The densest terminal fields generated by the BSTrh in the lateral division are in the anterolateral area (especially in the ventral corner of the caudolateral tip) and subcommissural zone (Fig. 4F-J).

The densest terminal fields generated by the BSTrh in the lateral division are in the anterolateral area (especially in the ventral corner of the caudolateral tip) and subcommissural zone (Fig. 4F-J).

...relatively dense terminal fields are also found in the most rostral part of the anterodorsal area and anteroventral area, and in the dorsomedial, ventral, fusiform, and oval nuclei (Fig. 4F-J).

...relatively dense terminal fields are also found in the most rostral part of the anterodorsal area and anteroventral area, and in the dorsomedial, ventral, fusiform, and oval nuclei (Fig. 4F-J).

...relatively dense terminal fields are also found in the most rostral part of the anterodorsal area and anteroventral area, and in the dorsomedial, ventral, fusiform, and oval nuclei (Fig. 4F-J).

...relatively dense terminal fields are also found in the most rostral part of the anterodorsal area and anteroventral area, and in the dorsomedial, ventral, fusiform, and oval nuclei (Fig. 4F-J).

...relatively dense terminal fields are also found in the most rostral part of the anterodorsal area and anteroventral area, and in the dorsomedial, ventral, fusiform, and oval nuclei (Fig. 4F-J).

...relatively dense terminal fields are also found in the most rostral part of the anterodorsal area and anteroventral area, and in the dorsomedial, ventral, fusiform, and oval nuclei (Fig. 4F-J).

The dorsolateral and magnocellular nuclei receive moderate inputs, whereas the juxtacapsular nucleus is only lightly innervated.

The dorsolateral and magnocellular nuclei receive moderate inputs, whereas the juxtacapsular nucleus is only lightly innervated.

The dorsolateral and magnocellular nuclei receive moderate inputs, whereas the juxtacapsular nucleus is only lightly innervated.

In the BST posterior division, very heavy terminal labeling was observed only in the most lateral regions of the interfascicular and transverse nuclei, with just scattered PHAL-labeled axons displaying terminal boutons found in the great bulk of these two nuclei (Fig. 4K).

In the BST posterior division, very heavy terminal labeling was observed only in the most lateral regions of the interfascicular and transverse nuclei, with just scattered PHAL-labeled axons displaying terminal boutons found in the great bulk of these two nuclei (Fig. 4K).

In the BST posterior division, very heavy terminal labeling was observed only in the most lateral regions of the interfascicular and transverse nuclei, with just scattered PHAL-labeled axons displaying terminal boutons found in the great bulk of these two nuclei (Fig. 4K).

In the BST posterior division, very heavy terminal labeling was observed only in the most lateral regions of the interfascicular and transverse nuclei, with just scattered PHAL-labeled axons displaying terminal boutons found in the great bulk of these two nuclei (Fig. 4K).

In the BST posterior division, very heavy terminal labeling was observed only in the most lateral regions of the interfascicular and transverse nuclei, with just scattered PHAL-labeled axons displaying terminal boutons found in the great bulk of these two nuclei (Fig. 4K).

In the BST posterior division, very heavy terminal labeling was observed only in the most lateral regions of the interfascicular and transverse nuclei, with just scattered PHAL-labeled axons displaying terminal boutons found in the great bulk of these two nuclei (Fig. 4K).

In the BST posterior division, very heavy terminal labeling was observed only in the most lateral regions of the interfascicular and transverse nuclei, with just scattered PHAL-labeled axons displaying terminal boutons found in the great bulk of these two nuclei (Fig. 4K).

In the BST posterior division, very heavy terminal labeling was observed only in the most lateral regions of the interfascicular and transverse nuclei, with just scattered PHAL-labeled axons displaying terminal boutons found in the great bulk of these two nuclei (Fig. 4K).

Upon leaving the BST these fibers enter the caudal end of the nucleus accumbens, where they branch infrequently but generate abundant terminal boutons and boutons-ofpassage (Figs. 4E, 5A).

More rostrally, dorsally, and laterally, innervation of the nucleus accumbens by the BSTrh decreases very substantially (Fig. 4C,D).

More rostrally, dorsally, and laterally, innervation of the nucleus accumbens by the BSTrh decreases very substantially (Fig. 4C,D).

More rostrally, dorsally, and laterally, innervation of the nucleus accumbens by the BSTrh decreases very substantially (Fig. 4C,D).

A moderate number of labeled axons then turn ventrally, where they immediately branch and generate terminal boutons in ventromedial regions of the nucleus accumbens (Fig. 4C,D) before entering the rostral half of the substantia innominata and continuing to branch and generate boutons (Figs. 4D,E, 5A).

A moderate number of labeled axons then turn ventrally, where they immediately branch and generate terminal boutons in ventromedial regions of the nucleus accumbens (Fig. 4C,D) before entering the rostral half of the substantia innominata and continuing to branch and generate boutons (Figs. 4D,E, 5A).

