Home About us Contact
|
Home About us Contact | ||
|
|
||
Large Diameter (large + diameter)
Selected AbstractsBreeding requirements of Nahan's Francolin, Francolinus nahan, in Budongo forest reserve, UgandaAFRICAN JOURNAL OF ECOLOGY, Issue 3 2010Eric Sande Abstract The Nahan's Francolin Francolinus nahani is a globally threatened species associated with remnant forests of the eastern equatorial lowlands of the Democratic Republic of the Congo and Uganda. We studied the species in the Budongo Forest Reserve during March 1998 to January 2000 in an attempt to document some aspects of breeding requirements. We located nests by physically searching the forest and through following radio-tagged adults. We measured demographical and habitat parameters associated with each nest. Our data suggest that trees of large diameter at breast height with appropriate buttress formation are important for long-time survival of Nahan's Francolins. Résumé Le francolin de Nahan Francolinus nahani est une espèce menacée au niveau mondial qui est liée à des forêts résiduelles dans les plaines équatoriales de l'est de la République Démocratique du Congo et d'Ouganda. Nous avons étudié cette espèce de mars 1998 à janvier 2000 dans la Réserve forestière de Budongo pour tenter de documenter certains aspects de ses exigences en matière de reproduction. Nous avons localisé des nids en fouillant la forêt et en suivant des adultes équipés de radio-émetteurs. Nous avons mesuré des paramètres démographiques et de l'habitat associés à chaque nid. Nos données laissent penser que les arbres qui ont un grand diamètre dbh avec une formation de soutien appropriée sont importants pour la survie des francolins de Nahan à long terme. [source] Biomechanics of the rostrum and the role of facial suturesJOURNAL OF MORPHOLOGY, Issue 1 2003Katherine L. Rafferty Abstract The rostrum is a large diameter, thin-walled tubular structure that receives loads from the teeth. The rostrum can be conceptualized both as a rigid structure and as an assemblage of several bones that interface at sutures. Using miniature pigs, we measured in vivo strains in rostral bones and sutures to gain a better understanding of how the rostrum behaves biomechanically. Strains in the premaxillary and nasal bones were low but the adjacent maxillary-premaxillary, internasal, and intermaxillary suture strains were larger by an order of magnitude. While this finding emphasizes the composite nature of the rostrum, we also found evidence in the maxillary and nasal bones for rigid structural behavior. Namely, maxillary strain is consistent with a short beam model under shear deformation from molar loading. Strain in the nasal bones is only partially supported by a long beam model; rather, a complex pattern of dorsal bending of the rostrum from incisor contact and lateral compression is suggested. Torsion of the maxilla is ruled out due to the bilateral occlusion of pigs and the similar working and balancing side strains, although it may be important in mammals with a unilateral bite. Torsional loading does appear important in the premaxillae, which demonstrate working and balancing side changes in strain orientation. These differences are attributed to asymmetrical incisor contact occurring at the end of the power stroke. J. Morphol. 257:33,44, 2003. © 2003 Wiley-Liss, Inc. [source] Congenital hypomyelination neuropathy in a newborn infant: unusual cause of diaphragmatic and vocal cord paralysesJOURNAL OF THE PERIPHERAL NERVOUS SYSTEM, Issue 2 2002JS Hahn We report a case of congenital hypomyelination neuropathy presenting at birth. The infant had generalized hypotonia and weakness. There was decreased respiratory effort along with a right phrenic nerve and left vocal cord paralyses. Tongue fasciculations were present. Deep tendon reflexes were absent in the upper extremities and hypoactive (1+) in the lower extremities. Magnetic resonance imaging of the head revealed no intracranial abnormalities, including normal cerebral myelination. Nerve conduction study showed absence of motor and sensory action potentials in the hands when the nerves in the upper limbs were stimulated. A motor response could be elicited only in the proximal leg muscles. Needle electromyography study was normal in the proximal limb muscles, but showed active denervation in the distal muscles of the arm and leg. These findings were thought to be consistent with a length-dependent sensorimotor peripheral polyneuropathy of axonal type with greater denervation of the distal muscles. A biopsy of the quadriceps muscle showed mild variability in fiber diameter, but no group typing or group atrophy. The muscle fibers showed no intrinsic abnormalities. Biopsy of the sural nerve showed scattered axons with very thin myelin sheaths. There was also