Dendritic spine density changes and homeostatic synaptic scaling: a meta-analysis of animal studies
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01.01.2022 |
Moulin T.C.
Rayêe D.
Schiöth H.B.
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Neural Regeneration Research |
10.4103/1673-5374.314283 |
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Mechanisms of homeostatic plasticity promote compensatory changes of cellular excitability in response to chronic changes in the network activity. This type of plasticity is essential for the maintenance of brain circuits and is involved in the regulation of neural regeneration and the progress of neurodegenerative disorders. One of the most studied homeostatic processes is synaptic scaling, where global synaptic adjustments take place to restore the neuronal firing rate to a physiological range by the modulation of synaptic receptors, neurotransmitters, and morphology. However, despite the comprehensive literature on the electrophysiological properties of homeostatic scaling, less is known about the structural adjustments that occur in the synapses and dendritic tree. In this study, we performed a meta-analysis of articles investigating the effects of chronic network excitation (synaptic downscaling) or inhibition (synaptic upscaling) on the dendritic spine density of neurons. Our results indicate that spine density is consistently reduced after protocols that induce synaptic scaling, independent of the intervention type. Then, we discuss the implication of our findings to the current knowledge on the morphological changes induced by homeostatic plasticity.
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Anatomical and radiological features of the bone organization of the anterior part of the mandible
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01.09.2020 |
Vasil'ev Y.
Paulsen F.
Dydykin S.
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Annals of Anatomy |
10.1016/j.aanat.2020.151512 |
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© 2020 Elsevier GmbH Background: The classical anatomical representation of the lingual relief of the mental region of the mandible reflects the presence of geniohyoid as well as genioglossus attachment areas, which are divided into two or single areas. The International Anatomical Terminology (contains references to the presence of upper and lower spinae mentales, but the terminology does not reflect the content of these structures. The aim of this study was to examine and classify the lingual canals of the mental region. Materials and methods: Using a Sirona ORTHOPHOS XG 3D tomograph (isotropic voxel size 0.1 in high-resolution mode) and KaVo 3D eXam cone beam computed tomography, the mental region of the mandible was analyzed in 561 patients aged 18–75 years with regard to bone density and the occurrence of a canal opening on the lingual side of the mandible. In order to visualize the mental spine area, another 50 mandibles were analyzed, divided into two groups of 25 mandibels each: 25 native and 25 dry preparations. Results: By prevalence the following channel types were classified: in 33% type I (narrow); in 32% type II (double) and of these in 17.5% (convergent) and type IIb in 14.5% a type IIb subtype (non-convergent); in 14% type III (wide); in 12% type IV (hook-shaped) and in 9% type V (diverging channel), identifying three combined components: the system of channels of the superior and inferior mental spine, and the transversal intraosseous canal of the mental region of the mandible. Conclusions: Our anatomical and radiological approach allowed us to suggest a new classification of intraosseous organization of the anterior part of the human mandible. As a result of studying X-ray anatomical and anatomical-topographical, constitutional-based, structural features of the mandible, intraosseous structures of the anterior mandible were clarified and classified, which solve not only terminological disputes, but also are important clinical guidelines for bone surgery, prosthetics, traumatology, endodontic treatment, dental implantation and local anesthesia.
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Memory consolidation impairment induced by Interleukin-1β is associated with changes in hippocampal structural plasticity
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16.09.2019 |
Herrera G.
Calfa G.
Schiöth H.
Lasaga M.
Scimonelli T.
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Behavioural Brain Research |
10.1016/j.bbr.2019.111969 |
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© 2019 Elsevier B.V. Pro-inflammatory cytokines, particularly Interleukin-1β (IL-1β), can affect cognitive processes such as learning and memory. The aim of this study was to establish whether the effect of IL-1β on contextual fear memory is associated with changes in hippocampal structural plasticity. We also studied the effect of α-melanocyte-stimulating hormone (α-MSH), a potent anti-inflammatory and neuro-protective peptide. Different groups of animals were implanted bilaterally in dorsal hippocampus (DH). After recovery they were conditioned for contextual fear memory and received the different treatments (vehicle, IL-1β, α-MSH or IL-1β + α-MSH). Memory was assessed 24 hs after conditioning and immediately after rats were perfused for dendritic spine analysis. Our results show that local hippocampal administration of IL-1β just after memory encoding induced impairment in contextual memory and a reduction in the total density of CA1 hippocampal dendritic spines, particularly the mature ones. α-MSH administration reversed the IL-1β induced changes. The results suggest that neuro-inflammation induced by IL-1β interferes with experience-dependent structural plasticity in DH whereas α-MSH has a beneficial modulatory role in preventing this effect.
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Structural Organization and Morphometric Characteristic of the Vertebral Canals in the Cervical Segment of the Spine
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01.02.2018 |
Zhandarov K.
Nikolaev A.
Tel’pukhov V.
Nelipa M.
