Your search keyword '"Grieve KL"' showing total 40 results

1. Differential properties of cells in the feline primary visual cortex providing the corticofugal feedback to the lateral geniculate nucleus and visual claustrum

Author

Grieve, KL, primary and Sillito, AM, additional

Published

1995

2. Platelet-rich plasma injection for partial patellar tendon tear in a high school athlete: a case presentation.

Author

Scollon-Grieve KL and Malanga GA

Published

2011

3. Double-blind, randomized, placebo controlled trial on the effect of 10 days low-frequency rTMS over the vertex on sleep in Parkinson's disease.

Author

Arias P, Vivas J, Grieve KL, and Cudeiro J

Published

2010

4. Covid Cats and Pandemic Puppies: The Altered Realm of Veterinary Care for Companion Animals during a Global Pandemic.

Author

Muzzatti SL and Grieve KL

Subjects

Animals, Communicable Disease Control, Dogs, Humans, Pandemics prevention & control, Pets, COVID-19 veterinary, Dog Diseases, Veterinary Drugs

Abstract

The emergence of the COVID-19 pandemic in Canada and the US significantly impacted the myriad relationships that exist amongst human and non-human animals. This article highlights the tolls that the virus and lockdown measures took (and continue to take) on companion animals and the veterinary professionals who care for them. Veterinary medicine scrambled quickly to adapt to new parameters of care using pandemic protocols, radically transforming the amount and quality of care for companion animals, and the work lives of those who provide it. Changes in clinic protocols, patient admissions and discharges, deliveries, shipments, appointment scheduling and duration, and the availability of food, pharmaceuticals and medical equipment all impacted the lives of non-human animals, and the work lives of those providing veterinary care . The authors employed mixed methods research, combining ethnographic data with secondary source data analysis to illuminate the new realities of labor and interspecies care work in the lockdown-induced anthropause . The findings are relevant to veterinary professionals, researchers, companion animal guardians, animal welfare advocates, and possibly emergency management organizations in prepareding for future catastrophic events.

Published

2022

5. Analysis of Dispensing Errors Made by First-Year Pharmacy Students in a Virtual Dispensing Assessment.

Author

Chuang S, Grieve KL, and Mak V

Abstract

Pharmacists have a crucial role in the supply of medications and ensuring optimal patient outcomes. However, with the increased use of prescription medications, there is a potential for dispensing errors to occur. Some dispensing errors can result in patient harm, with some leading to death. The development of safe and accurate dispensing skills in pharmacy students is an essential part of the pharmacy curriculum to prevent such dispensing errors from occurring. A retrospective study was conducted on a virtual dispensing assessment completed by first-year pharmacy students using MyDispense at Monash University. Students were assessed on their ability to safely and accurately dispense four prescriptions. The students' answers in the assessment were then analyzed using qualitative and quantitative methods. Errors in drug quantity, number of repeats, product, patient and prescriber selection were quantitatively analyzed. Through the development of a codebook, frequency of errors was determined for label directions and appropriate use of ancillary labels. In this study, the dispensing errors that were identified depended on the class of medication. Errors in label directions were most common, with the majority of errors displaying incorrect route of administration, drug formulation and/or frequency of dosing. Identified errors were then further categorized into potential severity of harm, ranging from "no harm" to "severe harm". The findings from this study show the types of errors made by students that are preventable and the potential for first-year pharmacy students to benefit from more comprehensive introductions to dispensing guides and safe environments to practice.

Published

2021

6. Melanopsin supports irradiance-driven changes in maintained activity in the superior colliculus of the mouse.

Author

Dasilva M, Storchi R, Davis KE, Grieve KL, and Lucas RJ

Subjects

Animals, Light, Mice, Photic Stimulation methods, Retinal Cone Photoreceptor Cells drug effects, Retinal Cone Photoreceptor Cells physiology, Retinal Cone Photoreceptor Cells radiation effects, Retinal Ganglion Cells cytology, Retinal Ganglion Cells drug effects, Retinal Ganglion Cells radiation effects, Superior Colliculi radiation effects, Light Signal Transduction drug effects, Rod Opsins pharmacology, Superior Colliculi drug effects

Abstract

Melanopsin phototransduction allows intrinsically photosensitive retinal ganglion cells (ipRGCs) to maintain firing under sustained illumination and to encode irradiance. ipRGCs project to different parts of the visual system, including the superficial superior colliculus (sSC), but to date there is no description of melanopsin contributions to the activity of that nucleus. We sought to fill that gap using extracellular recordings to describe light response in the sSC. We failed to observe light responses in the sSC of mice lacking rod and cone function, in which melanopsin provides the only photoreception. Nor did the sSC of intact animals track very gradual ramps in irradiance, a stimulus encoded by melanopsin for other brain regions. However, in visually intact mice we did find maintained responses to extended light steps (30 s) and to an irradiance ramp upon which a high frequency (20 Hz) temporal white noise was superimposed. Both of these responses were deficient when the spectral composition of the stimulus was changed to selectively reduce its effective irradiance for melanopsin. Such maintained activity was also impaired in mice lacking melanopsin, and this effect was specific, as responses of this genotype to higher spatiotemporal frequency stimuli were normal. We conclude that ipRGCs contribute to irradiance-dependent modulations in maintained activity in the sSC, but that this effect is less robust than for other brain regions receiving ipRGC input., (© 2016 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published

2016

7. Central fatigue induced by short-lasting finger tapping and isometric tasks: A study of silent periods evoked at spinal and supraspinal levels.

Author

Arias P, Robles-García V, Corral-Bergantiños Y, Madrid A, Espinosa N, Valls-Solé J, Grieve KL, Oliviero A, and Cudeiro J

Subjects

Adult, Analysis of Variance, Electromyography, Female, Fingers physiopathology, Humans, Male, Motor Cortex physiology, Psychophysics, Transcranial Magnetic Stimulation, Young Adult, Evoked Potentials, Auditory, Brain Stem physiology, Fatigue etiology, Fatigue pathology, Isometric Contraction physiology, Muscle, Skeletal physiopathology, Psychomotor Performance physiology

Abstract

The neural substrates of fatigue induced by muscular activity have been addressed in depth in relation to isometric tasks. For these activities, when fatigue develops, it has been noted that the duration of the silent periods (SPs) increases in response to both transcranial magnetic stimulation (TMS) of primary motor cortex or electric cervicomedullary stimulation (CMS). However, fatigue is known to be task-dependent and the mechanisms giving rise to a decrease in motor performance during brief, fast repetitive tasks have been less studied. We hypothesized that fatigue induced by repetitive fast finger tapping may have physiological mechanisms different from those accounting for fatigue during an isometric contraction, even in cases of matched effort durations. In these tasks, we examined the contribution of spinal and supraspinal motor circuits to the production of fatigue. The tapping rate and maximal voluntary contractions (MVC), and TMS- and CMS-evoked SPs were obtained at the time of fatigue, and while subjects maintained maximal muscle activation after fast finger-tapping (or isometric activity) of different durations (10 or 30s). Results showed different mechanisms of fatigue triggered by isometric contraction and repetitive movements, even of short duration. Short-lasting repetitive movements induce fatigue within intracortical inhibitory circuits. They increased TMS-SPs, but not CMS-SPs. On the other hand, isometric contraction had a clear impact on spinal circuits. The consideration of these differences might help to optimize the study of fatigue in physiological conditions and neurological disorders., (Copyright © 2015 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2015

8. Bursting thalamic responses in awake monkey contribute to visual detection and are modulated by corticofugal feedback.

