19 results on '"Yates, Nathanael"'
Search Results
2. Anti‐manic effect of deep brain stimulation of the ventral tegmental area in an animal model of mania induced by methamphetamine.
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Varela, Roger B., Boschen, Suelen L., Yates, Nathanael, Houghton, Tristan, Blaha, Charles D., Lee, Kendall H., Bennet, Kevin E., Kouzani, Abbas Z., Berk, Michael, Quevedo, João, Valvassori, Samira S., and Tye, Susannah J.
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DEEP brain stimulation ,SUBTHALAMIC nucleus ,METHAMPHETAMINE ,ANIMAL models in research ,MANIA ,NUCLEUS accumbens - Abstract
Background: Treatment of refractory bipolar disorder (BD) is extremely challenging. Deep brain stimulation (DBS) holds promise as an effective treatment intervention. However, we still understand very little about the mechanisms of DBS and its application on BD. Aim: The present study aimed to investigate the behavioural and neurochemical effects of ventral tegmental area (VTA) DBS in an animal model of mania induced by methamphetamine (m‐amph). Methods: Wistar rats were given 14 days of m‐amph injections, and on the last day, animals were submitted to 20 min of VTA DBS in two different patterns: intermittent low‐frequency stimulation (LFS) or continuous high‐frequency stimulation (HFS). Immediately after DBS, manic‐like behaviour and nucleus accumbens (NAc) phasic dopamine (DA) release were evaluated in different groups of animals through open‐field tests and fast‐scan cyclic voltammetry. Levels of NAc dopaminergic markers were evaluated by immunohistochemistry. Results: M‐amph induced hyperlocomotion in the animals and both DBS parameters reversed this alteration. M‐amph increased DA reuptake time post‐sham compared to baseline levels, and both LFS and HFS were able to block this alteration. LFS was also able to reduce phasic DA release when compared to baseline. LFS was able to increase dopamine transporter (DAT) expression in the NAc. Conclusion: These results demonstrate that both VTA LFS and HFS DBS exert anti‐manic effects and modulation of DA dynamics in the NAc. More specifically the increase in DA reuptake driven by increased DAT expression may serve as a potential mechanism by which VTA DBS exerts its anti‐manic effects. [ABSTRACT FROM AUTHOR]
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- 2024
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3. Repeated mild traumatic brain injury in female rats increases lipid peroxidation in neurons
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Yates, Nathanael J., Lydiard, Stephen, Fehily, Brooke, Weir, Gillian, Chin, Aaron, Bartlett, Carole A., Alderson, Jacqueline, and Fitzgerald, Melinda
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- 2017
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4. Inflammatory Mechanisms in Parkinson's Disease: From Pathogenesis to Targeted Therapies.
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Lee, Stellina Y. H., Yates, Nathanael J., and Tye, Susannah J.
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PARKINSON'S disease , *PATHOGENESIS , *DISEASE progression , *INFLAMMATION , *MOVEMENT disorders , *CENTRAL nervous system - Abstract
Inflammation is a critical factor contributing to the progressive neurodegenerative process observed in Parkinson's disease (PD). Microglia, the immune cells of the central nervous system, are activated early in PD pathogenesis and can both trigger and propagate early disease processes via innate and adaptive immune mechanisms such as upregulated immune cells and antibody-mediated inflammation. Downstream cytokines and gene regulators such as microRNA (miRNA) coordinate later disease course and mediate disease progression. Biomarkers signifying the inflammatory and neurodegenerative processes at play within the central nervous system are of increasing interest to clinical teams. To be effective, such biomarkers must achieve the highest sensitivity and specificity for predicting PD risk, confirming diagnosis, or monitoring disease severity. The aim of this review was to summarize the current preclinical and clinical evidence that suggests that inflammatory processes contribute to the initiation and progression of neurodegenerative processes in PD. In this article, we further summarize the data about main inflammatory biomarkers described in PD to date and their potential for regulation as a novel target for disease-modifying pharmacological strategies. [ABSTRACT FROM AUTHOR]
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- 2022
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5. The role of ephrin-A2 and ephrin-A5 in sensorimotor control and gating
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Yates, Nathanael J., Martin-Iverson, Mathew T., and Rodger, Jennifer
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- 2014
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6. Auditory Brainstem Responses of Ephrin-A2-/-, Ephrin-A5-/- and Ephrin-A2A5-/- Mice
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Yates, Nathanael, Robertson, Donald, Martin-Iverson, Mathew, and Rodger, Jennifer
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- 2014
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7. Mood Regulatory Actions of Active and Sham Nucleus Accumbens Deep Brain Stimulation in Antidepressant Resistant Rats.
