Home About us Contact
|
Home About us Contact | ||
|
|
||
Fibre Systems (fibre + system)
Selected AbstractsRepeated long-term potentiation induces mossy fibre sprouting and changes the sensibility of hippocampal granule cells to subconvulsive doses of pentylenetetrazolEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 4 2000Hadir Hassan Abstract Electrical and chemical kindling induces sprouting of the mossy fibre system and potentiation of evoked field potentials in the dentate gyrus. It has been postulated that such changes may also be induced by repeated induction of long-term potentiation (LTP) with tetanic stimulation of the perforant pathway. LTP was induced in rats chronically implanted with stimulation electrodes in the ipsilateral and contralateral angular bundles and with a recording electrode in the ipsilateral dorsal dentate gyrus. The animals were stimulated 10 times on 10 consecutive days but with different tetanization strengths. Sprouting of the mossy fibres terminating in the CA3 region was significantly induced only in the group of ,strongly' tetanized animals, but not in that of ,weakly' tetanized animals, or in low-frequency stimulated animals. Additionally, a novel form of potentiation which was previously found in pentylenetetrazol (PTZ)-kindled animals was also observed in the group of ,strongly' and ,weakly' tetanized rats. Differences in duration of this potentiation were found between the two groups of animals tetanized with different strengths. The results further demonstrate that morphological and functional changes in the hippocampus, similar to those seen after kindling, can also occur in an activation paradigm leading to long-lasting synaptic plasticity but not accompanied by seizure activity. [source] DICHOTOMY OF CORTICAL PAIN PROCESSINGPAIN MEDICINE, Issue 2 2002Article first published online: 4 JUL 200 Jahangir Maleki, Rollin M. Gallagher, Pain Medicine and Rehabilitation Center, MCP/Hahnemann School of Medicine Introduction: Functional MRI and PET studies of cortical pain processing indicate segregated pain pathways above the thalamus. Although experimental pain may result in multiple areas of altered cortical activity, it is postulated that thalamic pain fibers known as the lateral system, projecting to sensory cortex, serve to localize pain, whereas medial pathways projecting to limbic cortex, process affective aspects of pain. Case Study: A 27 y/o female, with left upper extremity pain and severe allodynia from Complex Regional Pain Syndrome, Type I (CRPS I / RSD), after receiving intra-pleural bupivacaine blocks developed an ipsilateral focal-onset secondary generalized tonic clonic seizure. This was followed by one hour of post-ictal confusion. Simultaneously she developed a dense left-sided motor and sensory deficit (Todd's palsy) with a motor deficit resolving in one day whereas a sensory deficit lasted 2 days. Throughout the duration of the sensory deficit she denied any left arm pain, although she continued to report the same intensity of pain, but now localized to her epigastric region. Interestingly, despite the lack of sensory perception on the left side, palpation of her left arm resulted in increased epigastric pain and suffering. Discussion: This case indicates a bifurcation of the pain pathway between the thalamus and cortex. Due to focal seizure activity, the sensory cortex (i.e. lateral system) was transiently rendered dysfunctional, during which time the continued presence of pain and allodynia without appropriate localization likely resulted from pain conduction, from the thalamus to functional limbic structures such as Cingulum (i.e. via the medial fibre system). Conclusion: This case report strongly supports the hypothesis of medial and lateral pain conducting fibers branching at the level of thalamus with medial sub-serving the emotional aspects of pain by projection to limbic cortex, whereas lateral fibres project to sensory cortex, primarily serving a localizing function. [source] Serotonin in the rabbit ileum: Localization, uptake, and effect on motilityTHE ANATOMICAL RECORD : ADVANCES IN INTEGRATIVE ANATOMY AND EVOLUTIONARY BIOLOGY, Issue 2 2003Viktória Dénes Abstract Repeated experiments to localise serotonin in the myenteric plexus of rabbit ileum failed. After preincubation in serotonin (10,5 M), an extensive varicose fibre system was detected by immunocytochemical methods. Stained fibres left the myenteric plexus and ran to the muscle layers. Labelled cell bodies could not be found, even after pretreatment with colchicine or pargyline. Application of reserpine (10,5 M) and fluoxetine (10,5 M) prevented serotonin uptake. Antisera against