Some of...axons then leave the rostral substantia innominata to end in the adjacent olfactory tubercle, where dense clusters of PHAL-labeled boutons were observed in all three layers (Fig. 4C-E).

Some of...axons then leave the rostral substantia innominata to end in the adjacent olfactory tubercle, where dense clusters of PHAL-labeled boutons were observed in all three layers (Fig. 4C-E).

Some of...axons then leave the rostral substantia innominata to end in the adjacent olfactory tubercle, where dense clusters of PHAL-labeled boutons were observed in all three layers (Fig. 4C-E).

A small number of other axons in the substantia innominata instead course medially, rostrally, and dorsally through the lateral septal complex to end in the deeper layers of the infralimbic and prelimbic areas of the prefrontal cortex (Fig. 4A-D).

A small number of other axons in the substantia innominata instead course medially, rostrally, and dorsally through the lateral septal complex to end in the deeper layers of the infralimbic and prelimbic areas of the prefrontal cortex (Fig. 4A-D).

A small number of other axons in the substantia innominata instead course medially, rostrally, and dorsally through the lateral septal complex to end in the deeper layers of the infralimbic and prelimbic areas of the prefrontal cortex (Fig. 4A-D).

A small number of other axons in the substantia innominata instead course medially, rostrally, and dorsally through the lateral septal complex to end in the deeper layers of the infralimbic and prelimbic areas of the prefrontal cortex (Fig. 4A-D).

In the septal region, scattered axons with boutons were found...in the septofimbrial nucleus (Fig. 4D-K).

A very few axons associated with this branch of the rostral pathway were also observed in the ventral tenia tecta (Fig. 4B), medial anterior olfactory nucleus (Fig. 4A), and dorsal agranular insular area (Fig. 4A,B).

A very few axons associated with this branch of the rostral pathway were also observed in the ventral tenia tecta (Fig. 4B), medial anterior olfactory nucleus (Fig. 4A), and dorsal agranular insular area (Fig. 4A,B).

A very few axons associated with this branch of the rostral pathway were also observed in the ventral tenia tecta (Fig. 4B), medial anterior olfactory nucleus (Fig. 4A), and dorsal agranular insular area (Fig. 4A,B).

Most of these ventral fibers [from substantia innominata] appear to extend laterally to enter a terminal field in medial regions of the striatal fundus (see below and Figs. 4D-I, 5A,B)...

...abundant branches with terminal boutons and boutons-of-passage in ventral regions of the substantia innominata and the adjacent magnocellular (preoptic) nucleus (Figs. 2A,4E-K, 5A,B).

...abundant branches with terminal boutons and boutons-of-passage in ventral regions of the substantia innominata and the adjacent magnocellular (preoptic) nucleus (Figs. 2A,4E-K, 5A,B).

...a dense terminal field in medial regions of the striatal fundus (Figs. 4D-G, 5A,B) that have been referred to as the medial part of the interstitial nucleus of the posterior limb of the anterior commissure (see Shammah-Lagnado et al., 1999, 2001).

...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).

...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).

...at about the same level of the brain [with the medial preoptic nucleus] a group of labeled axons was observed to extend laterally into the terminal field in the striatal fundus (Fig. 4J,K).

...near the caudal end of the substantia innominata a distinct bundle of axons turns medially to enter the lateral hypothalamic area (Fig. 4M).

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).

A tremendous number of axons from the BSTrh enter the central amygdalar nucleus from the caudal substantia innominata (Figs. 4L,M, 6A), in addition to those entering the caudal end of the nucleus from the stria terminalis (Fig. 4O,P). Extremely dense branching and terminal boutons are found throughout the medial part and ventral capsular part of the central nucleus (Figs. 4L-P, 6A,B).

Extremely dense branching and terminal boutons are found throughout the medial part and ventral capsular part of the central nucleus (Figs. 4L-P, 6A,B).

Extremely dense branching and terminal boutons are found throughout the medial part and ventral capsular part of the central nucleus (Figs. 4L-P, 6A,B).

The lateral part of the central nucleus is moderately innervated by fibers with terminal boutons (Figs. 4M,N, 6B).

At rostral levels of the central nucleus a moderate number of labeled axons extend ventrally to generate terminal boutons in the anterior amygdalar area (Fig. 4L).

...a substantial number of BSTrh axons travel ventrally from the central nucleus to cross the intercalated nuclei and generate abundant terminal boutons and boutons-of-passage in the anterior basomedial nucleus of the amygdala (Figs. 4M,N, 5B).

Some of these fibers [Collator note: coming from the BMAa, see page 455] continue ventrally to end in the anterior cortical nucleus of the amygdala (Fig. 4M,N) and a small number of bouton-generating axons are also found in the adjacent anterodorsal part of the medial amygdalar nucleus (Fig. 4M,N).

Some of these fibers [Collator note: coming from the BMAa, see page 455] continue ventrally to end in the anterior cortical nucleus of the amygdala (Fig. 4M,N) and a small number of bouton-generating axons are also found in the adjacent anterodorsal part of the medial amygdalar nucleus (Fig. 4M,N).