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Kale, Rajas P., Nguyen, Thanh Thanh L., Price, J. Blair, Yates, Nathanael J., Walder, Ken, Berk, Michael, Sillitoe, Roy V., Kouzani, Abbas Z., and Tye, Susannah J.
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DEEP brain stimulation ,NUCLEUS accumbens ,GLYCOGEN synthase kinase ,ANTIDEPRESSANTS ,TRICYCLIC antidepressants ,SUBTHALAMIC nucleus - Abstract
The antidepressant actions of deep brain stimulation (DBS) are associated with progressive neuroadaptations within the mood network, modulated in part, by neurotrophic mechanisms. We investigated the antidepressant-like effects of chronic nucleus accumbens (NAc) DBS and its association with change in glycogen synthase kinase 3 (GSK3) and mammalian target of rapamycin (mTOR) expression in the infralimbic cortex (IL), and the dorsal (dHIP) and ventral (vHIP) subregions of the hippocampus of antidepressant resistant rats. Antidepressant resistance was induced via daily injection of adrenocorticotropic hormone (ACTH; 100 μg/day; 15 days) and confirmed by non-response to tricyclic antidepressant treatment (imipramine, 10 mg/kg). Portable microdevices provided continuous bilateral NAc DBS (130 Hz, 200 μA, 90 μs) for 7 days. A control sham electrode group was included, together with ACTH- and saline-treated control groups. Home cage monitoring, open field, sucrose preference, and, forced swim behavioral tests were performed. Post-mortem levels of GSK3 and mTOR, total and phosphorylated, were determined with Western blot. As previously reported, ACTH treatment blocked the immobility-reducing effects of imipramine in the forced swim test. In contrast, treatment with either active DBS or sham electrode placement in the NAc significantly reduced forced swim immobility time in ACTH-treated animals. This was associated with increased homecage activity in the DBS and sham groups relative to ACTH and saline groups, however, no differences in locomotor activity were observed in the open field test, nor were any group differences seen for sucrose consumption across groups. The antidepressant-like actions of NAc DBS and sham electrode placements were associated with an increase in levels of IL and vHIP phospho-GSK3β and phospho-mTOR, however, no differences in these protein levels were observed in the dHIP region. These data suggest that early response to electrode placement in the NAc, irrespective of whether active DBS or sham, has antidepressant-like effects in the ACTH-model of antidepressant resistance associated with distal upregulation of phospho-GSK3β and phospho-mTOR in the IL and vHIP regions of the mood network. [ABSTRACT FROM AUTHOR]
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- 2021
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8. Targets of olivocochlear collaterals in cochlear nucleus of rat and guinea pig.
