
82(top 100%)
papers
1.1K(top 50%)
citations
16(top 50%)
h-index
0.3(top 100%)
extended IF
120
all documents
1.1K
doc citations
30(top 50%)
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Top Articles

#TitleJournalYearCitations
1Chapter II The basal gangliaHandbook of Chemical Neuroanatomy1996202
2The human basal forebrain. Part IIHandbook of Chemical Neuroanatomy199982
3Chapter III Metabotropic glutamate receptors — immunocytochemical and in situ hybridization analysesHandbook of Chemical Neuroanatomy200059
4Chapter I The organization and circuits of mesencephalic dopaminergic neurons and the distribution of dopamine receptors in the brainHandbook of Chemical Neuroanatomy200559
5Chapter VI Dopamine systems in the primate brainHandbook of Chemical Neuroanatomy199744
6Chapter II Neurobiology and neuropathology of the human hypothalamusHandbook of Chemical Neuroanatomy199743
7The thalamus of primatesHandbook of Chemical Neuroanatomy199840
8The human basal forebrain. Part I. An overviewHandbook of Chemical Neuroanatomy199926
9Chapter iii Localization of angiotensin receptors in the nervous systemHandbook of Chemical Neuroanatomy200025
10Chapter 1 The cerebellum: chemoarchitecture and anatomyHandbook of Chemical Neuroanatomy199624
11Chapter VII Brain kallikrein–kinin system: from receptors to neuronal pathways and physiological functionsHandbook of Chemical Neuroanatomy200023
12Chapter VIII Primate cingulate cortex chemoarchitecture and its disruption in Alzheimer's diseaseHandbook of Chemical Neuroanatomy199720
13Chapter 1 Biochemistry and anatomy of transmitter glutamateHandbook of Chemical Neuroanatomy200020
14Neurochemical organization of the primate visual cortexHandbook of Chemical Neuroanatomy199819
15Chapter VIII c-Fos in learning: beyond the mapping of neuronal activityHandbook of Chemical Neuroanatomy200219
16Chapter IX Neuropeptide Y, peptide YY and pancreatic polypeptide receptor proteins and mRNAs in mammalian brainsHandbook of Chemical Neuroanatomy200018
17Chemical architecture of the basal gangliaHandbook of Chemical Neuroanatomy199914
18Chapter XI Invertebrate models for studying NO-mediated signalingHandbook of Chemical Neuroanatomy200013
19Chapter V The cholinergic system in the primate brain: basal forebrain and pontine-tegmental cell groupsHandbook of Chemical Neuroanatomy199712
20Chapter III Comparative and developmental neuroanatomical aspects of the NO systemHandbook of Chemical Neuroanatomy200012
21Chapter II Histochemistry of nitric oxide synthase in the central nervous systemHandbook of Chemical Neuroanatomy200012
22Chapter VIII Functional neuroanatomy of hypothalamic dopaminergic neuroendocrine systemsHandbook of Chemical Neuroanatomy200512
23Chapter III The olfactory systemHandbook of Chemical Neuroanatomy199611
24Chapter VII Nitric oxide in the peripheral autonomic nervous systemHandbook of Chemical Neuroanatomy200011
25Chapter VI Nitric oxide systems in the medulla oblongata and their involvement in autonomic controlHandbook of Chemical Neuroanatomy200011
26Chapter X Nitric oxide-cGMP signaling in the rat brainHandbook of Chemical Neuroanatomy200011
27Chapter VI Neurotensin receptors in the central nervous systemHandbook of Chemical Neuroanatomy200211
28Chapter IV Structural and functional interactions in the striatum at the receptor levelHandbook of Chemical Neuroanatomy200511
29Chapter IX Response of nitric oxide synthase to neuronal injuryHandbook of Chemical Neuroanatomy200010
30Chapter IV Localization of galanin receptor subtypes in the rat CNSHandbook of Chemical Neuroanatomy200210
31Chapter IX Human forebrain dopamine systems: Characterization of the normal brain and in relation to psychiatric disordersHandbook of Chemical Neuroanatomy200510
32Chapter I A digital Rosetta stone for primate brain terminologyHandbook of Chemical Neuroanatomy19979
33Chapter I Somatostatin receptorsHandbook of Chemical Neuroanatomy20009
34Chapter II Aspartate—neurochemical evidence for a transmitter roleHandbook of Chemical Neuroanatomy20009
35Chapter IV AMPA, kainate and NMDA ionotropic glutamate receptor expression—an in situ hybridization atlasHandbook of Chemical Neuroanatomy20009
36Chapter IV The primate locus coeruleus: the chemical neuroanatomy of the nucleus, its efferent projections, and its target receptorsHandbook of Chemical Neuroanatomy19978
37Chapter VII Chemical neuroanatomy of the primate insula cortex: Relationship to cytoarchitectonics, connectivity, function and neurodegenerationHandbook of Chemical Neuroanatomy19978
38Chapter VI Neurokinin receptors in the CNSHandbook of Chemical Neuroanatomy20008
39Chapter viii calcitonin gene-related peptide (cgrp), amylin and adrenomedullin: anatomical localization and biological functions in the mammalian and human brainsHandbook of Chemical Neuroanatomy20008
40Chapter VII Enzymes responsible for glutamate synthesis and degradationHandbook of Chemical Neuroanatomy20008
41Chapter V Motor function(s) of the nigrostriatal dopamine system: Studies of lesions and behaviorHandbook of Chemical Neuroanatomy20058
42Chapter III Caudal pons and medulla oblongataHandbook of Chemical Neuroanatomy19977
43Chemical neuroanatomy of the hippocampal formation and the perirhinal and parahippocampal corticesHandbook of Chemical Neuroanatomy19997
44Chapter IV Immediate-early gene (IEG) expression mapping of vocal communication areas in the avian brainHandbook of Chemical Neuroanatomy20027
45Immediate early genes and inducible transcription factors in mapping of the central nervous system function and dysfunctionHandbook of Chemical Neuroanatomy20027
46CHAPTER X Multiple brain corticotropin-releasing factor receptors and binding proteinHandbook of Chemical Neuroanatomy20006
47Chapter IV Nitric oxide in the retinaHandbook of Chemical Neuroanatomy20006
48Chapter I Methods used in inducible transcription factor studies: focus on mRNAHandbook of Chemical Neuroanatomy20026
49Chapter VIII The nitric oxide system in the urogenital tractHandbook of Chemical Neuroanatomy20005
50Chapter V Molecular activity maps of sensory functionHandbook of Chemical Neuroanatomy20025