CSV export

Details about the neuroanatomical projections from BSTju to CP

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9702 Bed nuclei of the stria terminalis juxtacapsular nucleusCaudoputamen existsPHAL
interesting band dorsal to the FS
Dong H., Petrovich G.D., Swanson L.W., 2000
32848 Bed nuclei of the stria terminalis juxtacapsular nucleusCaudoputamen moderatePHAL
a moderate number of axons turn laterally to enter the CP where they branch extensively and display many terminal boutons in ventromedial regions (Fig. 4C-G, Fig. 5A).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to BSTal

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9703 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis anterolateral area existsPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32845 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis anterolateral area moderatePHAL
...in the anterolateral area of the BST and immediately adjacent to the caudoputamen (CP) , the number of fibers and boutons is much less.
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to BSTsc

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9704 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis, anterior division, subcommisural zone existsPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32850 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis, anterior division, subcommisural zone strongPHAL
Another bundle of labeled axons from the BSTju courses rostroventrally to innervate densely the subcommissural zone of the BST (Fig. 4E-G) , and a few axons with terminal boutons also extend into the fusiform nucleus of the BST (Fig. 4F and G) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to SI

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9705 Bed nuclei of the stria terminalis juxtacapsular nucleusSubstantia innominata existsPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32854 Bed nuclei of the stria terminalis juxtacapsular nucleusSubstantia innominata moderatePHAL
After traveling through ventromedial regions of the nucleus accumbens, they enter the rostroventral substantia innominata (Fig. 4C) where they generate moderate numbers of boutons.
Dong H., Petrovich G.D., Swanson L.W., 2000
32860 Bed nuclei of the stria terminalis juxtacapsular nucleusSubstantia innominata very strongPHAL
This massive group [collator note: the ansa peduncularis pathway] of highly branched fibers with very rich terminal boutons and varicosities provides a very dense input to the caudal substantia innominata, from the level of the crossing of the anterior commissure to its caudal tip (Fig. 4G-K, Fig. 5B) . Overall, this is the densest output from the BSTju observed in the present study.
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to ILA

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9706 Bed nuclei of the stria terminalis juxtacapsular nucleusInfralimbic area lightPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32858 Bed nuclei of the stria terminalis juxtacapsular nucleusInfralimbic area lightPHAL
...a small number of axons continue rostrally to provide light inputs to the deep layers of the prelimbic and infralimbic cortical areas (Fig. 4A and B) , and a few axons were also observed in the agranular insular and secondary motor cortical areas (Fig. 4A-F) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to PL

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9707 Bed nuclei of the stria terminalis juxtacapsular nucleusPrelimbic area lightPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32855 Bed nuclei of the stria terminalis juxtacapsular nucleusPrelimbic area lightPHAL
...a small number of axons continue rostrally to provide light inputs to the deep layers of the prelimbic and infralimbic cortical areas (Fig. 4A and B) , and a few axons were also observed in the agranular insular and secondary motor cortical areas (Fig. 4A-F) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to BSTse

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9708 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis posterior division strial extension existsPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32859 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis posterior division strial extension moderatePHAL
From the injection site, a small group of PHAL-labeled fibers travels dorsally and caudally to enter the stria terminalis. Curiously, most of them end in the strial extension of the BST Fig. (4H and I) , and only a few continue caudally in the stria terminalis to reach the amygdala (Fig. 4L) where they cannot be distinguished from labeled axons arriving via the ansa peduncularis pathway (see Section 3.3.4) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to CEAm

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9709 Bed nuclei of the stria terminalis juxtacapsular nucleusCentral nucleus of amygdala medial part existsPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32861 Bed nuclei of the stria terminalis juxtacapsular nucleusCentral nucleus of amygdala medial part strongPHAL
A moderate number of fibers in the substantia innominata reach the amygdala, where abundant branches with terminal boutons provide a dense input to the medial part of the central nucleus (CEAm) (Fig. 4I-L, Fig. 5B and C) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to BLAa

