Inferred network

R(Retina) → AHNa(Anterior hypothalamic nucleus anterior part)
AHNa(Anterior hypothalamic nucleus anterior part) → BSTtr(Bed nuclei of the stria terminalis posterior division transverse nucleus)
BSTtr(Bed nuclei of the stria terminalis posterior division transverse nucleus) → BSTrh(Bed nuclei of the stria terminalis rhomboid nucleus)
BSTrh(Bed nuclei of the stria terminalis rhomboid nucleus) → LHA(Lateral hypothalamic area)

Support information about direct projections from Retina to Anterior hypothalamic nucleus anterior part:
Sending structure Receiving structureStrength of projection Type of connectionTechniqueGeneral descriptionCollatorAssociated reference
RetinaAnterior hypothalamic nucleus anterior part light/moderatenot knownCholera toxin conjugated to HRP
Case pg352. Soma notes 36 female Sprague-Dawley rats weighing 200-350g. 10 microliters of CT-HRP(.20%-.40%) were injected into one eye ?behind the lens into the vitreous chamber of the eye. pressure injection over 1 min. Terminal notes Med. component of the RHT?in addition, labeled fibres and terms were found lateral to the lateral boundary of the SCN, in the lateroanterior hypothalamic nucleus. Lat component diffuse labeling in the lateroanterior hypothalamic nucleus was evident.
Levine JD, Weiss ML, Rosenwasser AM, Miselis RR., 1991

Support information about direct projections from Anterior hypothalamic nucleus anterior part to Bed nuclei of the stria terminalis posterior division transverse nucleus:
Sending structure Receiving structureStrength of projection Type of connectionTechniqueGeneral descriptionCollatorAssociated reference
Anterior hypothalamic nucleus anterior partBed nuclei of the stria terminalis posterior division transverse nucleus existsnot knownPHAL
none provided
Risold P.Y., Canteras N.S., Swanson L.W., 1994

Support information about direct projections from Bed nuclei of the stria terminalis posterior division transverse nucleus to Bed nuclei of the stria terminalis rhomboid nucleus:
Sending structure Receiving structureStrength of projection Type of connectionTechniqueGeneral descriptionCollatorAssociated reference
Bed nuclei of the stria terminalis posterior division transverse nucleusBed nuclei of the stria terminalis rhomboid nucleus moderatenot knownPHAL
Many labeled axons also extend rostrally into the BST anterior division, where they generate dense terminal plexuses in the anterolateral and anteroventral areas and moderate terminal plexuses in the ventral, magnocellular, rhomboid, and fusiform nuclei (Fig. 6F–H).
Dong H.W., Swanson L.W., 2004

Support information about direct projections from Bed nuclei of the stria terminalis rhomboid nucleus to Lateral hypothalamic area:
Sending structure Receiving structureStrength of projection Type of connectionTechniqueGeneral descriptionCollatorAssociated reference
Bed nuclei of the stria terminalis rhomboid nucleusLateral hypothalamic area light/moderatenot knownPHAL
...at medial preoptic levels scattered PHAL-labeled axons with terminal boutons and boutons-of-passage extend medially into the lateral preoptic area (Fig. 4J) and the immediately adjacent rostral tip of the lateral hypothalamic area (Fig. 4K).
Dong H-W., Swanson L.W., 2004
Bed nuclei of the stria terminalis rhomboid nucleusLateral hypothalamic area strongnot knownPHAL
...near the caudal end of the substantia innominata a distinct bundle of axons turns medially to enter the lateral hypothalamic area (Fig. 4M).
Dong H-W., Swanson L.W., 2004
Bed nuclei of the stria terminalis rhomboid nucleusLateral hypothalamic area moderatenot knownPHAL
After branching and generating terminal boutons in this restricted zone of the lateral hypothalamic area [adjacent region to the substantia innominata], the fibers appear to travel caudally through ventrolateral regions of the lateral hypothalamic area, between the cerebral peduncle and optic tract, where they also branch and generate boutons (Fig. 4M-Q).
Dong H-W., Swanson L.W., 2004
Bed nuclei of the stria terminalis rhomboid nucleusLateral hypothalamic area strongnot knownPHAL
Just caudal to the paraventricular nucleus many labeled fibers from the BSTrh extend medially from the medial forebrain bundle to innervate densely a restricted dorsal region of the perifornical lateral hypothalamic area, essentially between the zona incerta and fornix (Figs. 4O,P, 7C).
Dong H-W., Swanson L.W., 2004
Bed nuclei of the stria terminalis rhomboid nucleusLateral hypothalamic area moderatenot knownPHAL
Two other terminal fields from the BSTrh were observed in the hypothalamic tuberal region. One terminal field is centered in the tuberal nucleus and a dorsally adjacent, circumscribed region of the lateral hypothalamic area, ventrolateral to the fornix (Figs. 4N–R, 7C).
Dong H-W., Swanson L.W., 2004
Bed nuclei of the stria terminalis rhomboid nucleusLateral hypothalamic area moderatenot knownPHAL
The other terminal field [collator note: see page 455] lies in the ventrolateral corner of the lateral hypothalamic area, just medial to the cerebral peduncle and optic tract (Figs. 4O-Q, 7C).
Dong H-W., Swanson L.W., 2004
Bed nuclei of the stria terminalis rhomboid nucleusLateral hypothalamic area very strongnot knownPHAL
...the majority of descending fibers in far lateral regions of the medial forebrain bundle display few boutons—until they reach the general region containing the parasubthalamic nucleus of Wang and Zhang (1995). This tiny, though distinct, cell group lies around the medial tip of the caudal end of the subthalamic nucleus (centered on level T of Fig. 4, but extending onto level S), and a large majority (the exact percentage is currently unknown) of its neurons express substance P (see Goto et al., 2000). PHAL-labeled axons descending through the medial forebrain bundle generate a terminal plexus in and immediately surrounding the parasubthalamic nucleus that is so dense (Figs. 2C, 4R–T) it can be observed easily with the naked eye in the relevant tissue sections. Ventrolateral regions of this terminal field merge with the more rostral, much more restricted terminal field in the ventrolateral lateral hypothalamic area mentioned above (at levels O–Q of Fig. 4). Just caudal to the parasubthalamic nucleus, this massive terminal field essentially disappears (Fig. 4U,V). Collator note: this nucleus does not appear in the rat brain nomenclature Swanson 1998, therefore we assigned this label to the ventrolateral quadrant of the lateral hypothalamic area.
Dong H-W., Swanson L.W., 2004