Inferred network

R(Retina) → AV(Anteroventral nucleus of thalamus)
AV(Anteroventral nucleus of thalamus) → ENTl(Entorhinal area, lateral part)
ENTl(Entorhinal area, lateral part) → ILA(Infralimbic area)
ILA(Infralimbic area) → LHA(Lateral hypothalamic area)

Support information about direct projections from Retina to Anteroventral nucleus of thalamus:
Sending structure Receiving structureStrength of projection Type of connectionTechniqueGeneral descriptionCollatorAssociated reference
RetinaAnteroventral nucleus of thalamus existsnot knownCholera toxin conjugated to HRP
Case pg353-4. 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 fibres can be seen in stria terminalis coursing rostrally from these more caudal levels. This pathway gives rise to the thalamic label reported earlier (anterior dorsal, anterior ventral thalamic nuc. and bed nuc. of the stria terminalis.).
Levine JD, Weiss ML, Rosenwasser AM, Miselis RR., 1991

Support information about direct projections from Anteroventral nucleus of thalamus to Entorhinal area, lateral part:
Sending structure Receiving structureStrength of projection Type of connectionTechniqueGeneral descriptionCollatorAssociated reference
Anteroventral nucleus of thalamusEntorhinal area, lateral part lightnot knownPHAL
Case pg433, fig4. Soma notes In 11 cases, injections made into various parts of AV. In case (R680) with inj involving central part of AV at its rostral third level
Shibata H., 1993

Support information about direct projections from Entorhinal area, lateral part to Infralimbic area:
Sending structure Receiving structureStrength of projection Type of connectionTechniqueGeneral descriptionCollatorAssociated reference
Entorhinal area, lateral partInfralimbic area lightnot knownfluorescent tracers
Case pg150, fig1. Soma notes --Fig1: labeled cells shown in ?ENTl?p/mod-. Terminal notes 6 addtional animals that received a 30-50nl inj of 5% true blue ?In each expt tracer confined to infralimbic & adjacent cortical areas, did not pread to nearby parts of olf ped or septal region.
Swanson LW., 1981
Entorhinal area, lateral partInfralimbic area existsnot knownfluorescent tracers
label found from layers 4 and 5 of ENTl; simultaneous: Wyss JCN 199:495-512, 1981, rat, autoradiography
Swanson L.W., 1981
Entorhinal area, lateral partInfralimbic area existsnot knownPHAL
ipsilateral; earlier: Sorensen JCN 238:308-22, 1985, guinea pig, autoradiography and retrograde fluorescent tracers. Collator note: known projections to HF not listed here.
Swanson L.W., Kohler C., 1986
Entorhinal area, lateral partInfralimbic area lightnot knownFluorogold
Collator note: several labeled cells may be in the dorsal part of the lateral entorhinal cortex, just ventral from the rhinal fissure. Fig 8Q, P, Swanson Atlas Levels 37-39.
Hoover W.B. & Vertes R.P, 2007
Entorhinal area, lateral partInfralimbic area light/moderatenot knownFluorogold
Collator note: Fig 8S-T, which corresponds to Swanson Atlas Levels 39-41. A band of labeled neurons in layer III of the ENTl is visible.
Hoover W.B. & Vertes R.P, 2007
Entorhinal area, lateral partInfralimbic area moderatenot knownFluorogold
Labeling within the cortex at the level of the pons-medulla (Fig. 8u–x) was essentially confined to ECT and ECl. Collator note: field of labeled neurons in Layer III, extending into ENTl, ENTm and PAR. Swanson Atlas Level 44-45.
Hoover W.B. & Vertes R.P, 2007
Entorhinal area, lateral partInfralimbic area strongnot knownPHAL
As is shown in Figures 2, B and C, 3, and 4A, dense terminal plexuses were labeled in layers II and V of the infralimbic and prelimbic areas, and many fibers appeared to enter these layers from layer VI, and perhaps from layer I as well.
Swanson L.W., Kohler C., 1986
Entorhinal area, lateral partInfralimbic area strongnot knownPHAL
As is shown in Figures 2, B and C, 3, and 4A, dense terminal plexuses were labeled in layers II and V of the infralimbic and prelimbic areas, and many fibers appeared to enter these layers from layer VI, and perhaps from layer I as well.
Swanson L.W., Kohler C., 1986
Entorhinal area, lateral partInfralimbic area moderatenot knownPHAL
Collator note: data extracted from Table 2, page 1165. The table includes the mean densities over the entire target region.
Agster K.L. & Burwell R.D., 2009
Entorhinal area, lateral partInfralimbic area light/moderatenot knownretrograde tracers
Collator note: labeling of layer V, and layer III (faint), in the dorsolateral part of the ENTl, mid-rostrocaudally. See Fig. 7M, Swanson Atlas Levels 40-41.
Conde F., Audinat E., Maire-Lepoivre E. & Crepel F., 1995
Entorhinal area, lateral partInfralimbic area moderatenot knownretrograde tracers
Collator note: labeling of the caudalmost part of the ENTl, layer V. See Fig. 7N-O, Swanson Atlas Levels 44-48.
Conde F., Audinat E., Maire-Lepoivre E. & Crepel F., 1995
Entorhinal area, lateral partInfralimbic area very strongnot knownautoradiography
Collator note: very strong labeling in the ventral part of ILA. The labeling is across all layers. See Fig. 8A, Swanson Atlas Levels 8-9.
Luskin M.B & Price J.L., 1983
Entorhinal area, lateral partInfralimbic area light/moderatenot knownPHAL
Collator note: labeled fibers in the dorsal part of the ILA. See Fig. 17B-C, Swanson Atlas Levels 8-11.
Insausti R., Herrero M.T. & Witter M.P., 1997
Entorhinal area, lateral partInfralimbic area strongnot knownPHAL
Dense labeling was further present in the infralimbic cortex, where it was most dense in the deep part of the molecular layer and in layer II. Collator note: dense labeling in the ventral part of the ILA, the dorsal penduncular cortex. See Fig. 17C, Swanson Atlas Level 11.
Insausti R., Herrero M.T. & Witter M.P., 1997
Entorhinal area, lateral partInfralimbic area very strongnot knownPHAL
Collator note: ILA shows one of the strongest labeling of this case. Labeled fibers in layers I-III. See Fig 18B-C, Swanson Atlas Levels 8-10.
Insausti R., Herrero M.T. & Witter M.P., 1997