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Neuroscience and Behavioral Physiology |
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© 2018, Springer Science+Business Media, LLC, part of Springer Nature. The aim of the present work was to study the topographic anatomical characteristics of the intervertebral canal. Studies were performed using 37 anatomical preparations including 185 intervertebral canals in section complexes of the of the cervical segment of the spines of people dying at age 58–78 years. Histological investigations were performed using 32 preparations of ligamentous structures. Five pairs of true intervertebral canals were identified in segments C2–C7. The mean parameters of intervertebral canals were: length 1.46–2.0 mm; outer opening 0.8–1.4 mm; inner opening 0.4–0.8 mm. Histological studies confirmed data showing that the structures observed were ligaments, with diameters ranging from 0.1 to 0.3 mm and length from 0.4 to 0.6 mm. Intervertebral canals could be divided into three groups: those with clearly defined true ligaments (46%), ligaments with additional false ligaments (fibrotic bands) compressing the spinal nerve (43%), and canals without ligaments but with bony and fibrotic protuberances compressing the spinal nerve (11%).
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hip-spine syndrome (Literature review)
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01.01.2018 |
Meskhi K.
Kargaltsev A.
Makarov M.
Vorona B.
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Russian Electronic Journal of Radiology |
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© 2018 Russian Electronic Journal of Radiology.All Rights Reserved. The incidence of hip osteoarthritis and degenerative lumbar spine stenosis increases with the lifespan. The combination of these two conditions is not rare and is known as “hip-spine syndrome” in literature. Due to the similarity of symptoms the main problem is to determine the primary pain generator. Solving this diagnostic problem can lead to proper treatment, surgical or other. Purpose. To provide the literature review of the hip-spine syndrome. Materials and methods. We analyzed articles published on https://www.ncbi.nlm.nih.gov/pubmed during 2004-2018 searching for keywords: «radiographic and clinical hip osteoarthritis» - 1141 results, «lumbar spine stenosis and MRI canal» - 521 results and «hip-spine syndrome» - 35 results, 54 items were chosen due to the objective. Results. Primary source of pain for patients with hip-spine syndrome often remains unclear. The existing diagnostic algorithms are imperfect, about 25% of patients do not feel relief of pain after spine surgery or total hip arthroplasty. Mandatory x-ray examination in case of unknown source of pain is important and can show changes in hip and lumbar spine. That can help to change the way of search for pain generator Conclusion. It is necessary to create new diagnostic algorithms that will be harmless for patients and will be with maximum value for surgeons.
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Clinical and radiographic characteristics of patients with cervicalgia after previous injury to the pectoral girdle
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01.01.2018 |
Kalinsky E.
Chernyaev A.
Slinyakov L.
Lychagin A.
Kalinsky B.
Goncharuk Y.
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Bulletin of Russian State Medical University |
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© 2018 Pirogov Russian National Research Medical University. All rights reserved. The health of the cervical spine (CS) and the functional state of the pectoral girdle are interdependent. Injuries to the pectoral girdle can be an underlying cause of CS pain, including cervicalgia. The aim of this study was to evaluate the condition of the cervical spine in patients with cervicalgia developed after a pectoral girdle injury using radiographic and physical examinations. The study included 400 patients complaining of cervicalgia. Pain intensity was evaluated on the visual analog scale (VAS); the impact of the condition on patients' lives was assessed using the Neck Disability Index (Russian language). During physical examinations, the general health of the spine was evaluated and abnormalities in the cervical spine were noted. All participants underwent a radiographic scan of the cervical spine in the lateral and anterior-posterior projections; 49.5% of patients underwent postural digital radiography to evaluate their CS sagittal profile. All patients received an MRI scan. Based on the results, we identified certain functional changes in the cervical spine which possibly caused cervicalgia. Structurally and functionally, the changes were divided into static and dynamic. We conclude that cervical spinal pain is a common problem among patients with previous pectoral girdle injury.
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Low-invasive reconstruction of spine discs under thermo-mechanical effect of fiber laser
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01.01.2018 |
Sobol E.
Baskov A.
Borshchenko I.
Shekhter A.
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Progress in Biomedical Optics and Imaging - Proceedings of SPIE |
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© COPYRIGHT SPIE. The paper considers physical processes and mechanisms of laser reparation of spine cartilage, presents results of investigations aimed to optimize laser settings and to develop feedback control system for laser reconstruction of spine discs. Possible mechanisms of laser-induced regeneration include: (1) Space and temporary modulated laser beam induces non-homogeneous and pulse repetitive thermal expansion and stress in the irradiated zone of cartilage. Mechanical effect due to controllable thermal expansion of the tissue and micro and nano gas bubbles formation in the course of the moderate (up to 50 °C) heating of the NP activate biological cells (chondrocytes) and promote cartilage regeneration. (2) Non-destructive laser radiation leads to the formation of nano and micro-pores in cartilage matrix in the in the immediate vicinity of chondrocytes. That promotes water permeability and increases the feeding of biological cells. Results provide the scientific and engineering basis for the novel low-invasive laser procedures to be used in neurosurgery and orthopedics for the treatment cartilages of spine. The technology and equipment for laser reconstruction of spine discs have been tested first on animals, and then in a clinical trial. Since 2001 the laser reconstruction of intervertebral discs have been performed (i) for more than 3,200 patients with chronic symptoms of low back or neck pain who failed to improve with non-operative care; and (ii) for 1100 patients underwent hernia removal surgery. Substantial relief of back pain was obtained in 92.5% of patients treated who returned to their daily activities. LRD allowed also to decrease secondary surgeries more than three times. Optical fiber technique based on light scattering measurements have been used to promote safety and efficacy of the laser procedures.
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