Author

Ortuño T, Grieve KL, Cao R, Cudeiro J, and Rivadulla C

Abstract

The lateral geniculate nucleus is the gateway for visual information en route to the visual cortex. Neural activity is characterized by the existence of two firing modes: burst and tonic. Originally associated with sleep, bursts have now been postulated to be a part of the normal visual response, structured to increase the probability of cortical activation, able to act as a "wake-up" call to the cortex. We investigated a potential role for burst in the detection of novel stimuli by recording neuronal activity in the lateral geniculate nucleus (LGN) of behaving monkeys during a visual detection task. Our results show that bursts are often the neuron's first response, and are more numerous in the response to attended target stimuli than to unattended distractor stimuli. Bursts are indicators of the task novelty, as repetition decreased bursting. Because the primary visual cortex is the major modulatory input to the LGN, we compared the results obtained in control conditions with those observed when cortical activity was reduced by TMS. This cortical deactivation reduced visual response related bursting by 90%. These results highlight a novel role for the thalamus, able to code higher order image attributes as important as novelty early in the thalamo-cortical conversation.

Published

2014

9. Anandamide activation of CB1 receptors increases spontaneous bursting and oscillatory activity in the thalamus.

Author

Dasilva M, Grieve KL, Cudeiro J, and Rivadulla C

Subjects

Animals, Cannabinoid Receptor Antagonists pharmacology, Electroencephalography, Geniculate Bodies drug effects, Neurons drug effects, Piperidines pharmacology, Pyrazoles pharmacology, Rats, Receptor, Cannabinoid, CB1 antagonists & inhibitors, Visual Cortex physiology, Arachidonic Acids pharmacology, Cannabinoid Receptor Agonists pharmacology, Endocannabinoids pharmacology, Geniculate Bodies physiology, Neurons physiology, Polyunsaturated Alkamides pharmacology, Receptor, Cannabinoid, CB1 agonists

Abstract

The endocannabinoid system is a modulatory system that has been strongly associated with the regulation of functions as learning and memory, pain perception and sensory physiology in many areas of the central nervous system. However, although a role in sensory processing has been demonstrated at the level of the thalamus, the influence of the endocannabinoid system on thalamic rhythms and oscillations has been less studied, despite the fact that such activities are significant characteristics of the thalamic state. The present work aimed to characterize the role of anandamide (AEA) - one of the endogenous CB1 receptor agonists - and AM251 - a CB1 antagonist - in the modulation of burst firing and oscillatory activity present in the dLGN of the anesthetized rat. Administration of AEA (0.5mg/kg iv) increased the number of bursts in the majority of the cells tested and induced the appearance of a slow delta-like (1.5Hz) oscillatory activity. These effects were CB1-mediated, as demonstrated by the complete antagonism during the co-application of AM251 (0.5mg/kg iv). Thus, by demonstrating that the AEA-mediated activation of CB1 receptors increases spontaneous bursting and oscillatory activity in the thalamus our study infers that endocannabinoids could have a role in processes controlling the sleep-wake cycle and level of arousal., (Copyright © 2014 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2014

10. Motor facilitation during real-time movement imitation in Parkinson's disease: a virtual reality study.

Author

Robles-García V, Arias P, Sanmartín G, Espinosa N, Flores J, Grieve KL, and Cudeiro J

Subjects

Adult, Aged, Female, Humans, Male, Imitative Behavior physiology, Movement physiology, Parkinson Disease physiopathology, Psychomotor Performance physiology, Virtual Reality Exposure Therapy

Abstract

Background: Impaired temporal stability and poor motor unit recruitment are key impairments in Parkinsonian motor control during a whole spectrum of rhythmic movements, from simple finger tapping to gait. Therapies based on imitation can be designed for patients with motor impairments and virtual-reality (VR) offers a new perspective. Motor actions are known to depend upon the dopaminergic system, whose involvement in imitation is unknown. We sought to understand this role and the underlying possibilities for motor rehabilitation, by observing the execution of different motor-patterns during imitation in a VR environment in subjects with and without dopaminergic deficits., Methods: 10 OFF-dose idiopathic Parkinson's Disease patients (PD), 9 age-matched and 9 young-subjects participated. Subjects performed finger-tapping at their "comfort" and "slow-comfort" rates, while immersed in VR presenting their "avatar" in 1st person perspective. Imitation was evaluated by asking subjects to replicate finger-tapping patterns different to their natural one. The finger-pattern presented matched their comfort and comfort-slow rates, but without a pause on the table (continuously moving)., Results: Patients were able to adapt their finger-tapping correctly, showing that in comparison with the control groups, the dopaminergic deficiency of PD did not impair imitation. During imitation the magnitude of EMG increased and the temporal variability of movement decreased., Conclusions: PD-patients have unaltered ability to imitate instructed motor-patterns, suggesting that a fully-functional dopaminergic system is not essential for such imitation. It should be further investigated if imitation training over a period of time induces positive off-line motor adaptations with transfer to non-imitation tasks., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

11. Responses of primate LGN cells to moving stimuli involve a constant background modulation by feedback from area MT.

Author

Jones HE, Andolina IM, Grieve KL, Wang W, Salt TE, Cudeiro J, and Sillito AM

Subjects

Animals, Female, Macaca mulatta, Feedback, Physiological physiology, Geniculate Bodies physiology, Motion Perception physiology, Photic Stimulation methods, Visual Cortex physiology

Abstract

The feedback connections from the cortical middle temporal (MT) motion area, to layer 6 of the primary visual cortex (V1), have the capacity to drive a cascaded feedback influence from the layer 6 cortico-geniculate cells back to the lateral geniculate nucleus (LGN) relay cells. This introduces the possibility of a re-entrant motion signal affecting the relay of the retinal input through the LGN to the visual cortex. The question is whether the response of LGN cells to moving stimuli involves a component derived from this feedback. By producing a reversible focal pharmacological block of the activity of an MT direction column we show the presence of such an influence from MT on the responses of magno, parvo and koniocellular cells in the macaque LGN. The pattern of effect in the LGN reflects the direction bias of the MT location inactivated. This suggests a moving stimulus is captured by iterative interactions in the circuit formed by visual cortical areas and visual thalamus., (Copyright © 2013 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2013

12. Differential feedback modulation of center and surround mechanisms in parvocellular cells in the visual thalamus.

Author

Jones HE, Andolina IM, Ahmed B, Shipp SD, Clements JT, Grieve KL, Cudeiro J, Salt TE, and Sillito AM

Subjects

Animals, Female, Geniculate Bodies physiology, Macaca mulatta, Photic Stimulation, Visual Cortex physiology, Feedback, Physiological physiology, Neurons physiology, Thalamus physiology, Visual Pathways physiology, Visual Perception physiology

Abstract

Many cells in both the central visual system and other sensory systems exhibit a center surround organization in their receptive field, where the response to a centrally placed stimulus is modified when a surrounding area is also stimulated. This can follow from laterally directed connections in the local circuit at the level of the cell in question but could also involve more complex interactions. In the lateral geniculate nucleus (LGN), the cells relaying the retinal input display a concentric, center surround organization that in part follows from the similar organization characterizing the retinal cells providing their input. However, local thalamic inhibitory interneurons also play a role, and as we examine here, feedback from the visual cortex too. Here, we show in the primate (macaque) that spatially organized cortical feedback provides a clear and differential influence serving to enhance both responses to stimulation within the center of the receptive field and the ability of the nonclassical surround mechanism to attenuate this. In short, both center and surround mechanisms are influenced by the feedback. This dynamically sharpens the spatial focus of the receptive field and introduces nonlinearities from the cortical mechanism into the LGN.