a nearly complete loss of large diameter myelinated fibers. No onion bulb formations were noted. These findings were thought to be consistent with congenital hypomyelination neuropathy with a component of axonopathy. DNA analysis for identification of previously characterized mutations in the genes MPZ, PMP22, and EGR2 was negative. Several attempts at extubation failed and the infant became increasingly ventilator-dependent with increasing episodes of desaturation and hypercapnea. He also developed increasing weakness and decreased movement of all extremities. He underwent surgery at 2 months of age for placement of a gastrostomy tube and a tracheostomy. He was discharged from the hospital on a ventilator at 6 months of age. The infant was 13 months old at the time of submission of this report. Although he appears cognitively normal, he remains profoundly hypotonic and is on a home ventilator. There was no evidence of progressive weakness. Congenital hypomyelination neuropathy is a rare form of neonatal neuropathy that should be considered in the differential diagnosis of a newborn with profound hypotonia and weakness. It appears to be a heterogeneous disorder with some of the cases being caused by specific genetic mutations. [source] Peripheral synapses and giant neurons in whip spidersMICROSCOPY RESEARCH AND TECHNIQUE, Issue 4 2002Rainer Foelix Among invertebrates the synapses between neurons are generally restricted to ganglia, i.e., to the central nervous system (CNS). As an exception, synapses occur in the sensory nerves of arachnid legs, indicating that some nervous integration is already taking place far out in the periphery. In the antenniform legs of whip spiders (Amblypygi), a very special synaptic circuit is present. These highly modified legs contain several large interneurons (giant neurons) that receive mechanosensory input from 700,1,500 tarsal bristles. Some of the sensory cell axons contact a giant neuron at its short, branched dendrite, a few at the soma, but most synapse onto the long giant axon. The fine structure of these synapses resembles that of typical chemical synapses in other arthropods. Although thousands of sensory fibers converge on a single giant neuron, there is no reduction in the actual number of sensory fibers, because these afferent fibers continue their course to the CNS after having made several en passant synapses onto the giant neuron. Touching a single tarsal bristle is sufficient to elicit action potentials in a giant neuron. Owing to the large diameter of the giant axon (10,20 ,m), the action potentials reach the CNS within 55 ms, at conduction velocities of up to 7 m/s. However, mechanical stimulation of the tarsal bristles does not elicit a fast escape response, in contrast to giant fiber systems in earthworms, certain insects, and crayfishes. A quick escape is observed in whip spiders, but only after stimulation of the filiform hairs (trichobothria) on the regular walking legs. Although the giant fiber system in the antenniform legs undoubtedly provides a fast sensory pathway, its biological significance is not clearly understood at the moment. Microsc. Res. Tech. 58:272,282, 2002. © 2002 Wiley-Liss, Inc. [source] Modeling and performance analysis of high-speed, low-power InAs nanowire field-effect transistorsPHYSICA STATUS SOLIDI (C) - CURRENT TOPICS IN SOLID STATE PHYSICS, Issue 10 2010M. Abul Khayer Abstract The performance metrics of InAs nanowire (NW) field-effect transistors (FETs) are investigated using an analytical 2-band model and a semiclassical ballistic transport model. The analysis of the diameter dependence of the current, gate delay, power-delay product, and energy-delay product of InAs NW FETs are presented. Because of their small density of states, relatively large diameter, , 60 nm, InAs NW FETs operate in the quantum capacitance limit (QCL). Both the energy-delay and power-delay products are reduced as the diameter is reduced, and optimum designs are obtained for diameters in the range of 10 , 40 nm. Power-delay product varies from 2 × 10,20 J to 63 × 10,20 J for all devices with a source Fermi level range of 0.1 , 0.2 eV. The gate delay time for all devices varies from 4 , 16 fs and decreases as the NW diameter increases. These NW FETs provide both ultra-low power switching and high-speed (© 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source] The migration of gold on large diameter silicon nanowires in oxygenous systemPHYSICA STATUS SOLIDI (C) - CURRENT TOPICS IN SOLID STATE PHYSICS, Issue 3 2009Yuting Wan Abstract Silicon nanowires (SiNWs) of about 200-500 nm in diameter with branch morphology were fabricated by one step in oxygenous chemical vapour deposition (CVD) system. The catalyst Au particles on branches came from the migration of Au on