tryptophan hydroxylase revealed a rich fibre system, including those processes that entered the tertiary plexus. These fibres were able to accumulate serotonin, but again the cell bodies could not be detected. Serotonin caused concentration-dependent contraction in the longitudinal muscle layer of the rabbit ileum. Pretreatment with tetrodotoxin strongly reduced the effect of serotonin. Preapplication of atropine caused a slight decrease of response evoked by serotonin. Combined administration of tetrodotoxin and atropine significantly reduced the responses to serotonin, but did not abolish them. At the same time, agonists of 5-HT2 and 5-HT4 receptors caused concentration-dependent contractions. Our studies show that: 1) Without pretreatment, serotonin cannot be detected in the myenteric plexus of rabbit ileum. 2) An extensive uptake system works in this plexus. If released from myenteric nerve fibres, serotonin may evoke contractions in indirect and direct ways. 3) There may be an extrinsic serotoninergic innervation from the mesenteric ganglia. 4) Serotonin exerts its effect through 5-HT2 and 5-HT4 receptors on smooth muscle cells and nerve elements. Anat Rec Part A 271A:368,376, 2003. © 2003 Wiley-Liss, Inc. [source] Microscopic configurations on the bare-bone surfaces of mammalian synovial jointsINTERNATIONAL JOURNAL OF OSTEOARCHAEOLOGY, Issue 6 2001A.E.W. MilesArticle first published online: 30 NOV 200 Abstract The smoothness characteristic of synovial joint surfaces of bare bones is shown to be an illusion; low-power microscopy of young adult human bones from interments revealed, on the surfaces of a variety of synovial joints, a system of basically hemispherical elevations, often united as short chains or groups. This system was also found on joints of a variety of species of six mammalian orders. Under the higher magnification of scanning electron microscopy (SEM), many elevations had a pit at their summits. The bare-bone surfaces of synovial joints have a thin covering of mineralized cartilage, including its mineralizing-front, which survives taphonomic processes, as well as the preparative procedures used in the study of articular surfaces. In its formative phase, the front has the chondrocyte,columnar structure of cartilage. It is postulated here that the newly-discovered elevations arise when cartilage formation is ceasing, or becoming dormant, and that each column-unit produces a globular mineralized mass, often with a pit which had accommodated a chondrocyte. These masses may incorporate the fibre systems of the unmineralized cartilage and aid in its attachment to the bony surface. Copyright © 2001 John Wiley & Sons, Ltd. [source] Evolution of the amygdaloid complex in vertebrates, with special reference to the anamnio-amniotic transitionJOURNAL OF ANATOMY, Issue 2 2007Nerea Moreno Abstract Numerous studies over the last few years have demonstrated that the amygdaloid complex in amniotes shares basic developmental, hodological and neurochemical features. Furthermore, homologous territories of all the main amygdaloid subdivisions have been recognized among amniotes, primarily highlighted by the common expression patterns for numerous developmental genes. Thus, derivatives from the lateral pallium, ventral pallium and subpallium constitute the fundamental parts of the amygdaloid complex. With the development of new technical approaches, study of the precise neuroanatomy of the telencephalon of the anuran amphibians (anamniotes) has been possible. Current embryological, hodological and immunohistochemical evidence strongly suggests that most of the structures present in amniotes are recognizable in these anamniotes. These investigations have yielded enough results to support the notion that the organization of the anuran amygdaloid complex includes subdivisions with their origin in ventral pallial and subpallial territories; a strong relationship with the vomeronasal and olfactory systems; abundant intra-amygdaloid connections; a main output centre involved in the autonomic system; recognizable amygdaloid fibre systems; and distinct chemoarchitecture. Therefore, the new ideas regarding the amygdaloid evolution based on the recent findings in anamniotes, and especially in anurans, strongly support the notion that basic amygdaloid structures were present at least in the brain of ancestral tetrapods organized following a basic plan shared by tetrapods. [source] Orientational analysis of planar fibre systems observed as a Poisson shot-noise processJOURNAL OF MICROSCOPY, Issue 1 2007SALME KÄRKKÄINEN Summary We consider two-dimensional fibrous materials observed as a digital greyscale image. The