Published

2012

13. Assessment of 180° rotation of the choroid as a novel surgical treatment for age-related macular degeneration.

Author

Lee E, Singh MS, Jones HE, Ahmed B, Andolina IM, Clements JT, Luong V, Munro PM, Lawton MP, Grieve KL, Aylward GW, Sillito AM, and MacLaren RE

Subjects

Animals, Bruch Membrane ultrastructure, Choroid blood supply, Choroid ultrastructure, Ciliary Arteries physiology, Feasibility Studies, Female, Fluorescein Angiography, Follow-Up Studies, Glial Fibrillary Acidic Protein metabolism, Graft Occlusion, Vascular physiopathology, Immunohistochemistry, Macaca mulatta, Macular Degeneration physiopathology, Microscopy, Electron, Scanning, Protein Kinase C-alpha metabolism, Retinal Pigment Epithelium ultrastructure, Rotation, Tomography, Optical Coherence, cis-trans-Isomerases metabolism, Bruch Membrane transplantation, Choroid transplantation, Macular Degeneration surgery, Ophthalmologic Surgical Procedures, Retinal Pigment Epithelium transplantation

Abstract

Purpose: Our objective was to examine the feasibility of rotating choriocapillaris, Bruch's membrane (BM), and retinal pigment epithelium (RPE) through 180° on a vascular pedicle and to assess revascularization and tissue preservation postoperatively. Such an approach could be used in the treatment of age-related macular degeneration where there is focal disease at the macula with healthy tissues located peripherally., Methods: Successful surgery was performed in six rhesus macaque monkeys, which have a very similar choroidal blood supply to humans. After inducing a retinal detachment, the recurrent branch of the long posterior ciliary artery was used as a pedicle around which a graft stretching to the temporal equator was rotated. Retina was reattached over the rotated graft and eyes were followed up for up to 6 months with repeated angiography and optical coherence tomography (OCT). The morphology of retinal cells and BM were assessed by immunohistochemistry and electron microscopy., Results: Revascularization of the choroid was limited, with reestablishment of drainage to the vortex veins seen in only one case. There was a secondary loss of the RPE and outer retina evident on histological analysis three months after surgery. The underlying BM however remained intact., Conclusions: Pedicled choroidal rotation surgery is technically feasible in vivo with intraoperative control of bleeding. However, lack of graft revascularization with the technique in its current form leads to neuroretinal and RPE tissue loss, and graft shrinkage. We found no evidence that rotational grafts are likely to improve the outcomes presently achieved with free graft techniques.

Published

2012

14. Endocannabinoid CB1 receptors modulate visual output from the thalamus.

Author

Dasilva MA, Grieve KL, Cudeiro J, and Rivadulla C

Subjects

Action Potentials, Animals, Female, Male, Photic Stimulation, Rats, Cannabinoid Receptor Modulators physiology, Endocannabinoids, Receptor, Cannabinoid, CB1 physiology, Thalamus physiology, Visual Cortex physiology, Visual Pathways physiology

Abstract

Rationale: Endocannabinoids have emerged as a modulatory brain system affecting different types of synapses, broadly distributed throughout the CNS, which explain the diverse psychophysical effects observed following activation of the endocannabinoid system., Objectives and Methods: The present study aimed to characterize the effect of CB1-mediated activity in the visual thalamus. In vivo single-unit extracellular recordings were performed in anaesthetized adult pigmented rats, measuring visual and spontaneous activity, combined with application of CB1 receptor agonists (anandamide, 2-AG, and O2545) and one antagonist, AM251., Results: CB1 receptors activation revealed two cellular populations, with excitatory effects on ∼28% of cells and inhibitory in ∼72%, actions which were blocked by the antagonist AM251. The agonist action significantly altered both spontaneous and visual activity, shifting the signal-to-noise ratio (S/N), with accompanying changes in the variability within the visual response. Increased responses by agonist application were accompanied by a decrease in S/N and an increase in variability, while those cells inhibited by the agonist showed an increase in S/N and a decrease in variability. There was no obvious correlation between the two effects and any other response property suggesting a more general role in modulating all information passing from LGN to cortex., Conclusions: Our data support a role for CB1 at the level of the thalamus acting as a dynamic modulator of visual information being sent to the cortex, apparently maintaining the salience of the signal within upper and lower boundaries. This may account for some of the behavioral effects of cannabis.

Published

2012

15. Vasomotion and neurovascular coupling in the visual thalamus in vivo.

Author

Rivadulla C, de Labra C, Grieve KL, and Cudeiro J

Subjects

Acetylcholine pharmacology, Animals, Cats, Chloralose administration & dosage, Chloralose pharmacology, Epinephrine administration & dosage, Epinephrine pharmacology, Female, Hemodynamics drug effects, Male, Oxyhemoglobins metabolism, Photic Stimulation, Rest physiology, Thalamus drug effects, Visual Pathways drug effects, Hemodynamics physiology, Thalamus blood supply, Thalamus physiology, Visual Pathways blood supply, Visual Pathways physiology

Abstract

Spontaneous contraction and relaxation of arteries (and in some instances venules) has been termed vasomotion and has been observed in an extensive variety of tissues and species. However, its functions and underlying mechanisms are still under discussion. We demonstrate that in vivo spectrophotometry, measured simultaneously with extracellular recordings at the same locations in the visual thalamus of the cat, reveals vasomotion, measured as an oscillation (0.14 hz) in the recorded oxyhemoglobin (OxyHb) signal, which appears spontaneously in the microcirculation and can last for periods of hours. During some non-oscillatory periods, maintained sensory stimulation evokes vasomotion lasting ~30s, resembling an adaptive vascular phenomenon. This oscillation in the oxyhaemoblobin signal is sensitive to pharmacological manipulation: it is inducible by chloralose anaesthesia and it can be temporarily blocked by systemic administration of adrenaline or acetylcholine (ACh). During these oscillatory periods, neurovascular coupling (i.e. the relationship between local neural activity and the rate of blood supply to that location) appears significantly altered. This raises important questions with regard to the interpretation of results from studies currently dependent upon a linear relationship between neural activity and blood flow, such as neuroimaging.