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Baashar, Ahmaed, Robertson, Donald, Yates, Nathanael James, and Mulders, Wilhelmina Henrica Antonia Maria
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Descending auditory pathways can modify afferent auditory input en route to cortex. One component of these pathways is the olivocochlear system which originates in brainstem and terminates in cochlea. Medial olivocochlear (MOC) neurons also project collaterals to cochlear nucleus and make synaptic contacts with dendrites of multipolar neurons. Two broadly distinct populations of multipolar cells exist: T‐stellate and D‐stellate neurons, thought to project to inferior colliculus and contralateral cochlear nucleus, respectively. It is unclear which of these neurons receive direct MOC collateral input due to conflicting results between in vivo and in vitro studies. This study used anatomical techniques to identify which multipolar cell population receives synaptic innervation from MOC collaterals. The retrograde tracer Fluorogold was injected into inferior colliculus or cochlear nucleus to label T‐stellate and D‐stellate neurons, respectively. Axonal branches of MOC neurons were labeled by biocytin injections at the floor of the fourth ventricle. Fluorogold injections resulted in labeled cochlear nucleus multipolar neurons. Biocytin abundantly labeled MOC collaterals which entered cochlear nucleus. Microscopic analysis revealed that MOC collaterals made some putative synaptic contacts with the retrogradely labeled neurons but many more putative contacts were observed on unidentified neural targets. This suggest that both T‐ and D‐stellate neurons receive synaptic innervation from the MOC collaterals on their somata and proximal dendrites. The prevalence of these contacts cannot be stated with certainty because of technical limitations, but the possibility exists that the collaterals may also make contacts with neurons not projecting to inferior colliculus or the contralateral cochlear nucleus. [ABSTRACT FROM AUTHOR]
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- 2019
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9. Physiological and anatomical investigation of the auditory brainstem in the Fat-tailed dunnart (Sminthopsis crassicaudata).
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Garrett, Andrew, Lannigan, Virginia, Yates, Nathanael J., Rodger, Jennifer, and Mulders, Wilhelmina
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BRAIN stem ,ACOUSTIC nerve ,COCHLEAR nucleus ,AUDITORY pathways ,MARSUPIALS ,FAT content of food - Abstract
The fat-tailed dunnart (Sminthopsis crassicaudata) is a small (10-20 g) native marsupial endemic to the south west of Western Australia. Currently little is known about the auditory capabilities of the dunnart, and of marsupials in general. Consequently, this study sought to investigate several electrophysiological and anatomical properties of the dunnart auditory system. Auditory brainstem responses (ABR) were recorded to brief (5 ms) tone pips at a range of frequencies (4-47.5 kHz) and intensities to determine auditory brainstem thresholds. The dunnart ABR displayed multiple distinct peaks at all test frequencies, similar to other mammalian species. ABR showed the dunnart is most sensitive to higher frequencies increasing up to 47.5 kHz. Morphological observations (Nissl stain) revealed that the auditory structures thought to contribute to the first peaks of the ABR were all distinguishable in the dunnart. Structures identified include the dorsal and ventral subdivisions of the cochlear nucleus, including a cochlear nerve root nucleus as well as several distinct nuclei in the superior olivary complex, such as the medial nucleus of the trapezoid body, lateral superior olive and medial superior olive. This study is the first to show functional and anatomical aspects of the lower part of the auditory system in the Fat-tailed dunnart. [ABSTRACT FROM AUTHOR]
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- 2019
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10. Differential responses to increasing numbers of mild traumatic brain injury in a rodent closed‐head injury model.
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Fehily, Brooke, Bartlett, Carole A., Lydiard, Stephen, Archer, Michael, Milbourn, Hannah, Majimbi, Maimuna, Hemmi, Jan M., Dunlop, Sarah A., Yates, Nathanael J., and Fitzgerald, Melinda
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BRAIN injuries ,CORPUS callosum ,BRAIN damage ,LABORATORY rats ,GLIAL fibrillary acidic protein ,IMMUNOHISTOCHEMISTRY ,MYELIN basic protein - Abstract
Following mild traumatic brain injury (mTBI), further mild impacts can exacerbate negative outcomes. To compare chronic damage and deficits following increasing numbers of repeated mTBIs, a closed‐head weight‐drop model of repeated mTBI was used to deliver 1, 2 or 3 mTBIs to adult female rats at 24 h intervals. Outcomes were assessed at 3 months following the first mTBI. No gross motor, sensory or reflex deficits were identified (p > 0.05), consistent with current literature. Cognitive function assessed using a Morris water maze revealed chronic memory deficits following 1 and 2, but not 3 mTBI compared to shams (p ≤ 0.05). Oxidative damage to DNA was assessed immunohistochemically in the dentate hilus of the hippocampus and splenium of the corpus callosum; no changes were observed. IBA1‐positive microglia were increased in size in the cortex following 1 mTBI and in the corpus callosum following 2 mTBI compared to shams (p ≤ 0.05); no changes were observed in the dentate hilus. Glial fibrillary acidic protein (GFAP)‐positive astrocyte immunoreactivity was assessed in all three brain regions and no chronic changes were observed. Integrity of myelin ultrastructure in the corpus callosum was assessed using transmission electron microscopy. G ratio was decreased following 2 mTBIs compared to shams (p ≤ 0.05) at post hoc level only. The changing patterns of damage and deficits following increasing numbers of mTBI may reflect dynamic responses to small numbers of mTBIs or a conditioning effect such that increasing numbers of mTBIs do not necessarily result in worsening pathology. Open science badges: This article has received a badge for *Open Materials* because it provided all relevant information to reproduce the study in the manuscript. The complete Open Science Disclosure form for this article can be found at the end of the article. More information about the Open Practices badges can be found at https://cos.io/our-services/open-science-badges/. Cover Image for this issue: doi: 10.1111/jnc.14508. [ABSTRACT FROM AUTHOR]
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- 2019
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11. Vitamin D is crucial for maternal care and offspring social behaviour in rats.
