Teratogenic effects of pyridoxine on the spinal cord and dorsal root ganglia of embryonic chickens.

Our understanding of the role of somatosensory feedback in regulating motility during chicken embryogenesis and fetal development in general has been hampered by the lack of an approach to selectively alter specific sensory modalities. In adult mammals, pyridoxine overdose has been shown to cause a peripheral sensory neuropathy characterized by a loss of both muscle and cutaneous afferents, but predominated by a loss of proprioception. We have begun to explore the sensitivity of the nervous system in chicken embryos to the application of pyridoxine on embryonic days 7 and 8, after sensory neurons in the lumbosacral region become post-mitotic. Upon examination of the spinal cord, dorsal root ganglion and peripheral nerves, we find that pyridoxine causes a loss of neurotrophic tyrosine kinase receptor type 3-positive neurons, a decrease in the diameter of the muscle innervating nerve tibialis, and a reduction in the number of large diameter axons in this nerve. However, we found no change in the number of Substance P or calcitonin gene-related peptide-positive neurons, the number of motor neurons or the diameter or axonal composition of the femoral cutaneous nerve. Therefore, pyridoxine causes a peripheral sensory neuropathy in embryonic chickens largely consistent with its effects in adult mammals. However, the lesion may be more restricted to proprioception in the chicken embryo. Therefore, pyridoxine lesion induced during embryogenesis in the chicken embryo can be used to assess how the loss of sensation, largely proprioception, alters spontaneous embryonic motility and subsequent motor development.

Human fetal topographical anatomy of the femoral triangle in relation with change in the hip joint position.

Fetal hip joint is characterized by its highly flexion and lateral rotation although adult anatomy of the femoral nerve and iliofemoral ligament suggested the medial rotation. To investigate topographical anatomy of the femoral nerve, artery and vein in the femoral triangle, we histologically examined 11 fetuses (15-37 weeks). The nerve-vessel topographical relation was basically similar to that in adults, but the fan-like nerve division was seen in the horizontal plane in the smaller specimens in contrast to that included in the sagittal plane in the larger specimens. The medial or internal rotation of the nerve division seemed to occur in late stage fetuses, at birth and at infancy. Blood supply to the head of the femur might be also accelerated by changes in the hip joint position.

Morphological structure and variations of lumbar plexus in human fetuses.

The objective of this study is to study the anatomy of lumbar plexus on human fetuses and to establish its morphometric characteristics and differences compared with adults. Twenty lumbar plexus of 10 human fetal cadavers in different gestational ages and genders were dissected. Lumbar spinal nerves, ganglions, and peripheral nerves were exposed. Normal anatomical structure and variations of lumbar plexus were investigated and morphometric analyses were performed. The diameters of lumbar spinal nerves increased from L1 to L4. The thickest nerve forming the plexus was femoral nerve, the thinnest was ilioinguinal nerve, the longest nerve through posterior abdominal wall was iliohypogastric nerve, and the shortest nerve was femoral nerve. Each plexus had a single furcal nerve and this arose from L4 nerve in all fetuses. No prefix or postfix plexus variation was observed. In two plexuses, L1 nerve was in the form of a single branch. Also, in two plexuses, genitofemoral nerve arose only from L2 nerve. Accessory obturator nerve was observed in four plexuses. According to these findings, the morphological pattern of the lumbar plexus in the fetus was found to be very similar to the lumbar plexus in adults.

Receptive properties of embryonic chick sensory neurons innervating skin.

Receptive properties of embryonic chick sensory neurons innervating skin. J. Neurophysiol. 78: 2560-2568, 1997. We describe a new in vitro skin-nerve preparation from chick embryos that allows detailed study of the functional properties of developing sensory neurons innervating skin. Functionally single sensory afferents were isolated by recording from their axons in microdissected filaments of the cutaneous femoralis medialis nerve, which innervates skin of the thigh. A total of 157 single neurons were characterized from embryos [embryonic days 17-21 (E17-E21), n = 115] and hatchlings up to 3 wk old (n = 42). Neurons were initially classified on the basis of their conduction velocity; those conducting below 1.0 m/s were being classified as C fibers and faster conducting fibers as A fibers. The proportions of A and C fibers encountered in embryonic and hatchling preparations were not very different, indicating that myelination and axon growth proceeds quite slowly over the period studied. Afferent fibers that could subserve nociceptive and nonnociceptive functions were identified in the time period studied. Subpopulations of low-threshold myelinated afferent units exhibited rapidly or slowly adapting discharges to constant force stimuli and could have tactile functions. Many afferent fibers responded to noxious heat and were excited and sensitized by exposure to inflammatory mediators, suggesting that they are nociceptors. The behavior of these units changed in several respects over the period studied. The discharge of C fibers to noxious heat increased with age as did their mechanical thresholds. A substantial population of heat-responsive neurons (34% of the A fibers) present in embryos were not encountered in hatchling chicks. This indicates that substantial changes in the physiological response properties of sensory afferents occur after hatching. We conclude that this new preparation can be used for quantitative assessment of the receptive properties of developing sensory neurons and has considerable potential for the investigation of factors, such as neurotrophins, that specify and influence the functional phenotype of sensory neurons during embryonic development in vivo.