Support information about direct projections from Infralimbic area to Lateral hypothalamic area:
Sending structure Receiving structureStrength of projection Type of connectionTechniqueGeneral descriptionCollatorAssociated reference
Infralimbic areaLateral hypothalamic area lightnot knownHRP/WGA
Case pg267, fig12. Soma notes not specified.. Terminal notes WGA-HRP inj.
Hurley KM, Herbert H, Moga MM, Saper CB., 1991
Infralimbic areaLateral hypothalamic area strongnot knownPHAL
Collator note: PHAL injection in the central part of the PL, Swanson Atlas Levels 9-10. The characteristic shape of the anterior forceps of the claustrum was taken as landmark.
Fisk G.A. & Wyss J.M., 2000
Infralimbic areaLateral hypothalamic area moderatenot knownPHAL
[...] principal target was the lateral hypothalamic area, in particular its ventrolateral and perifornical regions (Figs. 3D-G, 5C,D). Although innervation of the anterior part of the lateral hypothalamic area was scant, varicose fibers running in a mediolateral direction were prominent in the retrochiasmatic area.
Hurley KM, Herbert H, Moga MM, Saper CB., 1991
Infralimbic areaLateral hypothalamic area strongnot knownPHAL
[...] principal target was the lateral hypothalamic area, in particular its ventrolateral and perifornical regions (Figs. 3D-G, 5C,D). Although innervation of the anterior part of the lateral hypothalamic area was scant, varicose fibers running in a mediolateral direction were prominent in the retrochiasmatic area.
Hurley KM, Herbert H, Moga MM, Saper CB., 1991