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Yates, Nathanael J., Tesic, Dijana, Feindel, Kirk W., Smith, Jeremy T., Clarke, Michael W., Wale, Celeste, Crew, Rachael C., Wharfe, Michaela D., Whitehouse, Andrew J. O., and Wyrwoll, Caitlin S.
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VITAMIN D deficiency , *GLUCOCORTICOIDS , *NEURAL development , *AUTISM spectrum disorders , *SPRAGUE Dawley rats - Abstract
Early life vitamin D plays a prominent role in neurodevelopment and subsequent brain function, including schizophrenic-like outcomes and increasing evidence for an association with autism spectrum disorder (ASD). Here, we investigate how early life vitamin D deficiency during rat pregnancy and lactation alters maternal care and influences neurodevelopment and affective, cognitive and social behaviours in male adult offspring. Sprague--Dawley rats were placed on either a vitamin D control (2195 IU/kg) or deficient diet (0 IU/kg) for five weeks before timed mating, and diet exposure was maintained until weaning of offspring on postnatal day (PND) 23. MRI scans were conducted to assess brain morphology, and plasma corticosterone levels and neural expression of genes associated with language, dopamine and glucocorticoid exposure were characterised at PND1, PND12 and 4 months of age. Compared to controls, vitamin D-deficient dams exhibited decreased licking and grooming of their pups but no differences in pup retrieval. Offspring neurodevelopmental markers were unaltered, but vitamin D-deficient pup ultrasonic vocalisations were atypical. As adults, males that had been exposed to vitamin D deficiency in early life exhibited decreased social behaviour, impaired learning and memory outcomes and increased grooming behaviour, but unaltered affective behaviours. Accompanying these behavioural changes was an increase in lateral ventricle volume, decreased cortical FOXP2 (a protein implicated in language and communication) and altered neural expression of genes involved in dopamine and glucocorticoid-related pathways. These data highlight that early life levels of vitamin D are an important consideration for maternal behavioural adaptations as well as offspring neuropsychiatry. [ABSTRACT FROM AUTHOR]
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- 2018
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12. Specific ion channels contribute to key elements of pathology during secondary degeneration following neurotrauma.