At more caudal levels of the amygdalar region, the BSTrh mainly targets the posterior basolateral nucleus. Throughout this region, scattered labeled axons extend from the medial central amygdalar nucleus across the external capsule and through the lateral, anterior basolateral, and posterior basomedial nuclei (where few boutons were observed) to enter the posterior basolateral nucleus (Fig. 4O-R). BSTrh axons may also reach the latter via the stria terminalis. In any event, the posterior basolateral nucleus contains a moderately dense terminal field consisting of branched fibers with boutons-of-passage and terminal boutons (Figs. 4Q-R, 6C).

Collator note: few buttons observed in this region. See page 454.

...a few laterally directed axons course ventrally and caudally to end in the postpiriform transition, piriform, and lateral entorhinal areas (Fig. 4R-X)...

...a few laterally directed axons course ventrally and caudally to end in the postpiriform transition, piriform, and lateral entorhinal areas (Fig. 4R-X)...

...a few laterally directed axons course ventrally and caudally to end in the postpiriform transition, piriform, and lateral entorhinal areas (Fig. 4R-X)...

a number of fibers extend medially through the lateral parvicellular part (lateral wing) of the paraventricular hypothalamic nucleus (Figs. 4N, 7B).

These transverse fibers [Collator note: from the medial forebrain bundle, passing through the PVHlp] display boutons-of-passage and generate an impressive terminal plexus in the tiny forniceal part of the paraventricular nucleus (Figs. 4N, 7B).

...a few medially directed axons with terminal boutons were found in the posterior amygdalar nucleus, lateral entorhinal area, ventral zone of the medial entorhinal area, and ventral region of hippocampal field CA1 (Fig. 4O-X)...

...a few medially directed axons with terminal boutons were found in the posterior amygdalar nucleus, lateral entorhinal area, ventral zone of the medial entorhinal area, and ventral region of hippocampal field CA1 (Fig. 4O-X)...

...a few medially directed axons with terminal boutons were found in the posterior amygdalar nucleus, lateral entorhinal area, ventral zone of the medial entorhinal area, and ventral region of hippocampal field CA1 (Fig. 4O-X)...

...a few medially directed axons with terminal boutons were found in the posterior amygdalar nucleus, lateral entorhinal area, ventral zone of the medial entorhinal area, and ventral region of hippocampal field CA1 (Fig. 4O-X)...

...a few medially directed axons with terminal boutons were found in the posterior amygdalar nucleus, lateral entorhinal area, ventral zone of the medial entorhinal area, and ventral region of hippocampal field CA1 (Fig. 4O-X)...

...a few medially directed axons with terminal boutons were found in the posterior amygdalar nucleus, lateral entorhinal area, ventral zone of the medial entorhinal area, and ventral region of hippocampal field CA1 (Fig. 4O-X)...

They [collator note: fibers from the medial forebrain bundle] continue medially to innervate the dorsal parvicellular part and ventral zone of the medial parvicellular part of the paraventricular nucleus (Fig. 4M,N), although inputs to these regions may also arrive from the periventricular pathway described later.

They [collator note: fibers from the medial forebrain bundle] continue medially to innervate the dorsal parvicellular part and ventral zone of the medial parvicellular part of the paraventricular nucleus (Fig. 4M,N), although inputs to these regions may also arrive from the periventricular pathway described later.

A few labeled axons with rich boutons-of-passage were also observed in overlying regions of the zona incerta (Fig. 4M).

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).

Dorsally, a few of these axons extend into the zona incerta and ventrally the plexus caps the fornix laterally, dorsally, and medially (Fig. 7C).

Medially [collator note: from the medial forebrain bundle], the terminal field extends into the anterior part of the dorsomedial hypothalamic nucleus, particularly its lateral tip (Figs. 4O,P, 7C).

At the level of the posterior part of the dorsomedial nucleus (Fig. 4Q), PHAL-labeled axons in the dorsal perifornical region shift more medially to surround the dorsomedial nucleus and moderately innervate its ventral part. Thus, the BSTrh moderately innervates the anterior and ventral parts of the dorsomedial nucleus, but virtually avoids the posterior part sandwiched in between (Fig. 4O–R).

Throughout the length of the dorsal perifornical terminal field some axons arch medially through the posterior hypothalamic nucleus and then dorsally into the thalamus (Fig. 4P-T). These arching fibers generate boutons all along their course.

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).

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).

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).

...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.

Some labeled axons extend medially from the parasubthalamic terminal field to enter the lateral supramammillary nucleus (Fig. 4T,U), where they display moderate numbers of boutons-of-passage.

...a small but distinct terminal plexus was also observed in the region just dorsal to the principal mammillary tract (ventromedially in the lateral supramammillary nucleus; Fig. 4U).

they [collator note: axons from the ventral hypothalamic pathway] menter the medial preoptic area, where they branch considerably and generate terminal boutons and boutons-of-passage, especially in the lateral half of the medial preoptic area, adjacent to the lateral preoptic area (Figs. 2A, 4G-J).

they [collator note: axons from the ventral hypothalamic pathway] menter the medial preoptic area, where they branch considerably and generate terminal boutons and boutons-of-passage, especially in the lateral half of the medial preoptic area, adjacent to the lateral preoptic area (Figs. 2A, 4G-J).