Published

2011

16. Controlled trial on the effect of 10 days low-frequency repetitive transcranial magnetic stimulation (rTMS) on motor signs in Parkinson's disease.

Author

Arias P, Vivas J, Grieve KL, and Cudeiro J

Subjects

Double-Blind Method, Humans, Motor Cortex, Patient Selection, Treatment Outcome, Parkinson Disease therapy, Transcranial Magnetic Stimulation methods

Abstract

We evaluated the effect of low-frequency rTMS on motor signs in Parkinson's disease (PD), under a double-blind placebo-controlled trial design. PD patients were randomly assigned to received either real (n = 9) or sham (n = 9) rTMS for 10 days. Each session comprises two trains of 50 stimuli each delivered at 1 Hz and at 90% of daily rest motor threshold using a large circular coil over the vertex. The effect of the stimulation, delivered during the ON-period, was evaluated during both ON and OFF periods. Tests were carried out before and after the stimulation period, and again 1 week after. The effect of the stimulation was evaluated through several gait variables (cadence, step amplitude, velocity, the CV(stride-time), and the turn time), hand dexterity, and also the total and motor sections of the UPDRS. Only the total and motor section of the UPDRS and the turn time during gait were affected by the stimulation, the effect appearing during either ON or OFF evaluation, and most importantly, equally displayed in both real and sham group. The rest of the variables were not influenced. We conclude the protocol of stimulation used, different from most protocols that apply larger amount of stimuli, but very similar to some previously reported to have excellent results, has no therapeutic value and should be abandoned. This contrasts with the positive reported effects using higher frequency and focal coils. Our work also reinforces the need for sham stimulation when evaluating the therapeutic effect of rTMS., (© 2010 Movement Disorder Society.)

Published

2010

17. Mixed burst and tonic firing in the thalamus: a study in the feline lateral geniculate nucleus in vivo.

Author

Grieve KL, Rivadulla C, and Cudeiro J

Subjects

Acetylcholine metabolism, Action Potentials drug effects, Animals, Cats, Cholinergic Antagonists pharmacology, Female, GABA Agonists pharmacology, Geniculate Bodies drug effects, Male, Neural Inhibition drug effects, Neural Inhibition physiology, Neurons drug effects, Receptors, GABA drug effects, Receptors, GABA metabolism, Synaptic Transmission drug effects, Visual Pathways drug effects, gamma-Aminobutyric Acid metabolism, gamma-Aminobutyric Acid pharmacology, Action Potentials physiology, Geniculate Bodies metabolism, Neurons metabolism, Neurotransmitter Agents metabolism, Synaptic Transmission physiology, Visual Pathways metabolism

Abstract

Compounds known to inhibit or disfacilitate cells in cat dorsal lateral geniculate nucleus (dLGN) were applied iontophoretically in vivo. Application of GABA, or agonists of GABA(A) and GABA(B) receptors, markedly decreased responses to low frequency periodic visual stimulation, but, while causing some increases in burst firing, cells continued to produce tonic spikes even when firing was reduced to near zero. Similar actions were seen with compounds manipulating the cholinergic system. Inhibition of local Nitric Oxide production reduced firing rates but did not affect burst firing. Significant levels of tonic firing were found mixed with burst firing throughout the recordings even under conditions most favourable for bursting. We suggest that the local synaptic input to an individual dLGN cell is sufficiently dynamic to prevent the prolonged periods of burst firing which can be evoked in brain slice preparations.

Published

2009

18. Exophthalmos in rats. Anesthesia-induced exophthalmos.

Author

Smith SF and Grieve KL

Subjects

Animals, Dose-Response Relationship, Drug, Exophthalmos chemically induced, Exophthalmos diagnosis, Female, Rats, Rats, Inbred Strains, Rodent Diseases diagnosis, Visual Cortex drug effects, Visual Cortex pathology, Anesthesia veterinary, Anesthetics, Inhalation adverse effects, Exophthalmos veterinary, Rodent Diseases chemically induced

Published

2008

19. Binocular visual responses in cells of the rat dLGN.

Author

Grieve KL

Subjects

Animals, Evoked Potentials, Visual physiology, Female, Male, Rats, Visual Pathways physiology, Action Potentials physiology, Geniculate Bodies physiology, Neurons, Afferent physiology, Photic Stimulation methods, Vision, Binocular physiology, Visual Fields physiology, Visual Perception physiology

Abstract

In the mammalian visual system the output of the retina reaches the cerebral cortex by means of a synaptic link within the thalamus, the dorsal lateral geniculate nucleus (dLGN). In higher mammals this structure is visibly laminated, such that input from the two eyes remains segregated, binocular responses in essence being seen first in the cerebral cortex. In the rat this segregation is less obvious. With only around 3-10% of retinal ganglion cells projecting axons to the ipsilateral dLGN, the dLGN may be considered basically monocular; however, these ipsilaterally projecting axons contact cells in a region described as the 'hidden lamina', whose physiological properties have not been well described. In the anatomical literature, there is some debate as to the possibility of cross-over between the terminations of the two eyes. Here, a population of cells physiologically receiving input from the ipsilateral eye is described--surprisingly, the majority (63%) had powerful, excitatory input from both eyes, suggesting a simple form of binocular integration at a stage earlier than previously described for other, more 'visually developed' species, in which thalamic binocular integration is complex.

Published

2005

20. Touch responses made to remembered and visual target locations in the dark: a human psychophysical study.

Author

Burke MR and Grieve KL

Subjects

Adolescent, Adult, Brain physiology, Cues, Feedback physiology, Female, Hand innervation, Hand physiology, Humans, Male, Neuropsychological Tests, Observer Variation, Photic Stimulation, Psychophysics, Sensory Deprivation physiology, Visual Pathways physiology, Eye Movements physiology, Memory physiology, Orientation physiology, Psychomotor Performance physiology, Space Perception physiology, Touch physiology

Abstract

Unlabelled: Saccadic eye movements made to remembered locations in the dark show a distinct up-shift in macaque monkey, and slight upward bias in humans (Gnadt et al. 1991). This upward bias created in the visual spatial mapping of a saccade may be translated downstream in a hand/touch movement. This error could possibly reveal (a) information about the frames of reference used in each scenario and (b) the sources of this error within the brain. This would suggest an early planning stage if they are shared, or a later stage if the errors are distinct., Methods: Eight human subjects performed touch responses to a touch screen monitor to both visual and remembered target locations. The subjects used a high-resolution touch-screen monitor, a bite bar and chin-rest for restricting head movements during responses. All target locations were 20 degrees vectors from the central starting position in horizontal, vertical and oblique planes of motion., Results: Subjects were accurate to both visual and remembered target locations with little variance. Subject means showed no significant differences between control and memory trials; however, a distinct asymmetry was observed between cardinal and oblique planes during memory trials. Subjects consistently made errors to oblique locations during touches made to the remembered location that was not evident in control conditions. This error pattern revealed a strong hypermetric tendency for oblique planes of touches made to a remembered location.