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9710 Bed nuclei of the stria terminalis juxtacapsular nucleusBasolateral nucleus of the amygdala anterior part existsPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32863 Bed nuclei of the stria terminalis juxtacapsular nucleusBasolateral nucleus of the amygdala anterior part strongPHAL
We also observed a dense terminal field of PHAL labeling in the anterior basolateral amygdalar nucleus. This distinctive terminal field appears to consist of very thin fibers with a very rich plexus of terminal bouton-laden branches (Fig. 4K and L, Fig. 5C) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to LHA

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9711 Bed nuclei of the stria terminalis juxtacapsular nucleusLateral hypothalamic area existsPHAL
far lateral at tuberal levels and then in and around the parasubthalamic nucleus
Dong H., Petrovich G.D., Swanson L.W., 2000
32870 Bed nuclei of the stria terminalis juxtacapsular nucleusLateral hypothalamic area moderatePHAL
A moderate number of PHAL-labeled axons from the BSTju course medial to the substantia innominata to enter the lateral hypothalamic area, and some may enter the lateral hypothalamic area from the substantia innominata itself (Fig. 4I). These fibers travel caudally through the most lateral part of the lateral hypothalamic area, and display a small number of branches and boutons, especially in tuberal levels and in a caudolateral part of the lateral hypothalamic area that may correspond to the parasubthalamic nucleus illustrated by Wang and Zhang [71] (Fig. 4L-N).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to MDm

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9712 Bed nuclei of the stria terminalis juxtacapsular nucleusMediodorsal nucleus of the thalamus medial part existsPHAL
caudally
Dong H., Petrovich G.D., Swanson L.W., 2000
32872 Bed nuclei of the stria terminalis juxtacapsular nucleusMediodorsal nucleus of the thalamus medial part moderatePHAL
...a few axons course medially through the posterior hypothalamic nucleus to reach the midline nuclei of the thalamus, where fibers with terminal boutons were observed in caudal regions of the medial part of the mediodorsal nucleus and in the paraventricular nucleus (Fig. 4N).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to PVT

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9713 Bed nuclei of the stria terminalis juxtacapsular nucleusParaventricular nucleus of the thalamus existsPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32873 Bed nuclei of the stria terminalis juxtacapsular nucleusParaventricular nucleus of the thalamus moderatePHAL
...a few axons course medially through the posterior hypothalamic nucleus to reach the midline nuclei of the thalamus, where fibers with terminal boutons were observed in caudal regions of the medial part of the mediodorsal nucleus and in the paraventricular nucleus (Fig. 4N).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to SNc

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9714 Bed nuclei of the stria terminalis juxtacapsular nucleusSubstantia nigra compact part existsPHAL
dense caudally and dorsolaterally
Dong H., Petrovich G.D., Swanson L.W., 2000
32874 Bed nuclei of the stria terminalis juxtacapsular nucleusSubstantia nigra compact part strongPHAL
Most fibers descending from the lateral hypothalamic area course through the ventral tegmental area, zona incerta, and rostral compact part of the substantia nigra to innervate densely a caudal dorsolateral region of the latter (Fig. 4P, Fig. 5D).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to MRN

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9715 Bed nuclei of the stria terminalis juxtacapsular nucleusMesencephalic reticular nucleus existsPHAL
dense adjacent to the caudal-dorsolateral SNc
Dong H., Petrovich G.D., Swanson L.W., 2000
32875 Bed nuclei of the stria terminalis juxtacapsular nucleusMesencephalic reticular nucleus strongPHAL
A dense terminal plexus was also observed in the adjacent mesencephalic reticular nucleus and retrorubral area, where the A8 dopamine cell group is located 12 (Fig. 4P and Q, Fig. 5D).
Dong H., Petrovich G.D., Swanson L.W., 2000
33388 Bed nuclei of the stria terminalis juxtacapsular nucleusMesencephalic reticular nucleus not presentPHAL
Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to RR

