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The present study was initiated to determine whether specific hormones would influence adenylate cyclase activity within the maxillary-palatal complex during formation of the hamster secondary palate. Stages from initial appearance of the palatal processes to shortly after birth were studied. Highest basal adenylate cyclase activities occurred during the earliest periods of palate development. This basal enzyme activity began to diminish as palatal fusion occurred and remained lowered until birth. Activation of adenylate cyclase by fluoride was maximal at concentrations of 5-10 mM, and was observed throughout the span of palatal development. Fluoride activation of adenylate cyclase was greatest prior to fusion of the palatal processes, then decreased until birth when a slightly increased enzymatic stimulation was seen. Norepinephrine and epinphrine were the catecholamines most capable of inducing increased activation of adenylate cyclase at most periods of palatal growth. Increased enzyme activity in the presence of norepinephrine was more susceptible to antagonism by the beta adrenergic agent, propranolol, than to the alpha adrenergic agent, phentolamine. The remaining catecholamines, namely isoproterenol and dopamine, displayed a lesser ability to activate the enzyme, and adenylate cyclase was not equally responsive to these catecholamines at identical developmental stages. Other hormones, i.e. histamine, serotonin, thyrotropin, growth hormone, thyroxine and glucagon were generally ineffective in activating the enzyme. Phosphodiesterase activity was not detected until shortly before birth.
Anat Rec 1976 Jun
PMID:Catecholamine-sensitive adenylate cyclase in the developing golden hamster palate. 17 49

The investigation of a high incidence of arthritis in 21 dairy herds disclosed elevated fluorine levels in bone samples. In every herd except one, where herbage and water was contaminated by industrial fall-out, the main source of the fluorine was from mineral supplements; In a few herds, purchased cake or grain balancers contributed to the abnormal levels. Over 100 cows with arthritis had fluroine levels in the bone of between 2000 and 8000 ppm, or were in herds whose diet contained excess fluorine. Characteristic tooth lesions often confirmed the link between arthritis and fluorosis. Sixteen out of 31 samples of mineral supplement contained dangerous levels of fluorine (3000 to 13000 ppm). Grain balancers contained up to 400 ppm F, and dairy cake had levels as high as 140 ppm F. There was a statistical correlation between a high incidence of damage to peri-articular structures, resulting in debility and loss of production, and elevated bone fluorine.
Vet Rec 1977 Jan 29
PMID:Fluorosis in dairy cattle. 84 22

This study applies terms and methods for describing spatial interactions between multivariate spatial point patterns, which are, to our knowledge, new in neurobiology. We consider two categories of points, type 1 and 2, distributed within a certain reference volume (such as a nucleus of the brainstem or a cortical area). The points may, for example, represent different categories of labelled cells or axonal fields of termination. We say that there is spatial neutrality between points of type 1 and 2 if the types are signed by random labelling. If a mechanism drives the two point categories together, we say that the point patterns are positively associated. Conversely, if a mechanism drives type 1 and 2 points apart, we say that they are segregated. By comparing two cumulative distribution functions of distances between points, we can distinguish neutrality, positive association, and segregation. One function, H12(t), is the cumulative distribution function of the distance t between a pair of randomly selected points of type 1 and 2. The other, H00(t), is the corresponding function for a pair of points randomly selected without reference to type. Plots of the estimated difference between these two functions give an indication of positive association, neutrality, or segregation. A statistical test, based on simulations of random (neutral) distributions, can be used to see whether deviations from neutrality are significant. We apply the analysis described above to a major pathway of the brain, namely the ponto-cerebellar projection. Different types of cells in the pontine nuclei are retrogradely labelled with the fluorescent tracers Rhodamine-B-isothiocyanate, Fluoro-Gold, and Fast Blue. The tracers are injected in adjacent or more distant folia of the cerebellar paraflocculus. The location of the somata of labelled cells are recorded and the total distribution reconstructed in three dimensions and displayed on a dynamic graphics workstation. We ask whether different units (folia) in the paraflocculus receive information from the same population, from two different positively associated populations, or from segregated cell populations. We find a statistically significant tendency for cell populations projecting to adjacent folia to be positively associated, although there are few cells containing multiple labels. Populations of neurons projecting to folia wider apart are significantly segregated. From inspections of the reconstructions, using real-time rotations, we find that the swarms of labelled neurons tend to accumulate in shells or lamellae in the pons. Within the lamellae, the cells are aggregated in clusters and bands with empty holes (containing unlabelled ponto-cerebellar cell bodies, presumably projecting to other cerebellar targets) in between.(ABSTRACT TRUNCATED AT 400 WORDS)
Anat Rec 1991 Dec
PMID:Spatial segregation between populations of ponto-cerebellar neurons: statistical analysis of multivariate spatial interactions. 179 78