Published

2005

21. Receptive field structure of burst and tonic firing in feline lateral geniculate nucleus.

Author

Rivadulla C, Martinez L, Grieve KL, and Cudeiro J

Subjects

Acetylcholine pharmacology, Anesthesia, Anesthetics pharmacology, Animals, Cats, Electroencephalography, Evoked Potentials, Visual drug effects, Geniculate Bodies drug effects, Photic Stimulation methods, Thalamic Nuclei drug effects, Thalamic Nuclei physiology, Visual Fields drug effects, Visual Pathways drug effects, Visual Pathways physiology, Evoked Potentials, Visual physiology, Geniculate Bodies physiology, Visual Fields physiology

Abstract

There are two recognised modes of firing activity in thalamic cells, burst and tonic. A low-threshold (LT) burst (referred to from now on as 'burst') comprises a small number of high-frequency action potentials riding the peak of a LT Ca(2+) spike which is preceded by a silent hyperpolarised state > 50 ms. This is traditionally viewed as a sleep-like phenomenon, with a shift to tonic mode at wake-up. However, bursts have also been seen in the wake state and may be a significant feature for full activation of recipient cortical cells. Here we show that for visual stimulation of anaesthetised cats, burst firing is restricted to a reduced area within the receptive field centre of lateral geniculate nucleus cells. Consistently, the receptive field size of all the recorded neurons decreased in size proportionally to the percentage of spikes in bursts versus tonic spikes, an effect that is further demonstrated with pharmacological manipulation. The role of this shrinkage may be distinct from that also seen in sleep-like states and we suggest that this is a mechanism that trades spatial resolution for security of information transfer.

Published

2003

22. Surround suppression in primate V1.

Author

Jones HE, Grieve KL, Wang W, and Sillito AM

Subjects

Animals, Macaca mulatta, Photic Stimulation, Motion Perception physiology, Neural Inhibition physiology, Visual Cortex physiology, Visual Fields physiology

Abstract

We investigated the spatial organization of surround suppression in primate primary visual cortex (V1). We utilized drifting stimuli, configured to extend either from within the classical receptive field (CRF) to surrounding visual space, or from surrounding visual space into the CRF or subdivided to generate direction contrast, to make a detailed examination of the strength, spatial organization, direction dependence, mechanisms, and laminar distribution of surround suppression. Most cells (99/105, 94%) through all cortical layers, exhibited suppression (mean reduction 67%) to uniform stimuli exceeding the CRF, and 43% exhibited a more than 70% reduction. Testing with an annulus revealed two different patterns of surround influence. Some cells (37% of cells), classical surround suppression (CSS) cells exhibited responses to an annulus encroaching on the CRF that were less than the plateau in the spatial summation curve. The majority (63%), center-gated surround suppression (CGSS) cells, showed responses to annuli that equaled or exceeded the plateau in the spatial summation curve. Analysis suggested the CSS mechanism was implemented in all cells while the CGSS mechanism was implemented in varying strength across the sample with the extreme reflected in cells that gave larger responses to annuli than to a center stimulus. Reversing the direction of motion of the portion of the stimulus surrounding the CRF revealed four different patterns of effect: no reduction in the degree of suppression (22% of cells), a reduction in surround suppression (41%), a facilitation of the response above the level to the inner stimulus alone (37%), and a facilitation of the response above that to the inner stimulus alone that also exceeded the values associated with an optimal inner stimulus. The facilitatory effects were only seen for reverse direction interfaces between the central and surrounding stimulus at diameters equal to or more than the CRF size. The zones driving the suppressive influences and the direction contrast facilitation were often spatially heterogeneous and for a number of cells bore strong comparison with the class of behavior reported for surround mechanisms in MT. This suggests a potential role, for example, in extracting information about motion contrast in the representation of the three dimensional structure of moving objects.

Published

2001

23. A possible role for nitric oxide at the sleep/wake interface.

Author

Cudeiro J, Rivadulla C, and Grieve KL

Subjects

Acetylcholine metabolism, Animals, Arousal physiology, Cats, Neurons metabolism, Thalamus metabolism, Visual Cortex metabolism, Nitric Oxide metabolism, Sleep physiology, Wakefulness physiology

Abstract

Cholinergic neurotransmission is known to have important arousal/activating functions. The neurons responsible for those actions also release the atypical neuromodulator nitric oxide (NO), which has been shown in previous studies to be involved in the modulation of sleep/wake states. The present investigation, using an animal model (anesthetized cat) tests the hypothesis that NO cooperates with ACh in controlling rhythmic neuronal activity, which may play a role in sleep/wake transition. We have used extracellular singleunit recording of neurons in the dorsal thalamus and visual cortex with simultaneous iontophoretic application of drugs acting upon the NO system: the nitric oxide synthase (NOS) inhibitor NG-nitro-L-arginine (L-NOArg), NO donors, and 8-bromo-cGMP (which mimics the action of NO). Local inhibition of NOS significantly reduced the activity of recorded cells in both thalamus and visual cortex. The opposite effect was achieved with NO donors application. In cortex, ejection of 8-bromo-cGMP or the NO donor diethylamine-nitric oxide (DEA-NO) increased cell firing. Furthermore, the rhythmic firing pattern present in these cortical neurons was disrupted. Taken together, these findings suggest that the NO system collaborates with cholinergic neurotransmission. This collaboration might be involved in the control of different patterns of electrogenic activity during various states of the sleep-wake cycle, via the ability of the NO system to modify rhythmic activity of neurons.

Published

2000

24. Visual response augmentation in cat (and macaque) LGN: potentiation by corticofugally mediated gain control in the temporal domain.

Author

Cudeiro J, Rivadulla C, and Grieve KL

Subjects

Animals, Brain Stem cytology, Brain Stem physiology, Cats, Cerebral Decortication, Cholinergic Fibers physiology, Contrast Sensitivity physiology, Electric Stimulation, Geniculate Bodies cytology, Macaca mulatta, Optic Chiasm cytology, Optic Chiasm physiology, Photic Stimulation, Retina cytology, Retina physiology, Time Factors, Visual Cortex cytology, Visual Cortex surgery, Visual Pathways cytology, Geniculate Bodies physiology, Visual Cortex physiology, Visual Pathways physiology, Visual Perception physiology

Abstract

Visual responses of neurons are dependent on the context of a stimulus, not only in spatial terms but also temporally, although evidence for temporally separate visual influences is meagre, based mainly on studies in the higher cortex. Here we demonstrate temporally induced elevation of visual responsiveness in cells in the lateral geniculate nucleus (LGN) of cat and monkey following a period of high intensity (elevated contrast) stimulation. This augmentation is seen in 40-70% (monkey-cat) of cells tested and of all subtypes. Peaking at approximately 3 min following the period of intense stimulation, it can last for 10-12 min and can be repeated and summed in time. Furthermore, it is dependent on corticofugal input, is seen even when high contrast stimuli of orthogonal orientation are used and therefore results from a/any prior increase in activity in the retino-geniculo-striate pathway. We suggest that this reflects a general mechanism for control of visual responsiveness; both a flexible and dynamic means of changing effectiveness of thalamic activity as visual input changes, but also a mechanism which is an emergent property of the thalamo-cortico-thalamic loop.