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9716 Bed nuclei of the stria terminalis juxtacapsular nucleusRetrorubral area existsPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32877 Bed nuclei of the stria terminalis juxtacapsular nucleusRetrorubral area strongPHAL
Collator note: see Figure 4Q, R.
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to SNr

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9717 Bed nuclei of the stria terminalis juxtacapsular nucleusSubstantia nigra reticular part existsPHAL
caudal tip
Dong H., Petrovich G.D., Swanson L.W., 2000
32876 Bed nuclei of the stria terminalis juxtacapsular nucleusSubstantia nigra reticular part strongPHAL
This terminal field [collator note: of MRN] extends into the adjacent most caudal region of the reticular part of the substantia nigra (Fig. 4Q).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to PAGvl

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
9718 Bed nuclei of the stria terminalis juxtacapsular nucleusPeriaqueductal gray ventrolateral division very lightPHAL
none provided
Dong H., Petrovich G.D., Swanson L.W., 2000
32878 Bed nuclei of the stria terminalis juxtacapsular nucleusPeriaqueductal gray ventrolateral division strongPHAL
Only a few axons descend past the retrorubral area and mesencephalic reticular nucleus to end in the ventrolateral division of the periaqueductal gray (Fig. 4R-T)...
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: none provided

Details about the neuroanatomical projections from BSTju to BSTju

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32844 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis juxtacapsular nucleus very strongPHAL
From the injection site, a group of PHAL-labeled axons extends into the rostral end of the BSTju, where individual axons display many branches with very dense terminal boutons (Fig. 4F and G) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to BSTad

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32846 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis anterior division anterodorsal area very lightPHAL
...the BSTov and anterodorsal area of the BST --areas immediately adjacent to the BSTju-- receive only very sparse inputs from the BSTju.
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to BSTov

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32847 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis oval nucleus very lightPHAL
...the BSTov and anterodorsal area of the BST --areas immediately adjacent to the BSTju-- receive only very sparse inputs from the BSTju.
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to FS

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32849 Bed nuclei of the stria terminalis juxtacapsular nucleusFundus of the striatum lightPHAL
A few axons also extend into the fundus of the striatum Fig. (4C-F) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to BSTfu

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32851 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis anterior division fusiform nucleus strongPHAL
Another bundle of labeled axons from the BSTju courses rostroventrally to innervate densely the subcommissural zone of the BST (Fig. 4E-G) , and a few axons with terminal boutons also extend into the fusiform nucleus of the BST (Fig. 4F and G) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to BSTav

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32852 Bed nuclei of the stria terminalis juxtacapsular nucleusBed nuclei of the stria terminalis anterior division anteroventral area fibers of passagePHAL
Most of...axons continue through the anteroventral area of the BST into the nucleus accumbens, whereas only a few scattered fibers leave the caudal BST to enter the ventral substantia innominata (Fig. 4D-F) . Axons within the anteroventral BST and nucleus accumbens may be primarily fibers of passage because they generate few boutons
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to ACB

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32853 Bed nuclei of the stria terminalis juxtacapsular nucleusNucleus accumbens fibers of passagePHAL
Most of...axons continue through the anteroventral area of the BST into the nucleus accumbens, whereas only a few scattered fibers leave the caudal BST to enter the ventral substantia innominata (Fig. 4D-F) . Axons within the anteroventral BST and nucleus accumbens may be primarily fibers of passage because they generate few boutons
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to ACAd

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32856 Bed nuclei of the stria terminalis juxtacapsular nucleusAnterior cingulate area dorsal part very lightPHAL
...a small number of axons continue rostrally to provide light inputs to the deep layers of the prelimbic and infralimbic cortical areas (Fig. 4A and B) , and a few axons were also observed in the agranular insular and secondary motor cortical areas (Fig. 4A-F) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to MOs