problem addressed is to estimate the orientation distribution of unobservable thin fibres from a greyscale image modelled by a planar Poisson shot-noise process. The classical stereological approach is not straightforward, because the point intensities of thin fibres along sampling lines may not be observable. For such cases, Kärkkäinen et al. (2001) suggested the use of scaled variograms determined from grey values along sampling lines in several directions. Their method is based on the assumption that the proportion between the scaled variograms and point intensities in all directions of sampling lines is constant. This assumption is proved to be valid asymptotically for Boolean models and dead leaves models, under some regularity conditions. In this work, we derive the scaled variogram and its approximations for a planar Poisson shot-noise process using the modified Bessel function. In the case of reasonable high resolution of the observed image, the scaled variogram has an approximate functional relation to the point intensity, and in the case of high resolution the relation is proportional. As the obtained relations are approximative, they are tested on simulations. The existing orientation analysis method based on the proportional relation is further experimented on images with different resolutions. The new result, the asymptotic proportionality between the scaled variograms and the point intensities for a Poisson shot-noise process, completes the earlier results for the Boolean models and for the dead leaves models. [source] Xylem heterochrony: an unappreciated key to angiosperm origin and diversificationsBOTANICAL JOURNAL OF THE LINNEAN SOCIETY, Issue 1 2009SHERWIN CARLQUIST fls All angiosperms can be arranged along a spectrum from a preponderance of juvenile traits (cambial activity lost) to one of nearly all adult characters (cambium maximally active, mature patterns realized rapidly early in ontogeny). Angiosperms are unique among seed plants in the width of this spectrum. Xylem patterns are considered here to be indicative of contemporary function, not relictual. Nevertheless, most families of early-divergent angiosperms exhibit paedomorphic xylem structure, a circumstance that is most plausibly explained by the concept that early angiosperms had sympodial growth forms featuring limited accumulation of secondary xylem. Sympodial habits have been retained in various ways not only in early-divergent angiosperms, but also among eudicots in Ranunculales. The early angiosperm vessel, relatively marginal in conductive abilities, was improved in various ways, with concurrent redesign of parenchyma and fibre systems to enhance conductive, storage and mechanical capabilities. Flexibility in degree of cambial activity and kinds of juvenile/adult expressions has been basic to diversification in eudicots as a whole. Sympodial growth that lacks cambium, such as in monocots, provides advantages by various features, such as organographic compartmentalization of tracheid and vessel types. Woody monopodial eudicots were able to diversify as a result of production of new solutions to embolism prevention and conductive efficiency, particularly in vessel design, but also in parenchyma histology. Criteria for paedomorphosis in wood include slow decrease in length of fusiform cambial initials, predominance of procumbent ray cells and lesser degrees of cambial activity. Retention of ancestral features in primary xylem (the ,refugium' effect) is, in effect, a sort of inverse evidence of acceleration of adult patterns in later formed xylem. Xylem heterochrony is analysed not only for all key groups of angiosperms (including monocots), but also for different growth forms, such as lianas, annuals, various types of perennials, rosette trees and stem succulents. Xylary phenomena that potentially could be confused with heterochrony are discussed. Heterochronous xylem features seem at least as important as other often cited factors (pollination biology) because various degrees of paedomorphic xylem are found in so many growth forms that relate in xylary terms to ecological sites. Xylem heterochrony can probably be accessed during evolution by relatively simple gene changes in a wide range of angiosperms and thus represents a current as well as a past source of variation upon which diversification was based. Results discussed here are compatible with both current molecular-based phylogenetic analyses and all recent physiological work on conduction in xylem and thus represent an integration of these fields. © 2009 The Linnean Society of London, Botanical Journal of the Linnean Society, 2009, 161, 26,65. [source] | |||||||||||||