Some of the fibers in this projection [collator note: axons from the ventral hypothalamic pathway] contribute to a distinct, although light to moderate terminal plexus in the ventrally adjacent anteroventral preoptic nucleus (Fig. 4G–I).

A smaller number of axons from this pathway [collator note: the ventral hypothalamic pathway] extend caudally and ventrally from the BSTrh, initially through the transverse, interfascicular, and ventral BST nuclei, to enter the anterior hypothalamic area, where they also display a few boutons (Fig. 4K).

...moderate numbers of branches and boutons in the region just dorsal to the supraoptic nucleus and within the supraoptic nucleus itself (Figs. 4K,L, 7A).

Descending fibers in the ventral propriohypothalamic tract generate few branches and boutons in the retrochiasmatic area (Fig. 4L) and tuberal nucleus (Fig. 4M)...

Descending fibers in the ventral propriohypothalamic tract generate few branches and boutons in the retrochiasmatic area (Fig. 4L) and tuberal nucleus (Fig. 4M)

More caudally, some fibers from the ventral perifornical terminal field appear to extend dorsomedially into the terminal field of the ventral part of the dorsomedial nucleus (Fig. 4Q,R).

In addition, the ventral pathway generates a distinct terminal plexus in the part of the tuberal nucleus identified as the terete nucleus by Paxinos and Watson (1986). This cell group (Fig. 4Q,R) is distinguished by dense, circumscribed inputs from the postpiriform transition area and posterior basolateral nucleus of the amygdala (Petrovich et al., 2001).

The ventral pathway seems to end as a few scattered axons in and ventral to the ventral premammillary nucleus (Fig. 4S,T).

A few rostrally directed axons from the BSTrh [collator note: the ventral periventricular pathway] leave the rostral end of the BST to course medially through the nucleus of the diagonal band, and lateral and medial preoptic areas, to generate a few terminals in the vascular organ of the lamina terminalis (Fig. 4F) and anteroventral periventricular nucleus (Fig. 4G,H).

A few rostrally directed axons from the BSTrh [collator note: the ventral periventricular pathway] leave the rostral end of the BST to course medially through the nucleus of the diagonal band, and lateral and medial preoptic areas, to generate a few terminals in the vascular organ of the lamina terminalis (Fig. 4F) and anteroventral periventricular nucleus (Fig. 4G,H).

A few rostrally directed axons from the BSTrh [collator note: the ventral periventricular pathway] leave the rostral end of the BST to course medially through the nucleus of the diagonal band, and lateral and medial preoptic areas, to generate a few terminals in the vascular organ of the lamina terminalis (Fig. 4F) and anteroventral periventricular nucleus (Fig. 4G,H).

A few rostrally directed axons from the BSTrh [collator note: the ventral periventricular pathway] leave the rostral end of the BST to course medially through the nucleus of the diagonal band, and lateral and medial preoptic areas, to generate a few terminals in the vascular organ of the lamina terminalis (Fig. 4F) and anteroventral periventricular nucleus (Fig. 4G,H).

A few rostrally directed axons from the BSTrh [collator note: the ventral periventricular pathway] leave the rostral end of the BST to course medially through the nucleus of the diagonal band, and lateral and medial preoptic areas, to generate a few terminals in the vascular organ of the lamina terminalis (Fig. 4F) and anteroventral periventricular nucleus (Fig. 4G,H).

there is a small but consistent number of terminal boutons in the anterior parvicellular and anterior magnocellular parts of the nucleus (Fig. 4K,L), as well as in the medial parvicellular and posterior magnocellular parts (Fig. 4M).

there is a small but consistent number of terminal boutons in the anterior parvicellular and anterior magnocellular parts of the nucleus (Fig. 4K,L), as well as in the medial parvicellular and posterior magnocellular parts (Fig. 4M).

there is a small but consistent number of terminal boutons in the anterior parvicellular and anterior magnocellular parts of the nucleus (Fig. 4K,L), as well as in the medial parvicellular and posterior magnocellular parts (Fig. 4M).

there is a small but consistent number of terminal boutons in the anterior parvicellular and anterior magnocellular parts of the nucleus (Fig. 4K,L), as well as in the medial parvicellular and posterior magnocellular parts (Fig. 4M).

the majority of axons from the ventral periventricular pathway appear to end in the periventricular part of the paraventricular nucleus, where a substantial number of boutons were observed (Fig. 4M,N).

The periventricular pathway appears to end by sending a very small number of axons with terminal boutons ventrally into the intermediate periventricular and arcuate nuclei (Fig. 4M-Q).

The periventricular pathway appears to end by sending a very small number of axons with terminal boutons ventrally into the intermediate periventricular and arcuate nuclei (Fig. 4M-Q).