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O'Hare Doig, Ryan L., Chiha, Wissam, Giacci, Marcus K., Yates, Nathanael J., Bartlett, Carole A., Smith, Nicole M., Hodgetts, Stuart I., Harvey, Alan R., and Fitzgerald, Melinda
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ION channels ,ION channel inhibition ,DEGENERATION (Pathology) ,BRAIN degeneration ,NEURODEGENERATION ,NERVOUS system injuries ,PHYSIOLOGY - Abstract
Background: Following partial injury to the central nervous system, cells beyond the initial injury site undergo secondary degeneration, exacerbating loss of neurons, compact myelin and function. Changes in Ca2+ flux are associated with metabolic and structural changes, but it is not yet clear how flux through specific ion channels contributes to the various pathologies. Here, partial optic nerve transection in adult female rats was used to model secondary degeneration. Treatment with combinations of three ion channel inhibitors was used as a tool to investigate which elements of oxidative and structural damage related to long term functional outcomes. The inhibitors employed were the voltage gated Ca2+ channel inhibitor Lomerizine (Lom), the Ca2+ permeable AMPA receptor inhibitor YM872 and the P2X7 receptor inhibitor oxATP.Results: Following partial optic nerve transection, hyper-phosphorylation of Tau and acetylated tubulin immunoreactivity were increased, and Nogo-A immunoreactivity was decreased, indicating that axonal changes occurred acutely. All combinations of ion channel inhibitors reduced hyper-phosphorylation of Tau and increased Nogo-A immunoreactivity at day 3 after injury. However, only Lom/oxATP or all three inhibitors in combination significantly reduced acetylated tubulin immunoreactivity. Most combinations of ion channel inhibitors were effective in restoring the lengths of the paranode and the paranodal gap, indicative of the length of the node of Ranvier, following injury. However, only all three inhibitors in combination restored to normal Ankyrin G length at the node of Ranvier. Similarly, HNE immunoreactivity and loss of oligodendrocyte precursor cells were only limited by treatment with all three ion channel inhibitors in combination.Conclusions: Data indicate that inhibiting any of a range of ion channels preserves certain elements of axon and node structure and limits some oxidative damage following injury, whereas ionic flux through all three channels must be inhibited to prevent lipid peroxidation and preserve Ankyrin G distribution and OPCs. [ABSTRACT FROM AUTHOR]- Published
- 2017
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13. Maternal vitamin D deficiency during rat gestation elicits a milder phenotype compared to the mouse model: Implications for the placental glucocorticoid barrier.
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Crew, Rachael C., Rakonjac, Ana, Tesic, Dijana, Clarke, Michael W., Yates, Nathanael J., and Wyrwoll, Caitlin S.
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Maternal vitamin D deficiency disturbs fetal development and programmes neurodevelopmental complications in offspring, possibly through increased fetal glucocorticoid exposure. We aimed to determine whether prenatal exposure to excess glucocorticoids underlies our rat model of early-life vitamin D deficiency, leading to altered adult behaviours. Vitamin D deficiency reduced the expression of the glucocorticoid-inactivating enzyme Hsd11b2 in the female placenta, but did not alter maternal glucocorticoid levels, feto-placental weights, or placental expression of other glucocorticoid-related genes at mid-gestation. This differs to the phenotype previously observed in vitamin D deficient mice, and highlights important modelling considerations. [ABSTRACT FROM AUTHOR]
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- 2019
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14. Effects of Neonatal Dexamethasone Exposure on Adult Neuropsychiatric Traits in Rats.
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Yates, Nathanael J., Robertson, Donald, Rodger, Jennifer, and Martin-Iverson, Mathew T.
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DEXAMETHASONE , *NEUROPSYCHIATRY , *HYPOTHALAMIC-pituitary-adrenal axis , *NEURAL development , *LABORATORY rats ,DISEASES in adults - Abstract
The effects of early life stress in utero or in neonates has long-term consequences on hypothalamic-pituitary-adrenal (HPA) stress axis function and neurodevelopment. These effects extend into adulthood and may underpin a variety of mental illnesses and be related to various developmental and cognitive changes. We examined the potential role of neonatal HPA axis activation on adult psychopathology and dopamine sensitivity in the mature rat using neonatal exposure to the synthetic glucocorticoid receptor agonist and stress hormone, dexamethasone. We utilized a comprehensive battery of assessments for behaviour, brain function and gene expression to determine if elevated early life HPA activation is associated with adult-onset neuropsychiatric traits. Dexamethasone exposure increased startle reactivity under all conditions tested, but decreased sensitivity of sensorimotor gating to dopaminergic disruption–contrasting with what is observed in several neuropsychiatric diseases. Under certain conditions there also appeared to be mild long-term changes in stress and anxiety-related behaviours with neonatal dexamethasone exposure. Electrophysiology revealed that there were no consistent neuropsychiatric abnormalities in auditory processing or resting state brain function with dexamethasone exposure. However, neonatal dexamethasone altered auditory cortex glucocorticoid activation, and auditory cortex synchronization. Our results indicate that neonatal HPA axis activation by dexamethasone alters several aspects of adult brain function and behaviour and may induce long-term changes in emotional stress-reactivity. However, neonatal dexamethasone exposure is not specifically related to any particular neuropsychiatric disease. [ABSTRACT FROM AUTHOR]
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- 2016
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15. Schizophrenia: the role of sleep and circadian rhythms in regulating dopamine and psychosis.