Exogenous calcitonin gene-related peptide causes gubernacular development in neonatal (Tfm) mice with complete androgen resistance.

It has been proposed that testicular descent is controlled indirectly by androgens acting on the central nervous system to mediate migration of the gubernaculum to the scrotum. Accumulating evidence suggests that the genitofemoral nerve may release a newly described neurotransmitter, calcitonin gene-related peptide (CGRP) to stimulate gubernacular motility during migration. This study aimed to determine whether exogenous CGRP could stimulate gubernacular migration in mice with complete androgen resistance (testicular feminization mouse [Tfm]). CGRP was injected into the right groin of neonatal Tfm mice at 2-day intervals until 2 weeks of age, when the length of the processus vaginalis was measured under a dissecting microscope. The processus vaginalis length in normal male littermates was 5.9 +/- 1.8 mm (mean +/- SD) while in the female it was 1.2 +/- 0.9 mm. Exogenous CGRP had no effect on either of these. In Tfm males CGRP caused a significant increase in the length of the processus vaginalis on the injected side (2.3 +/- 0.8 mm) compared with the uninjected side (1.4 +/- 1.0 mm). These results are consistent with the hypothesis that CGRP can replace, at least partially, the effect of androgens on gubernacular migration.

Topography of the femoral nerve in relation to components of the iliopsoas muscle in human fetuses.

Studies were performed on 60 human fetuses of both sexes of 35 to 365 mm C.-R. length (9-40 weeks). The psoas minor muscle was found in 25.8% of cases independently of sex and body side. In 6.45% of cases the muscle continued into psoas major muscle by short, weakly developed tendon. In 97.5% of studied fetuses junctions between tendons of psoas major and iliacus muscles was observed. In 2.5% of cases an independent, short tendon was found in the half of length of the iliacus muscle. In 7.5% of cases connection between the psoas major and iliacus muscles was found. In all cases femoral nerve originated from the lumbar plexus between two layers of the psoas major muscle and it ran in the groove between the psoas major and iliacus muscles towards the muscular lacuna. In 5.0% of cases the nerve divided into crura. In 2.5% of cases the crura embraced anteriorly and posteriorly bundles of the psoas major muscle as well as in 2.5% of cases bundles of the iliacus muscle.

Cultures of human Schwann cells isolated from fetal nerves.

We describe a technique for the preparation of highly purified populations of Schwann cells (SC) from human fetal nerves. Cultures were prepared by chemical and mechanical dissociation of human fetal sciatic nerves by modification of the method of Kreider et al. developed for newborn rat nerve. A time course analysis of some SC-associated markers at different times in vitro was performed employing immunofluorescence (IF) and immunoperoxidase (IP) to determine the percentage of SC in culture and to evaluate the maintenance of specific SC characteristics. We compared this method with that of Askanas et al. which produces enriched SC cultures by utilizing successive re-explantation of the original nerve explant. After 48 h, approximately 90% of the cells were bipolar and S-100+ and over the next two weeks about 70-80% of cells were SC by cytologic and immunocytologic criteria. At 35 days, 35% were SC, whereas less than or equal to 2.5% of 35-day-old multi-explant cultures were SC. The SC obtained by this method displayed the typical morphological and immunological characteristics: they expressed surface laminin and nerve growth factor receptors, whereas fibronectin, which is localized on fibroblast surface, was absent.

Meralgia paresthetica. An anatomical interpretation.

One hundred and ten lateral femoral cutaneous nerves of the thigh were dissected in 90 adult and 20 fetal cadavers. In 51 per cent of adult cases a significant enlargement or pseudoganglion was present in the area of the nerve where it passed under the guinal ligament to turn sharply downward onto the thigh. The histological examination of these pseudoganglions showed a thickened epineurium, perineurium and endoneurium. No pseudoganglions and no histological abnormalities were found in the fetal nerves. It is proposed that erect human posture, combined with the particular course of the lateral femoral cutaneous nerve are the causes of tension, mechanical friction, and irritation of the nerve, and contribute to the development of the pseudoganglion and play a role in the pathogenesis of idiopathic meralgia paresthetica.