Most rostrally, these fibers [collator note: the medial forebrain bundle] enter the thalamic paraventricular nucleus directly, where they branch little and display only a few boutons (Fig. 4L).

Throughout anterior and tuberal levels of the hypothalamus, scattered fibers leave the medial forebrain bundle to arch medially through the zona incerta, and more caudally the posterior hypothalamic area, to enter the midline thalamic nuclei (Figs. 4M–Q and 7C). These fibers initially branch and generate boutons in the nucleus reuniens, especially in the lateral part of the rostral division (Fig. 4M) and in the posterior part of the caudal division (Figs. 4O-Q, 7C).

Throughout anterior and tuberal levels of the hypothalamus, scattered fibers leave the medial forebrain bundle to arch medially through the zona incerta, and more caudally the posterior hypothalamic area, to enter the midline thalamic nuclei (Figs. 4M–Q and 7C). These fibers initially branch and generate boutons in the nucleus reuniens, especially in the lateral part of the rostral division (Fig. 4M) and in the posterior part of the caudal division (Figs. 4O-Q, 7C).

Throughout anterior and tuberal levels of the hypothalamus, scattered fibers leave the medial forebrain bundle to arch medially through the zona incerta, and more caudally the posterior hypothalamic area, to enter the midline thalamic nuclei (Figs. 4M–Q and 7C). These fibers initially branch and generate boutons in the nucleus reuniens, especially in the lateral part of the rostral division (Fig. 4M) and in the posterior part of the caudal division (Figs. 4O-Q, 7C).

....these fibers [collator note: from the medial forebrain bundle] course through the rhomboid, interanteromedial, central medial, and intermediodorsal nuclei and fi- nally reach the thalamic paraventricular nucleus and the medial part of the mediodorsal nucleus (Fig. 4-–Q). These PHAL-labeled axons from the BSTrh generate terminal boutons and boutons-of-passage in all of these cell groups, especially at more caudal levels (Fig. 4O-Q).

....these fibers [collator note: from the medial forebrain bundle] course through the rhomboid, interanteromedial, central medial, and intermediodorsal nuclei and fi- nally reach the thalamic paraventricular nucleus and the medial part of the mediodorsal nucleus (Fig. 4-–Q). These PHAL-labeled axons from the BSTrh generate terminal boutons and boutons-of-passage in all of these cell groups, especially at more caudal levels (Fig. 4O-Q).

....these fibers [collator note: from the medial forebrain bundle] course through the rhomboid, interanteromedial, central medial, and intermediodorsal nuclei and fi- nally reach the thalamic paraventricular nucleus and the medial part of the mediodorsal nucleus (Fig. 4-–Q). These PHAL-labeled axons from the BSTrh generate terminal boutons and boutons-of-passage in all of these cell groups, especially at more caudal levels (Fig. 4O-Q).

....these fibers [collator note: from the medial forebrain bundle] course through the rhomboid, interanteromedial, central medial, and intermediodorsal nuclei and fi- nally reach the thalamic paraventricular nucleus and the medial part of the mediodorsal nucleus (Fig. 4-–Q). These PHAL-labeled axons from the BSTrh generate terminal boutons and boutons-of-passage in all of these cell groups, especially at more caudal levels (Fig. 4O-Q).

....these fibers [collator note: from the medial forebrain bundle] course through the rhomboid, interanteromedial, central medial, and intermediodorsal nuclei and fi- nally reach the thalamic paraventricular nucleus and the medial part of the mediodorsal nucleus (Fig. 4-–Q). These PHAL-labeled axons from the BSTrh generate terminal boutons and boutons-of-passage in all of these cell groups, especially at more caudal levels (Fig. 4O-Q).

...a small group of axons from the BSTrh appears to follow a somewhat odd pathway to the thalamus. These fibers enter the midbrain through the medial forebrain bundle and in the ventral tegmental area extend laterally and dorsally between the medial lemniscus and substantia nigra to enter the parvicellular part of the thalamic subparafascicular nucleus, where they generate a few boutons (Fig. 4U,V).

only a few PHAL-labeled axons with terminal boutons were observed in the lateral habenula (Fig. 4Q,R).

Only a few median axons in the interfascicular and rostral linear nuclei of the raphe´ generate boutons, whereas more were observed in the central linear nucleus (Fig. 4Y,Z).

Only a few median axons in the interfascicular and rostral linear nuclei of the raphe´ generate boutons, whereas more were observed in the central linear nucleus (Fig. 4Y,Z).

Only a few median axons in the interfascicular and rostral linear nuclei of the raphe´ generate boutons, whereas more were observed in the central linear nucleus (Fig. 4Y,Z).

Many fibers in this pathway [collator note: median appear to end in the dorsal nucleus of the raphe´, where they are joined by axons from the lateral pathway (see below), and abundant branching and boutons are observed (Figs. 4AA, 7E).

...some of these fibers [collator note: median branch of the medial forebrain bundle] appear to provide a relatively modest input to the nearby Edinger-Westphal nucleus and nucleus of Darkschewitsch (Fig. 4W-Y).