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Yates, Nathanael James
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- 2016
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16. Auditory Brainstem Responses of Ephrin-A2, Ephrin-A5-/- and Ephrin-A2A5-/- Mice.
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Yates, Nathanael, Robertson, Donald, Martin-Iverson, Mathew, and Rodger, Jennifer
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BRAIN stem physiology , *EPHRIN receptors , *CELL membranes , *AXONS , *KNOCKOUT mice - Abstract
Eph receptors and ephrin ligands are large families of cell surface proteins which have established roles in axonal growth and guidance. These are well characterized in the visual and somatosensory systems but are less well documented in the auditory pathway. We examined the possible functional role of two ephrin genes (ephrin-A2 and ephrin-A5) in the auditory system by measuring auditory brainstem responses (ABR) to tone bursts from 6 to 30 kHz in ephrin-A2-/-, ephrin-A5-/- and ephrin-A2A5-/- (knockout) mice. At high frequencies, the ephrin-A2A5-/- mice exhibited thresholds that were significantly lower than in wild-type mice by approximately 20 dB, suggesting ephrin-A2 and ephrin-A5 may have frequency-specific effects on the auditory system. There were also alterations in ABR wave peak amplitudes that were specific to each mouse strain which suggested both peripheral and central involvement of EphA-ephrin-A signalling in auditory function. © 2014 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]
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- 2014
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17. Preventing Brain Injury in the Preterm Infant—Current Controversies and Potential Therapies.
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Yates, Nathanael, Gunn, Alistair J., Bennet, Laura, Dhillon, Simerdeep K., Davidson, Joanne O., and Fineschi, Vittorio
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ASPHYXIA neonatorum , *PREMATURE infants , *BRAIN injuries , *CHILDREN with cerebral palsy , *CORD blood , *PREMATURE labor , *RECOMBINANT erythropoietin , *THERAPEUTIC hypothermia - Abstract
Preterm birth is associated with a high risk of morbidity and mortality including brain damage and cerebral palsy. The development of brain injury in the preterm infant may be influenced by many factors including perinatal asphyxia, infection/inflammation, chronic hypoxia and exposure to treatments such as mechanical ventilation and corticosteroids. There are currently very limited treatment options available. In clinical trials, magnesium sulfate has been associated with a small, significant reduction in the risk of cerebral palsy and gross motor dysfunction in early childhood but no effect on the combined outcome of death or disability, and longer-term follow up to date has not shown improved neurological outcomes in school-age children. Recombinant erythropoietin has shown neuroprotective potential in preclinical studies but two large randomized trials, in extremely preterm infants, of treatment started within 24 or 48 h of birth showed no effect on the risk of severe neurodevelopmental impairment or death at 2 years of age. Preclinical studies have highlighted a number of promising neuroprotective treatments, such as therapeutic hypothermia, melatonin, human amnion epithelial cells, umbilical cord blood and vitamin D supplementation, which may be useful at reducing brain damage in preterm infants. Moreover, refinements of clinical care of preterm infants have the potential to influence later neurological outcomes, including the administration of antenatal and postnatal corticosteroids and more accurate identification and targeted treatment of seizures. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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18. Ex Vivo MRI Analytical Methods and Brain Pathology in Preterm Lambs Treated with Postnatal Dexamethasone †.
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Yates, Nathanael J., Feindel, Kirk W., Mehnert, Andrew, Beare, Richard, Quick, Sophia, Blache, Dominique, Pillow, J. Jane, and Hunt, Rod W.