In the present study, we investigated whether a dorsal thalamic region comparable to the motor part of the mammalian ventral tier (the ventral anterior nucleus, the ventral lateral nucleus, and the oral ventroposterolateral nucleus) exists in pigeon. With this aim, we reinvestigated the projections of the pigeon dorsal pallidum to the dorsal thalamus by using 1) injections of the anterogradely transported form of biotinylated dextran amine (BDA; 10,000 molecular weight) in the pigeon dorsal pallidum (paleostriatum primitivum) and 2) injections of the retrogradely transported form of BDA (3,000 molecular weight) in the pigeon dorsal thalamus. Our results indicate that the dorsal pallidum in pigeons projects to three areas of the dorsal thalamus: the dorsointermediate posterior nucleus, the ventrointermediate area, and the nucleus subrotundus. Only the projection to the dorsointermediate posterior nucleus was described previously (Karten and Dubbeldam [1973] J. Comp. Neurol. 148:61-90; Kitt and Brauth [1982] Neuroscience 6:1551-1566). To investigate whether any of the dorsal thalamic nuclei receiving pallidal input project to a motor cortical field, injections of the retrograde tracer Fluoro-Gold were placed into the rostral Wulst. This is an avian cortical field that appears to contain a region comparable to mammalian primary somatomotor cortex (Karten [1971] Anat. Rec. 169:353; Wild [1992] J. Comp. Neurol. 287:1-18). Our results indicate that neurons in the rostral ventrointermediate area, but not in the nucleus subrotundus, the dorsointermediate posterior nucleus, or the intermediate or caudal parts of the ventrointermediate area, project to the rostral Wulst. In addition to the input from the dorsal pallidum, the avian ventrointermediate area also receives input from the lateral substantia nigra and the lateral and internal cerebellar nuclei (present results). Our results suggest the existence in birds of a pallidothalamocortical loop similar to the pallidoventral tier-motor cortex loop of mammals and suggest that the avian ventrointermediate area is comparable to the motor part of the mammalian ventral tier in both location and connections. If this is confirmed by physiological experiments, then it would indicate that basal ganglia control of movement mediated by a pallidothalamocortical loop may have evolved with the stem reptiles.
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PMID:Evidence for a possible avian dorsal thalamic region comparable to the mammalian ventral anterior, ventral lateral, and oral ventroposterolateral nuclei. 921 42

Spinocerebellar axons have been studied extensively in placental mammals, but there have been no full reports on their origin, laterality, or spinal course in any marsupial. We have used the North American opossum (Didelphis virginiana) to obtain such information and to ask whether any spinocerebellar neurons innervate both the anterior and posterior lobes of the cerebellum through axonal collaterals. To identify spinal neurons that project to the cerebellum, we employed the retrograde transport of Fluoro-Gold (FG) from the anterior lobe, the main target of spinocerebellar axons. In some cases, cerebellar injections of FG were combined with hemisections of the rostral cervical or midthoracic spinal cord, so that laterality of spinocerebellar connections could be established. To determine whether single neurons project to both the anterior lobe and the posterior lobe, injections of Fast Blue (FB) into the anterior lobe were combined with injections of Diamidino yellow (DY) or rhodamine B dextran (RBD) into the posterior lobe, or vice versa. Following injections of FG into the anterior lobe, neurons were labeled throughout the length of the spinal cord, which differed in laminar distribution and laterality of their projections. Among other areas, neurons were labeled in the central cervical nucleus, the nucleus centrobasalis, Clarke's nucleus, the dorsal horn dorsal spinocerebellar tract area, the spinal border region, and Stilling's nucleus. When anterior lobe injections of FB were combined with injections of RBD or DY into the posterior lobe, or vice versa, some double-labeled neurons were present in all major spinocerebellar groups. Cerebellar injections of FG also retrogradely labeled spinocerebellar axons, allowing us to document their locations in the gray matter as well as within the periphery of the lateral and ventral funiculi at all spinal levels. A few spinocerebellar axons also were found in the dorsal funiculus (a dorsal column-spinocerebellar tract), which appeared to originate from neurons in the dorsal part of Clarke's nucleus from the ninth thoracic segment to the first lumbar segment. Our results indicate that spinocerebellar axons in the marsupial opossum are generally comparable in origin, course, and laterality to the same axons in the placental mammals studied to date.
Anat Rec 1998 08
PMID:Origin, course, and laterality of spinocerebellar axons in the North American opossum, Didelphis virginiana. 971 88