...some of these fibers [collator note: median branch of the medial forebrain bundle] appear to provide a relatively modest input to the nearby Edinger-Westphal nucleus and nucleus of Darkschewitsch (Fig. 4W-Y).

In the junctional region between interbrain and midbrain the medial forebrain bundle descends through the ventral tegmental area and also gives off a dorsal branch to the periaqueductal gray that courses initially through the posterior hypothalamic nucleus and caudally adjacent ventral tegmental area (Fig. 3).

Some of these fibers [collator note: from the lateral branch of the medial forebrain bundle] travel through the compact substantia nigra, which actually contains a moderate number of terminal boutons caudolaterally, as does the caudolateral tip of the reticular substantia nigra (Fig. 4W-Y).

Some of these fibers [collator note: from the lateral branch of the medial forebrain bundle] travel through the compact substantia nigra, which actually contains a moderate number of terminal boutons caudolaterally, as does the caudolateral tip of the reticular substantia nigra (Fig. 4W-Y).

...an exceptionally dense terminal plexus in the medially adjacent mesencephalic reticular nucleus and retrorubral area (Figs. 4X-Z, 7D).

...an exceptionally dense terminal plexus in the medially adjacent mesencephalic reticular nucleus and retrorubral area (Figs. 4X-Z, 7D).

...an exceptionally dense terminal plexus in the medially adjacent mesencephalic reticular nucleus and retrorubral area (Figs. 4X-Z, 7D).

...many PHAL-labeled axons from the BSTrh course dorsomedially into the periaqueductal gray, where they generate a very dense terminal field in the ventrolateral division (Figs. 4Y-CC, 7E), and light terminal fields in the dorsal, dorsolateral, and other divisions.

...many PHAL-labeled axons from the BSTrh course dorsomedially into the periaqueductal gray, where they generate a very dense terminal field in the ventrolateral division (Figs. 4Y-CC, 7E), and light terminal fields in the dorsal, dorsolateral, and other divisions.

...many PHAL-labeled axons from the BSTrh course dorsomedially into the periaqueductal gray, where they generate a very dense terminal field in the ventrolateral division (Figs. 4Y-CC, 7E), and light terminal fields in the dorsal, dorsolateral, and other divisions.

...many PHAL-labeled axons from the BSTrh course dorsomedially into the periaqueductal gray, where they generate a very dense terminal field in the ventrolateral division (Figs. 4Y-CC, 7E), and light terminal fields in the dorsal, dorsolateral, and other divisions.

Some of these axons [collator note: from the lateral course of the medial forebrain bundle, coming from, the PAG] appear to extend medially into the dorsal nucleus of the raphe´, which is heavily innervated (Figs. 4AA, 7E), and into rostral regions of the laterodorsal tegmental nucleus, which is lightly innervated (Fig. 4BB).

Some of these axons [collator note: from the lateral course of the medial forebrain bundle, coming from, the PAG] appear to extend medially into the dorsal nucleus of the raphe´, which is heavily innervated (Figs. 4AA, 7E), and into rostral regions of the laterodorsal tegmental nucleus, which is lightly innervated (Fig. 4BB).

The caudolateral tip of the pedunculopontine nucleus receives a modest input from the BSTrh (Fig. 4CC-DD)

One restricted region of the pontine central gray in particular receives a massive input from the BSTrh: it is centered between the root of the trochlear nerve and the laterodorsal tegmental nucleus near the rostral tip of the locus coeruleus (Fig. 4DD,EE).

...the ... mesencephalic nucleus of the trigeminal nerve also contains a dense plexus of branched fibers and boutons (Figs. 4EE-GG, 7F).

Other differentiations of the pontine central gray, including Barrington’s nucleus, the lateral tegmental nucleus, the laterodorsal tegmental nucleus, and the locus coeruleus contain only scattered fibers and boutons...

Other differentiations of the pontine central gray, including Barrington’s nucleus, the lateral tegmental nucleus, the laterodorsal tegmental nucleus, and the locus coeruleus contain only scattered fibers and boutons...

Other differentiations of the pontine central gray, including Barrington’s nucleus, the lateral tegmental nucleus, the laterodorsal tegmental nucleus, and the locus coeruleus contain only scattered fibers and boutons...

Other differentiations of the pontine central gray, including Barrington’s nucleus, the lateral tegmental nucleus, the laterodorsal tegmental nucleus, and the locus coeruleus contain only scattered fibers and boutons...

...the rostral tip of the locus coeruleus, and regions immediately surrounding the nucleus, appear to be densely innervated (Figs. 4DD-HH, 7F).

By far the largest terminal field generated by this caudally directed dorsal limb (see Fig. 3) of the lateral pathway is centered in the parabrachial nucleus, and is established by fibers that course dorsal to, ventral to, and transversely through the superior cerebellar peduncle Figs. 4CC- GG, 7F). Here, extremely dense terminal plexuses arising from the BSTrh are observed in the medial and ventral parts of the medial division and in the central and ventral (including the "waist area") parts of the lateral division. The rest of the parabrachial nucleus has only scattered labeled fibers.