the tip of trunk. We speculate that the migration of gold is due to the large diameter of gold particles. (© 2009 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source] Effects of Betamethasone Treatment on Central Myelination in Fetal Sheep: An Electron Microscopical StudyANATOMIA, HISTOLOGIA, EMBRYOLOGIA, Issue 2 2008C. Raschke Summary The long-term effect of betamethasone on the myelination of commissural and associational fibres was investigated in fetal sheep. We studied the corpus callosum and subcortical white matter by electron microscopy. Axons were subdivided into classes according to their axonal diameter: class I: ,0.65 ,m; class II: 0.66,0.84 ,m; class III: ,0.85 ,m. Under control conditions, the different functions of the white matter tracts examined were reflected by three morphological criteria: (1) there was a diverse percentage of axonal classes in the investigated areas. In corpus callosum the axons of class II predominate (47.1%). In the subcortical white matter, class I axons with small diameter are in majority (40.8%). (2) In the subcortical white matter more axons are present, with especially large diameter and hence of axonal class III. (3) The axons of subcortical white matter have thicker myelin sheaths than those of the corpus callosum. Betamethasone administration caused a significant decrease of class II axons in the corpus callosum (36.9%). In corpus callosum, axons of all classes present thicker myelin sheaths. Betamethasone administration resulted in a change in the formation of the myelin sheath in the commissural fibres of the corpus callosum but not in the associational fibres of the subcortical white matter. This could be the morphological correlate to behavioral and cognitive changes known to occur in humans after prenatal glucocorticoid treatment. [source] Intravital insights in skin wound healing using the mouse dorsal skin fold chamberJOURNAL OF ANATOMY, Issue 6 2007Heiko Sorg Abstract The skin fold chamber is one of the most accepted animal models for studying the microcirculation both in health and disease. Here we describe for the first time the alternative use of the skin fold chamber in mice for intravital microscopic investigation of skin regeneration after creating a full dermal thickness wound. The dorsal skin fold chamber was implanted in hairless SKH1-hr mice and a full dermal thickness wound (area ~4 mm2) was created. By means of intravital fluorescence microscopy, the kinetics of wound healing were analyzed for 12 days post wounding with assessment of epithelialization and nutritive perfusion. The morphology of the regenerating skin was characterized by hematoxylin-eosin histology and immunohistochemistry for proliferation and microvessel density. The model allows the continuous visualization of wound closure with complete epithelialization at day 12. Furthermore, a sola cutis se reficientis could be described by an inner circular ring of vessels at the wound margin surrounded by outer radial passing vessels. Inner circular vessels presented initially with large diameters and matured towards diameters of less than 15 µm for conversion into radial spreading outer vessels. Furthermore, wound healing showed all diverse core issues of skin repair. In summary, we were able to establish a model for the analysis of microcirculation in the healing skin of the mouse. This versatile model allows distinct analysis of new vessel formation and maturation in regenerating skin as well as evaluation of skin healing under different pathologic conditions. [source] Demyelination Induces the Decline of the Myelinated Fiber Length in Aged Rat White MatterTHE ANATOMICAL RECORD : ADVANCES IN INTEGRATIVE ANATOMY AND EVOLUTIONARY BIOLOGY, Issue 4 2009Chen Li Abstract To determine the exact reason for the age-related decline of the myelinated fiber length in white matter, we performed this study. In middle-aged rats, there was age-related loss of the unmyelinated fibers with large diameters. The demyelination of the myelinated fibers with small diameters in middle-aged rat white matter might make the age-related decrease of the unmyelinated fibers with small diameters in the white matter unnoticeable. However, in old-aged female rats, the unmyelinated fibers with large and small diameters significantly degenerated together and that the unmyelinated fibers formed from the demyelination of the myelinated fibers could not replenish the age-related loss of the unmyelinated fibers in the white matter. In conclusion, this study suggested that demyelination of myelinated fibers with small diameters in aged white matter might be the key mechanism of the significant decline of the myelinated fiber length in aged white matter. Anat Rec, 292:528,535, 2009. © 2009 Wiley-Liss, Inc. [source] | |||||||||||||