Published

2000

25. The primate pulvinar nuclei: vision and action.

Author

Grieve KL, Acuña C, and Cudeiro J

Subjects

Animals, Models, Neurological, Motor Cortex physiology, Nerve Net ultrastructure, Primates anatomy & histology, Pulvinar ultrastructure, Signal Transduction, Thalamic Nuclei physiology, Behavior, Animal physiology, Nerve Net physiology, Primates physiology, Pulvinar physiology, Vision, Ocular physiology, Visual Pathways physiology

Abstract

The pulvinar nuclei of the thalamus are proportionately larger in higher mammals, particularly in primates, and account for a quarter of the total mass. Traditionally, these nuclei have been divided into oral (somatosensory), superior and inferior (both visual) and medial (visual, multi-sensory) divisions. With reciprocal connections to vast areas of cerebral cortex, and input from the colliculus and retina, they occupy an analogous position in the extra-striate visual system to the lateral geniculate nucleus in the primary visual pathway, but deal with higher-order visual and visuomotor transduction. With a renewed recent interest in this thalamic nuclear collection, and growth in our knowledge of the cortex with which it communicates, perhaps the time is right to look to new dimensions in the pulvinar code.

Published

2000

26. Effects of feedback projections from area 18 layers 2/3 to area 17 layers 2/3 in the cat visual cortex.

Author

Martinez-Conde S, Cudeiro J, Grieve KL, Rodriguez R, Rivadulla C, and Acuña C

Subjects

Animals, Brain Mapping, Cats, Feedback, Neurons drug effects, Photic Stimulation, Reaction Time, Retina physiology, Visual Cortex drug effects, Visual Perception physiology, gamma-Aminobutyric Acid pharmacology, Neurons physiology, Visual Cortex physiology, Visual Pathways physiology

Abstract

In the absence of a direct geniculate input, area 17 cells in the cat are nevertheless able to respond to visual stimuli because of feedback connections from area 18. Anatomic studies have shown that, in the cat visual cortex, layer 5 of area 18 projects to layer 5 of area 17, and layers 2/3 of area 18 project to layers 2/3 of area 17. What is the specific role of these connections? Previous studies have examined the effect of area 18 layer 5 blockade on cells in area 17 layer 5. Here we examine whether the feedback connections from layers 2/3 of area 18 influence the orientation tuning and velocity tuning of cells in layers 2/3 of area 17. Experiments were carried out in anesthetized and paralyzed cats. We blocked reversibly a small region (300 microm radius) in layers 2/3 of area 18 by iontophoretic application of GABA and recorded simultaneously from cells in layers 2/3 of area 17 while stimulating with oriented sweeping bars. Area 17 cells showed either enhanced or suppressed visual responses to sweeping bars of various orientations and velocities during area 18 blockade. For most area 17 cells, orientation bandwidths remained unaltered, and we never observed visual responses during blockade that were absent completely in the preblockade condition. This suggests that area 18 layers 2/3 modulate visual responses in area 17 layers 2/3 without fundamentally altering their specificity.

Published

1999

27. Separate body- and world-referenced representations of visual space in parietal cortex.

Author

Snyder LH, Grieve KL, Brotchie P, and Andersen RA

Subjects

Animals, Head, Macaca mulatta, Male, Neurons physiology, Orientation physiology, Posture physiology, Saccades physiology, Parietal Lobe physiology, Space Perception physiology

Abstract

In order to direct a movement towards a visual stimulus, visual spatial information must be combined with postural information. For example, directing gaze (eye plus head) towards a visible target requires the combination of retinal image location with eye and head position to determine the location of the target relative to the body. Similarly, world-referenced postural information is required to determine where something lies in the world. Posterior parietal neurons recorded in monkeys combine visual information with eye and head position. A population of such cells could make up a distributed representation of target location in an extraretinal frame of reference. However, previous studies have not distinguished between world-referenced and body-referenced signals. Here we report that modulations of visual signals (gain fields) in two adjacent cortical fields, LIP and 7a, are referenced to the body and to the world, respectively. This segregation of spatial information is consistent with a streaming of information, with one path carrying body-referenced information for the control of gaze, and the other carrying world-referenced information for navigation and other tasks that require an absolute frame of reference.

Published

1998

28. Functional magnetic resonance imaging in macaque cortex.

Author

Dubowitz DJ, Chen DY, Atkinson DJ, Grieve KL, Gillikin B, Bradley WG Jr, and Andersen RA

Subjects

Animals, Cerebral Cortex anatomy & histology, Echo-Planar Imaging, Image Processing, Computer-Assisted, Macaca mulatta, Magnetic Resonance Imaging, Male, Photic Stimulation, Visual Cortex anatomy & histology, Visual Cortex physiology, Cerebral Cortex physiology

Abstract

The ability to use fMRI in a monkey model would bridge the gap between the fMRI demonstration of cerebral activation in humans and the cumulative wealth of monkey data on the functional organization of the brain from single electrode mapping, radioisotope and histology studies. We report a new technique for fMRI in an awake co-operative rhesus macaque (Macaca mulatta) in a conventional clinical 1.5T MR scanner and present the first fMRI images from a macaque. Good resolution, signal-to-noise ratio and BOLD response (2.6-4.6%) have been achieved using the manufacturer's standard volume knee coil. T1 values of macaque gray and white matter (1490 ms, 1010 ms respectively) are higher than human brain, whereas T2 values are lower (55 ms, 48 ms respectively). An MR-compatible design for restraining the monkey is also described, along with a suitable EPI sequence for BOLD images, optimized for monkey T2, with voxel sizes from 29 to 61 microl, and MPRAGE sequence for anatomical studies with 0.8 mm isotropic resolution, optimized for monkey T1.

Published

1998

29. Enhanced visual responses in cat dLGN--potentiation by priming with excitatory amino acids.

Author

Rivadulla C, Grieve KL, and Cudeiro J

Subjects

Acetylcholine pharmacology, Animals, Cats, Cycloleucine analogs & derivatives, Cycloleucine pharmacology, Drug Synergism, Geniculate Bodies drug effects, Iontophoresis, N-Methylaspartate administration & dosage, Neurons drug effects, Neurons physiology, Neuroprotective Agents pharmacology, Photic Stimulation, Visual Perception drug effects, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid pharmacology, Excitatory Amino Acids pharmacology, Geniculate Bodies physiology, N-Methylaspartate pharmacology, Visual Perception physiology

Abstract

Sustained iontophoresis of NMDA potentiated visual responses for minutes after the application in 16 of 38 cells (42%), peaking 3 min after the end of the application and declining to control levels within 12 min. Potentiation was also seen after application of ACPD (36%, n = 14) and AMPA (29%, n = 14), but not after application of ACh (n = 20). ACh also excites dLGN cells, but does not interact with amino acid receptors, and ACh receptors are not directly involved in the transmission of visual information. We suggest that this modulation is a form of visually induced potentiation which permits dynamic modification of the strength of visual information to be relayed to the cortex depending upon the history of previous activity levels.