The pathological alterations of enamel structure in the teeth of wild boars from fluoride polluted areas in N-Bohemia (Czech Republic) and S-Saxony (Germany) were studied on a macroscopic and a microscopic level. Mandibular bone fluoride concentration (mg F(-)/kg, dry wt; mean +/-SD, individuals <24 months of age) in the specimens from N-Bohemia (754.3+/-149.6) and S-Saxony (490.8+/-135.1) was significantly higher than that of controls (free of dental fluorosis), originating from the western part of Germany (304.7+/-91.0). Fluoride content in bulk enamel (mg F(-)/kg, ash wt) of fluorotic permanent teeth from N-Bohemia (382.1+/-165.2) and S-Saxony (125.0+/-38.3) was likewise significantly increased over that of non-fluorotic control teeth from W-Germany (33.6+/-26.7). Macroscopically, fluorosed wild boar enamel exhibited opacity and discoloration of varying extent, accentuated perikymata as well as hypoplastic and posteruptive surface defects. Microradiographic and scanning electron microscopic analyses revealed enamel subsurface hypomineralization, accentuated Retzius lines and occurrence of broad, hypomineralized incremental bands of abnormal structure underlying hypoplastic enamel surface defects. The presence of zones of aprismatic enamel was associated with these bands. Incremental bands with altered enamel structure and enamel surface hypoplasias, both denoting a severe disturbance during the secretory stage of amelogenesis, have previously been observed in rodents following acute parenteral fluoride dosing. It is concluded that in the chronically fluoride exposed wild boars periods of especially elevated plasma fluoride levels exerted an acute toxic effect on the secretory ameloblasts. A feature not previously reported from fluorosed enamel was the occurrence of canal-like structures that originated at the broad incremental bands and extended into the external enamel. The presence of these canals presumably results from a delay in the resumption of secretory activity by groups of ameloblasts following a fluoride insult. Based on experimental evidence in domestic pigs and in sheep, the overall subsurface hypomineralization of fluorosed wild boar enamel is attributed to a disturbance of enamel maturation. The distribution of fluorotic enamel changes within the dentition of the wild boars could be related to the developmental sequence of tooth formation in the species. Teeth whose crown formation took place prenatally (deciduous teeth) or largely pre-weaning (permanent first molars) exhibited no or only moderate fluorotic enamel alterations. Based on the extension of enamel surface hypoplasias along the coronoapical axes of the tooth crowns, the timing of excess fluoride exposure that caused a marked disruption of enamel matrix secretion was estimated in specimens with a known date of death. The results indicate that the wild boars had been exposed to a particularly severe fluoride impact during autumn and winter of their first year of life.
Anat Rec 2000 05 01
PMID:Disturbed enamel formation in wild boars (Sus scrofa L.) from fluoride polluted areas in Central Europe. 1076 Jul 39

Magnetic resonance (MR; synonymous with NMR = nuclear magnetic resonance) is a universal physical technique best known for non-invasive detection and anatomical mapping of water protons (H). MR-spectroscopy (MRS) records protons from tissue chemicals other than water, intrinsic phosphorus containing metabolites, sodium, potassium, carbon, nitrogen, and fluorine. MRS is therefore an imaging technique with the potential to record human and animal biochemistry in vivo. As a result of wide availability of MRI equipment in research laboratories and hospitals, MRS is a serious competitor with PET to define normal body composition and its perturbation by pharmacological and pathological events. This article describes practical aspects of in vivo MRS with particular emphasis on the brain, where novel metabolites have been described. A survey of these new aspects of neurochemistry emphasize their practical utility as neuronal and axonal markers, measures of energy status, membrane constituents, and osmolytes, as well as some xenobiotics, such as alcohol. The concept of multinuclear in vivo MRS is illustrated by diagnosis and therapeutic monitoring of several human brain disorders. Although these methods are currently most frequently encountered in human studies, as well as with transgenic and knockout mouse models, MRS adds a new dimension to anatomic and histopathologic descriptions.
Anat Rec 2001 04
PMID:Magnetic resonance spectroscopy of the human brain. 1132 70