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BRAIN diseases , *LAMBS , *DEXAMETHASONE , *PREMATURE infants , *MAGNETIC resonance imaging - Abstract
Postnatal glucocorticoids such as dexamethasone are effective in promoting lung development in preterm infants, but are prescribed cautiously due to concerns of neurological harm. We developed an analysis pipeline for post-mortem magnetic resonance imaging (MRI) to assess brain development and hence the neurological safety profile of postnatal dexamethasone in preterm lambs. Lambs were delivered via caesarean section at 129 days' (d) gestation (full term ≈ 150 d) with saline-vehicle control (Saline, n = 9), low-dose tapered dexamethasone (cumulative dose = 0.75 mg/kg, n = 8), or high-dose tapered dexamethasone (cumulative dose = 2.67 mg/kg, n = 8), for seven days. Naïve fetal lambs (136 d gestation) were used as end-point maturation controls. The left-brain hemispheres were immersion-fixed in 10 % formalin (24 h), followed by paraformaldehyde (>6 months). Image sequences were empirically optimized for T1- and T2-weighted MRI and analysed using accessible methods. Spontaneous lesions detected in the white matter of the frontal cortex, temporo-parietal cortex, occipital lobe, and deep to the parahippocampal gyrus were confirmed with histology. Neither postnatal dexamethasone treatment nor gestation showed any associations with lesion incidence, frontal cortex (total, white, or grey matter) or hippocampal volume (all p > 0.05). Postnatal dexamethasone did not appear to adversely affect neurodevelopment. Our post-mortem MRI analysis pipeline is suitable for other animal models of brain development. [ABSTRACT FROM AUTHOR]
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- 2020
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19. The Effects of a Combination of Ion Channel Inhibitors in Female Rats Following Repeated Mild Traumatic Brain Injury.
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Mao, Yilin, Black, Anna M. B., Milbourn, Hannah R., Krakonja, Samra, Nesbit, Michael, Bartlett, Carole A., Fehily, Brooke, Takechi, Ryu, Yates, Nathanael J., and Fitzgerald, Melinda
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BRAIN injuries ,ION channels ,ACTIVE biological transport ,ION-permeable membranes ,MEMBRANE proteins - Abstract
Following mild traumatic brain injury (mTBI), the ionic homeostasis of the central nervous system (CNS) becomes imbalanced. Excess Ca
2+ influx into cells triggers molecular cascades, which result in detrimental effects. The authors assessed the effects of a combination of ion channel inhibitors (ICI) following repeated mTBI (rmTBI). Adult female rats were subjected to two rmTBI weight-drop injuries 24 h apart, sham procedures (sham), or no procedures (normal). Lomerizine, which inhibits voltage-gated calcium channels, was administered orally twice daily, whereas YM872 and Brilliant Blue G, inhibiting α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) and P2X7 receptors, respectively, were delivered intraperitoneally every 48 h post-injury. Vehicle treatment controls were included for rmTBI, sham, and normal groups. At 11 days following rmTBI, there was a significant increase in the time taken to cross the 3 cm beam, as a sub-analysis of neurological severity score (NSS) assessments, compared with the normal control (p < 0.05), and a significant decrease in learning-associated improvement in rmTBI in Morris water maze (MWM) trials relative to the sham (p < 0.05). ICI-treated rmTBI animals were not different to sham, normal controls, or rmTBI treated with vehicle in all neurological severity score and Morris water maze assessments (p > 0.05). rmTBI resulted in increases in microglial cell density, antioxidant responses (manganese-dependent superoxide dismutase (MnSOD) immunoreactivity), and alterations to node of Ranvier structure. ICI treatment decreased microglial density, MnSOD immunoreactivity, and abnormalities of the node of Ranvier compared with vehicle controls (p < 0.01). The authors' findings demonstrate the beneficial effects of the combinatorial ICI treatment on day 11 post-rmTBI, suggesting an attractive therapeutic strategy against the damage induced by excess Ca2+ following rmTBI. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
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