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32857 Bed nuclei of the stria terminalis juxtacapsular nucleusSecondary motor area very lightPHAL
...a small number of axons continue rostrally to provide light inputs to the deep layers of the prelimbic and infralimbic cortical areas (Fig. 4A and B) , and a few axons were also observed in the agranular insular and secondary motor cortical areas (Fig. 4A-F) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to CEAc

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32862 Bed nuclei of the stria terminalis juxtacapsular nucleusCentral nucleus of amygdala capsular part lightPHAL
The capsular part of the CEA contains only a small number of labeled fibers caudally (Fig. 4L)...
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to AAA

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32864 Bed nuclei of the stria terminalis juxtacapsular nucleusAnterior amygdaloid area lightPHAL
The lateral, posterior basolateral, and basomedial amygdalar nuclei, and the anterior amygdalar areas contain a small number of PHAL-labeled fibers with terminal boutons (Fig. 4J-N, Fig. 5C) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to LA

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32865 Bed nuclei of the stria terminalis juxtacapsular nucleusLateral nucleus of the amygdala lightPHAL
The lateral, posterior basolateral, and basomedial amygdalar nuclei, and the anterior amygdalar areas contain a small number of PHAL-labeled fibers with terminal boutons (Fig. 4J-N, Fig. 5C) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to BLAp

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32866 Bed nuclei of the stria terminalis juxtacapsular nucleusBasolateral nucleus of the amygdala posterior part lightPHAL
The lateral, posterior basolateral, and basomedial amygdalar nuclei, and the anterior amygdalar areas contain a small number of PHAL-labeled fibers with terminal boutons (Fig. 4J-N, Fig. 5C) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to BMAp

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32867 Bed nuclei of the stria terminalis juxtacapsular nucleusBasomedial nucleus of the amygdala posterior part lightPHAL
The lateral, posterior basolateral, and basomedial amygdalar nuclei, and the anterior amygdalar areas contain a small number of PHAL-labeled fibers with terminal boutons (Fig. 4J-N, Fig. 5C) .
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to CA1spd

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32868 Bed nuclei of the stria terminalis juxtacapsular nucleusField CA1 pyramidal layer, deep lightPHAL
...a few labeled axons continue farther ventrocaudally to innervate the ventral part of the endopiriform nucleus, postpiriform transition area, and ventral region of hippocampal field CA1 (Fig. 4O).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to TR

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32869 Bed nuclei of the stria terminalis juxtacapsular nucleusPostpiriform transition area very lightPHAL
...a few labeled axons continue farther ventrocaudally to innervate the ventral part of the endopiriform nucleus, postpiriform transition area, and ventral region of hippocampal field CA1 (Fig. 4O).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to STN

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32871 Bed nuclei of the stria terminalis juxtacapsular nucleusSubthalamic nucleus lightPHAL
The subthalamic nucleus, located just ventrolateral to the lateral hypothalamic area, also contains a few bouton-laden fibers (Fig. 4N).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.

Details about the neuroanatomical projections from BSTju to LC

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Report IDSending structure Receiving structureProjection strengthTechniqueGeneral description projectionCollatorAssociated reference
32879 Bed nuclei of the stria terminalis juxtacapsular nucleusLocus coeruleus very lightPHAL
and a very few scattered fibers were identified in the pedunculopontine nucleus, medial parabrachial nucleus, and rostral locus coeruleus (Fig. 4U and V).
Dong H., Petrovich G.D., Swanson L.W., 2000
General description technique/protocol: Two injections are centered in midrostrocaudal levels of the nucleus, and are almost entirely confined within its borders (Fig. 1; BST55 and BST99) , whereas the third is centered in the rostral tip of the nucleus Fig. 1; BST42 . The results of experiment BST55 (Figs. 1 and 2) are illustrated in detail; its projection pattern is indistinguishable from that labeled in the other two experiments with injections restricted almost entirely to the BSTju. In experiment BST55, the only spread of the effective injection site was to several labeled neurons in the BSTov.