Published

1998

30. Actions of compounds manipulating the nitric oxide system in the cat primary visual cortex.

Author

Cudeiro J, Rivadulla C, Rodríguez R, Grieve KL, Martínez-Conde S, and Acuña C

Subjects

Acetylcholine pharmacology, Animals, Arginine pharmacology, Cats, Cyclic GMP analogs & derivatives, Cyclic GMP pharmacology, Electrophysiology, Enzyme Inhibitors pharmacology, Excitatory Amino Acids pharmacology, Hydrazines pharmacology, Iontophoresis, N-Methylaspartate pharmacology, Nitric Oxide Synthase antagonists & inhibitors, Nitrogen Oxides, Visual Cortex physiology, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid pharmacology, Nitric Oxide metabolism, Nitroarginine pharmacology, Visual Cortex drug effects

Abstract

1. We iontophoretically applied NG-nitro-L-arginine (L-NOArg), an inhibitor of nitric oxide synthase (NOS), to cells (n = 77) in area 17 of anaesthetized and paralysed cats while recording single-unit activity extracellularly. In twenty-nine out of seventy-seven cells (38%), compounds altering NO levels affected visual responses. 2. In twenty-five out of twenty-nine cells, L-NOArg non-selectively reduced visually elicited responses and spontaneous activity. These effects were reversed by co-application of L-arginine (L-Arg), which was without effect when applied alone. Application of the NO donor diethylamine-nitric oxide (DEA-NO) produced excitation in three out of eleven cells, all three cells showing suppression by L-NOArg. In ten cells the effect of the soluble analogue of cGMP, 8-bromo-cGMP, was tested. In three of those in which L-NOArg application reduced firing, 8-bromo-cGMP had an excitatory effect. In six out of fifteen cells tested, L-NOArg non-selectively reduced responses to NMDA and alpha-amino-3-hydroxy-5-methylisoxasole-4-propionic acid (AMPA). Again, co-application of L-Arg reversed this effect, without enhancing activity beyond control values. 3. In a further subpopulation of ten cells, L-NOArg decreased responses to ACh in five. 4. In four out of twenty-nine cells L-NOArg produced the opposite effect and increased visual responses. This was reversed by co-application of L-Arg. Some cells were also affected by 8-bromo-cGMP and DEA-NO in ways opposite to those described above. It is possible that the variety of effects seen here could also reflect trans-synaptic activation, or changes in local circuit activity. However, the most parsimonious explanation for our data is that NO differentially affects the activity of two populations of cortical cells, in the main causing a non-specific excitation.

Published

1997

31. An unusual effect of application of the amino acid L-arginine on cat visual cortical cells.

Author

Rivadulla C, Grieve KL, Rodriguez R, Martinez-Conde S, Acuña C, and Cuderio J

Subjects

Action Potentials drug effects, Anesthesia, General, Animals, Arginine administration & dosage, Cats, Iontophoresis, Neurons drug effects, Nitric Oxide physiology, Nitroarginine pharmacology, Paralysis, Time Factors, Visual Cortex drug effects, Visual Perception drug effects, Action Potentials physiology, Arginine pharmacology, Neurons physiology, Visual Cortex physiology, Visual Perception physiology

Abstract

Iontophoretic application of L-arginine (L-Arg) resulted in a profound decrease in visually elicited and spontaneous activity in 22 of 77 (29%) cells in area 17 of the anaesthetized/paralysed cat. Duration was long, and cells did not recover pre-application activity levels, indicating permanent decline. This effect was obtained without change in the extracellularly recorded wave-form, demonstrating that this did not result from depolarization block. In the remaining 55 cells, application of L-Arg alone, at levels capable of eliciting inhibition as described above, was without effect. In 29 cells, L-Arg application was able to reverse the effect of inhibition of nitric oxide (NO) production. Populations of cells showing the depressive effect described above and those affected by NO modulation levels were mutually exclusive.

Published

1997

32. Further observations on the role of nitric oxide in the feline lateral geniculate nucleus.

Author

Cudeiro J, Rivadulla C, Rodriguez R, Martinez-Conde S, Martinez L, Grieve KL, and Acu-na C

Subjects

Afferent Pathways physiology, Animals, Arginine pharmacology, Cats, Electric Stimulation, Electroencephalography drug effects, Enzyme Inhibitors pharmacology, Geniculate Bodies drug effects, Iontophoresis, Models, Neurological, N-Methylaspartate pharmacology, Paralysis, Penicillamine pharmacology, Photic Stimulation, S-Nitroso-N-Acetylpenicillamine, Synapses drug effects, Time Factors, Visual Fields, gamma-Aminobutyric Acid pharmacology, Geniculate Bodies physiology, Nitric Oxide physiology, Nitric Oxide Synthase antagonists & inhibitors, Nitroarginine pharmacology, Nitroprusside pharmacology, Penicillamine analogs & derivatives, Synapses physiology, Visual Perception, omega-N-Methylarginine pharmacology

Abstract

We have examined the responses of a population of 77 cells in the dorsal lateral geniculate nucleus (dLGN) of the anaesthetized, paralysed cat. Here the synthetic enzyme for the production of nitric oxide, nitric oxide synthase, is found only in the presynaptic terminals of the cholinergic input from the brainstem. In our hands, iontophoretic application of inhibitors of this enzyme resulted both in significant decreases in visual responses and decreased responses to exogenous application of NMDA, effects which were reversed by coapplication of the natural substrate for nitric oxide synthase, L-arginine, but not the biologically inactive isomer, D-arginine. Nitroprusside and S-nitroso-N-acetylpenicillamine (SNAP), nitric oxide donors, but not L-arginine, were able to increase markedly both spontaneous activity and the responsiveness to NMDA application. Furthermore, SNAP application facilitated visual responses. Responses of cells in animals without retinal, cortical and parabrachial input to the LGN suggest a postsynaptic site of action of nitric oxide. This modulation of the gain of visual signals transmitted to the cortex suggests a completely novel pathway for nitric oxide regulation of function, as yet described only in primary sensory thalamus of the mammalian central nervous system.

Published

1996

33. Visual cortical mechanisms detecting focal orientation discontinuities.

Author

Sillito AM, Grieve KL, Jones HE, Cudeiro J, and Davis J

Subjects

Animals, Cats, Macaca, Neurons physiology, Visual Cortex cytology, Visual Cortex physiology

Abstract

Neurons in the primary visual cortex (V1) respond in well defined ways to stimuli within their classical receptive field, but these responses can be modified by stimuli overlying the surrounding area. For example patch-suppressed cells respond to gratings of a specific orientation within their classical receptive field, but the response diminishes if the grating is expanded to cover the surrounding area. We report here more complex effects in many such cells. When stimulated at their optimal orientation, introducing a surrounding field at a significantly different (for example, orthogonal) orientation enhanced their output by both a disinhibitory mechanism and an active facilitatory mechanism producing 'supra-optimal' responses. Importantly, some cells responded well if the orientations of centre and surround stimuli were swapped. The output reflected the discontinuity because neither stimulus component alone was effective. Under these stimulus conditions simultaneously recorded cells with orthogonally oriented receptive fields showed correlated firing consistent with neuronal binding to the configuration. We propose a mechanism integrating orientation-dependent information over adjacent areas of visual space to represent focal orientation discontinuities such as junctions or corners.