The hierarchical relationship of the rat primary somatosensory cortex (S1) and secondary somatosensory cortex (S2) is controversial. The existence of a direct thalamocortical projection from ventral posterolateral thalamic nucleus (VPL) to S2 is a key factor in determining the relative position of S2 in the processing flow. In this study, the inter-connections of forepaw and hindpaw representations in VPL, S1, and S2 were examined by neuroanatomical tracing and electrophysiological approaches. In the tracing experiments, VPL, S1, and S2 were electrophysiologically identified, and then iontophoretically injected with biotinylated dextran amine (BDA, a bi-directional tracer). In the double-labeling experiments, two of the following retrograde tracers-BDA, Rhodamine dextran (RD), and/or Fluoro-Gold (FG)-were injected into homotypical S1 and S2 forepaw representations simultaneously. In the electrophysiological studies, paired somatic evoked multiunit responses in S1 and S2 were compared. Our results revealed that: (1) VPL forepaw and hindpaw neurons projected to corresponding S1 and S2 areas in a parallel and somatotopic manner; (2) very low percentage of double projecting VPL neurons were found, indicating parallel and independent pathways from forepaw VPL to S1 and S2; (3) forepaw S1 and S2 were symmetrically and reciprocally connected; (4) response latencies of the S1 and S2 multiunits to forepaw stimulation were in accordance with a direct and parallel pathway. This study provides further evidence to support the equivalent hierarchy of S1 and S2 in processing sensory information of the rat.
Anat Rec (Hoboken) 2008 Aug
PMID:Functional connectivity of the secondary somatosensory cortex of the rat. 1844 4

The present study was conducted to characterize the superior olivary complex (SOC) of the lower brain stem in the pigmented Djungarian hamster Phodopus sungorus. Using Nissl-stained serial cryostat sections from fresh-frozen brains, we determined the borders of the SOC nuclei. We also identified olivocochlear (OC) neurons by retrograde neuronal tracing upon injection of Fluoro-Gold into the scala tympani. To evaluate the SOC as a putative source of neuronal nitric oxide synthase (nNOS), arginine-vasopressin (AVP), oxytocin (OT), vasoactive intestinal polypeptide (VIP), or pituitary adenylate cyclase-activating polypeptide (PACAP) that were all found in the cochlea, we conducted immunohistochemistry on sections exhibiting retrogradely labeled neurons. We did not observe AVP-, OT-, or VIP-immunoreactivity, neither in OC neurons nor in the SOC at all, revealing that cochlear AVP, OT, and VIP are of nonolivary origin. However, we found nNOS, the enzyme responsible for nitric oxide synthesis in neurons, and PACAP in neuronal perikarya of the SOC. Retrogradely labeled neurons of the lateral olivocochlear (LOC) system in the lateral superior olive did not contain PACAP and were only infrequently nNOS-immunoreactive. In contrast, some shell neurons and some of the medial OC (MOC) system exhibited immunofluorescence for either substance. Our data obtained from the dwarf hamster Phodopus sungorus confirm previous observations that a part of the LOC system is nitrergic. They further demonstrate that the medial olivocochlear system is partly nitrergic and use PACAP as neurotransmitter or modulator.
Anat Rec (Hoboken) 2009 Apr
PMID:Neurochemistry of olivocochlear neurons in the hamster. 1930 Dec 82

The aim of this study was to explore the distribution of substance P (SP) and calcitonin gene-related peptide (CGRP) immunoreactive nerve terminals in the penis prepuce and the preputial frenulum. The possible correlation between SP- and CGRP-immunopositive neurons in dorsal root ganglia (DRG) and the afferent sensation of the penile preputial frenulum is also discussed. Immunohistochemistry showed SP- and CGRP-positive nerve terminals in the epidermal basal layer of the prepuce and frenulum in adult human males. The majority of the nerve terminals presented as bundles of different lengths and a few as enlarged nodosities. The density of SP- and CGRP-immunopositive nerve terminals in the preputial frenulum was significantly higher than those in the penis prepuce (P<0.01). Fluoro-Gold (FG) retrograde tracing method was used to trace the origin of nerve terminals in Sprague-Dawley rats. SP and CGRP immunofluorescence labeling was employed to detect the distribution of SP- and CGRP-immunoreactive neurons in DRG. FG retro-labeled neurons were localized in L(6) -DRG and S(1) -DRG. All the FG/SP and FG/CGRP double-labeled neurons were medium or small-sized. One-third of the FG-labeled neurons were SP-immunoreactive, and a half of them CGRP-immunoreactive in L(6) -DRG and S(1) -DRG, respectively. The FG/SP/CGRP-labeled neurons accounted for one fifth of the FG retro-labeled neurons. Taken together, these data suggest that the SP- and CGRP-immunopositive nerve fibers may participate in the transmission of afferent sensation in the preputial frenulum.
Anat Rec (Hoboken) 2011 Mar
PMID:Correlation between the distribution of SP and CGRP immunopositive neurons in dorsal root ganglia and the afferent sensation of preputial frenulum. 2133 13

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