By far the largest terminal field generated by this caudally directed dorsal limb (see Fig. 3) of the lateral pathway is centered in the parabrachial nucleus, and is established by fibers that course dorsal to, ventral to, and transversely through the superior cerebellar peduncle Figs. 4CC- GG, 7F). Here, extremely dense terminal plexuses arising from the BSTrh are observed in the medial and ventral parts of the medial division and in the central and ventral (including the "waist area") parts of the lateral division. The rest of the parabrachial nucleus has only scattered labeled fibers.

By far the largest terminal field generated by this caudally directed dorsal limb (see Fig. 3) of the lateral pathway is centered in the parabrachial nucleus, and is established by fibers that course dorsal to, ventral to, and transversely through the superior cerebellar peduncle Figs. 4CC- GG, 7F). Here, extremely dense terminal plexuses arising from the BSTrh are observed in the medial and ventral parts of the medial division and in the central and ventral (including the "waist area") parts of the lateral division. The rest of the parabrachial nucleus has only scattered labeled fibers.

By far the largest terminal field generated by this caudally directed dorsal limb (see Fig. 3) of the lateral pathway is centered in the parabrachial nucleus, and is established by fibers that course dorsal to, ventral to, and transversely through the superior cerebellar peduncle Figs. 4CC- GG, 7F). Here, extremely dense terminal plexuses arising from the BSTrh are observed in the medial and ventral parts of the medial division and in the central and ventral (including the "waist area") parts of the lateral division. The rest of the parabrachial nucleus has only scattered labeled fibers.

...only scattered labeled fibers.

...only scattered labeled fibers.

...only scattered labeled fibers.

...only scattered labeled fibers.

...only scattered labeled fibers.

...only scattered labeled fibers.

Collator note: see Figures 4CC to 4EE.

Just ventral to the parabrachial nucleus, the lateral pathway generates in the supratrigeminal nucleus a moderate plexus of branched fibers and boutons that is denser rostrally (Figs. 4EE-HH, 7F).

the fibers course all around, and to a considerably lesser extent through, the motor trigeminal nucleus (Fig. 4EE-HH).

...a circumscribed, generally moderately dense terminal plexus throughout most of the parvicellular reticular nucleus (Fig. 4GG-QQ), which undoubtedly also receives inputs directly from the ventrally directed fibers of the lateral pathway as they course lateral to the trigeminal motor nucleus (Fig. 4HH,II).

Collator note: there is no description of terminal fields in this nucleus. See Figure 3 and Figure 4Z-DD. Terminal fields appear to be in the caudal part of this nucleus, while the rostral part appears to have fibers of passage.

Collator note: see Figure 4AA-DD.

...ventrally directed axons in the motor root of the trigeminal nerve, forming the lateral border of the motor nucleus, generate considerable boutons-of-passage on their way to the pontine reticular nucleus...

At and caudal to the level of the facial nerve genu, PHAL-labeled axons from the BSTrh generate abundant terminal boutons and boutons-of-passage in the superior and inferior salivatory nuclei, and in adjacent regions of the caudal pontine, gigantocellular, and parvicellular reticular nuclei (Fig. 4HH-KK).

At and caudal to the level of the facial nerve genu, PHAL-labeled axons from the BSTrh generate abundant terminal boutons and boutons-of-passage in the superior and inferior salivatory nuclei, and in adjacent regions of the caudal pontine, gigantocellular, and parvicellular reticular nuclei (Fig. 4HH-KK).

At and caudal to the level of the facial nerve genu, PHAL-labeled axons from the BSTrh generate abundant terminal boutons and boutons-of-passage in the superior and inferior salivatory nuclei, and in adjacent regions of the caudal pontine, gigantocellular, and parvicellular reticular nuclei (Fig. 4HH-KK).

Collator note: see Figure 4II-NN.

Although a few labeled fibers were found scattered here and there in the facial nucleus, they generated very few boutons; somewhat more labeled fibers and boutons were found in and around the accessory facial nucleus (Fig. 4HH-KK).

Although a few labeled fibers were found scattered here and there in the facial nucleus, they generated very few boutons; somewhat more labeled fibers and boutons were found in and around the accessory facial nucleus (Fig. 4HH-KK).

Only scattered PHAL-labeled axons with boutons were observed in the hypoglossal nucleus and spinal nucleus of the trigeminal nerve (Fig. 4OO-QQ).

Only scattered PHAL-labeled axons with boutons were observed in the hypoglossal nucleus and spinal nucleus of the trigeminal nerve (Fig. 4OO-QQ).

...a tremendously dense terminal field is observed in the rostral (gustatory) zone of the medial part of the nucleus of the solitary tract and subjacent regions of the parvicellular reticular nucleus (Figs. 4LL,MM, 8A).

...a tremendously dense terminal field is observed in the rostral (gustatory) zone of the medial part of the nucleus of the solitary tract and subjacent regions of the parvicellular reticular nucleus (Figs. 4LL,MM, 8A).

Proceeding caudally, the dense terminal field in the medial nucleus of the solitary tract extends laterally into ventral regions of the lateral part of the nucleus, leaving dorsal regions virtually free of labeled axons (Figs. 4NN-QQ, 8C).

Proceeding caudally, the dense terminal field in the medial nucleus of the solitary tract extends laterally into ventral regions of the lateral part of the nucleus, leaving dorsal regions virtually free of labeled axons (Figs. 4NN-QQ, 8C).

Other regions of the nucleus of the solitary tract, including the central and gelatinous parts, contain little PHAL labeling.

Other regions of the nucleus of the solitary tract, including the central and gelatinous parts, contain little PHAL labeling.

Caudal to the obex, labeling in the caudal end of the nucleus of the solitary tract (the medial part) decreases dramatically and there is very little input to the commissural part of the nucleus from the BSTrh (Fig. 4RR-TT).

There is an interesting terminal field from the BSTrh in the dorsal motor nucleus of the vagus nerve (Fig. 4OO- UU). Rostrally, a dense terminal plexus is distributed in the periphery-leaving an essentially uninnervated central core (Fig. 8C)—and this pattern persists, with gradually decreasing intensity, until the level of the area postrema.

...rather uniform, light to moderate terminal labeling is observed throughout the nucleus. The caudal tip of the nucleus appears to contain mostly fibers that descend into the spinal cord central gray.

Within the nuclear borders of the dorsal and ventral divisions of the nucleus ambiguus (Fig. 4MM-SS) there are only scattered fibers that branch and display terminal boutons and boutons-of-passage—except in the rostrodorsal tip of the dorsal nucleus ambiguus, where there is a tiny but moderately dense terminal plexus (Figs. 4MM, 8A).

Within the nuclear borders of the dorsal and ventral divisions of the nucleus ambiguus (Fig. 4MM-SS) there are only scattered fibers that branch and display terminal boutons and boutons-of-passage—except in the rostrodorsal tip of the dorsal nucleus ambiguus, where there is a tiny but moderately dense terminal plexus (Figs. 4MM, 8A).

Within the nuclear borders of the dorsal and ventral divisions of the nucleus ambiguus (Fig. 4MM-SS) there are only scattered fibers that branch and display terminal boutons and boutons-of-passage—except in the rostrodorsal tip of the dorsal nucleus ambiguus, where there is a tiny but moderately dense terminal plexus (Figs. 4MM, 8A).

As the medulla approaches the spinal cord, descending BSTrh axons in the parvicellular reticular nucleus enter the medullary reticular nucleus, where they display terminal boutons and boutons-of-passage in both the dorsal and ventral parts (Fig. 4QQ-TT). The few labeled axons in the ventral medullary reticular nucleus are restricted to its lateral margin and some of them descend into the spinal cord.

As the medulla approaches the spinal cord, descending BSTrh axons in the parvicellular reticular nucleus enter the medullary reticular nucleus, where they display terminal boutons and boutons-of-passage in both the dorsal and ventral parts (Fig. 4QQ-TT).

A few axons from the BSTrh enter the upper cervical cord through two routes (Fig. 4TT-VV). Some fibers descend into the central gray from the caudal tip of the dorsal motor nucleus of the vagus nerve and others descend into the general region of the intermediate horn and lateral cervical nucleus directly from the medullary reticular nucleus.

As the medulla approaches the spinal cord, descending BSTrh axons in the parvicellular reticular nucleus enter the medullary reticular nucleus, where they display terminal boutons and boutons-of-passage in both the dorsal and ventral parts (Fig. 4QQ-TT).

In the septal region, scattered axons with boutons were found in all three major parts (rostral, caudal, and ventral) and in the septofimbrial nucleus (Fig. 4D-K).

In the septal region, scattered axons with boutons were found in all three major parts (rostral, caudal, and ventral) and in the septofimbrial nucleus (Fig. 4D-K).

In the septal region, scattered axons with boutons were found in all three major parts (rostral, caudal, and ventral) and in the septofimbrial nucleus (Fig. 4D-K).

In the septal region, scattered axons with boutons were found in all three major parts (rostral, caudal, and ventral) and in the septofimbrial nucleus (Fig. 4D-K).

In the septal region, scattered axons with boutons were found in all three major parts (rostral, caudal, and ventral) and in the septofimbrial nucleus (Fig. 4D-K).

In the septal region, scattered axons with boutons were found in all three major parts (rostral, caudal, and ventral) and in the septofimbrial nucleus (Fig. 4D-K).

In the septal region, scattered axons with boutons were found in all three major parts (rostral, caudal, and ventral) and in the septofimbrial nucleus (Fig. 4D-K).

In the septal region, scattered axons with boutons were found in all three major parts (rostral, caudal, and ventral) and in the septofimbrial nucleus (Fig. 4D-K).

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.

Collator note: this connection is considered to be non-existent, because all of the atlas levels were inspected.