Published

1995

34. Non-length-tuned cells in layers II/III and IV of the visual cortex: the effect of blockade of layer VI on responses to stimuli of different lengths.

Author

Grieve KL and Sillito AM

Subjects

Animals, Cats, GABA-A Receptor Antagonists, Iontophoresis, Muscimol pharmacology, Photic Stimulation, Visual Cortex cytology, Visual Cortex drug effects, gamma-Aminobutyric Acid administration & dosage, gamma-Aminobutyric Acid pharmacology, Visual Cortex physiology

Abstract

We have previously shown, using a local inactivation technique, that layer VI provides a facilitatory input to the majority of hypercomplex cells located in layer IV above, and hence to layers II/III, which in many cases enhances length selectivity. However, many cells in these layers are not tuned for stimulus length, being equally responsive to long and short stimuli. Thus it is important to known whether layer VI can influence the responses of these cells. We have now used a similar paradigm of iontophoretic application of GABA to examine the effect of blockade of layer VI on the length tuning profiles of these cells in layers II-IV. During the blockade of layer VI, the most common effect, seen in 41% of the cells, was inhibition of visual responses, (i.e. commensurate with loss of a facilitatory input). An increase in response magnitude was found in 21% of the population, and responses were unaffected in 36% of cells tested. This suggests that the predominant influence of local regions of layer VI on this cell type, located in layers II/III and IV, is facilitatory, with a smaller proportion of cells receiving an inhibitory input. Such effects were seen even with the shortest lengths tested, suggesting once more that elements of layer VI are responsive to stimuli much shorter than was previously accepted. Thus these data suggest that layer VI plays a role in the generation of the response dynamics of non-length-tuned cells in overlying layers II/III and IV.

Published

1995

35. The role of nitric oxide in the transformation of visual information within the dorsal lateral geniculate nucleus of the cat.

Author

Cudeiro J, Grieve KL, Rivadulla C, Rodríguez R, Martínez-Conde S, and Acuña C

Subjects

Amino Acid Oxidoreductases antagonists & inhibitors, Animals, Arginine analogs & derivatives, Arginine pharmacology, Cats, Cyclic GMP analogs & derivatives, Cyclic GMP pharmacology, Iontophoresis, N-Methylaspartate antagonists & inhibitors, N-Methylaspartate pharmacology, Nitric Oxide antagonists & inhibitors, Nitric Oxide Synthase, Nitroarginine, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors, Vision, Ocular drug effects, Geniculate Bodies physiology, Nitric Oxide physiology, Vision, Ocular physiology

Abstract

We have shown that application of an inhibitor of the enzyme nitric oxide synthase (NOS) effectively suppresses the visual responses of relay cells in the dorsal lateral geniculate nucleus (dLGN) of the anaesthetized paralysed cat. Such suppression seems to result from a specific reduction in transmission via N-methyl-D-aspartic acid (NMDA) receptors, since iontophoretic application of the inhibitor of NOS selectively and in a dose-dependent manner decreased the responses to exogenously applied NMDA. Responses to other exogenously applied amino acid agonists, such as quisqualate (Quis), kainate (Kain) and alpha-amino-3-hydroxy-5-5-methyl-4-isoxazole-propionic acid (AMPA) were largely unaffected. Furthermore, the excitatory action of acetylcholine (ACh), normally co-localized with NOS in axonal terminals within the dLGN arising from the brainstem, was also unaffected. Unlike some other actions of nitric oxide (NO), this role seems not to involve an increase in production of cyclic guanosine-3',5'-mono-phosphate (cGMP), since application of the membrane permeable cGMP analogue 8-bromo-cGMP did not alter the suppressive effect of NOS inhibitors on either visual or NMDA evoked responses. We conclude that the normal function of NO at this level of the visual system is permissive, allowing full expression of NMDA mediated visually elicited information.

Published

1994

36. Effects of vasoactive intestinal polypeptide on the response properties of cells in area 17 of the cat visual cortex.

Author

Murphy PC, Grieve KL, and Sillito AM

Subjects

Acetylcholine pharmacology, Animals, Brain Mapping, Cats, Dose-Response Relationship, Drug, Evoked Potentials, Visual drug effects, Female, Iontophoresis, Neural Inhibition drug effects, Neurons drug effects, Visual Pathways drug effects, Synaptic Transmission drug effects, Vasoactive Intestinal Peptide pharmacology, Visual Cortex drug effects

Abstract

1. Vasoactive intestinal polypeptide (VIP) was iontophoretically applied to a population of 90 single cells in the primary visual cortex (area 17) of the cat. Response magnitude, response selectivity, spontaneous activity, and the ratio between the visual response and spontaneous activity (signal-to-noise ratio) of the cells were assessed quantitatively before and during drug application. 2. VIP had little effect in the absence of visual stimulation, with only 29/90 (32%) of the cells showing a change of even 1 sp/s in their spontaneous activity. In contrast it had a clear effect on the visual responses of the majority (73/90, 81%) of the cells tested. 3. VIP produced a substantial change (i.e., > or = 40%) in optimal response magnitude for 57 of the affected cells. Of these 65% were facilitated, usually with no change or an improvement in signal-to-noise ratio and direction selectivity. The remaining cells were inhibited, with more variable effects on their visual response characteristics, and were found predominantly in the superficial laminae. 4. The effects of VIP bore a remarkable resemblance to those reported previously for the muscarinic action of acetylcholine (ACh). VIP and a muscarinic cholinergic agonist, either ACh or acetyl-beta-methacholine (MeCh), were therefore applied in turn to a group of 40 cells. In 23 cases VIP and the muscarinic agonist were also applied simultaneously. 5. The effects of VIP and the cholinergic agonist matched in 92% of the cases where both drugs were effective. That is to say, cells that were facilitated by VIP were facilitated also by ACh or MeCh, and vice versa. In many instances there was a clear similarity in the pattern as well as the direction of the effects produced by the two substances. The result of simultaneous application was generally additive. 6. These data suggest that VIP and ACh activate very similar postsynaptic mechanisms, and share a closely related function at the level of individual cortical cells. Thus VIP may facilitate the responses of both the excitatory and the inhibitory components of the cortical circuit, leading to an overall increase in responsiveness and selectivity. In contrast to the cholinergic input from the basal forebrain, however, the VIP-positive cortical cells are likely to exert a very localized influence, over a circumscribed region of the cortex, in response to the presence of an effective visual stimulus.

Published

1993

37. The length summation properties of layer VI cells in the visual cortex and hypercomplex cell end zone inhibition.

Author

Grieve KL and Sillito AM

Subjects

Animals, Cats, Female, Photic Stimulation, Vision, Monocular, Visual Cortex cytology, Visual Cortex physiology, Visual Fields

Abstract

Layer VI of the visual cortex has been considered to be dominated by cells with very long receptive fields, typically summing to 8 degrees or more. We have re-examined this issue in a series of experiments in which the length tuning profiles of layer VI cells in the cat visual cortex have been quantitatively determined. Responses were assessed to optimally oriented bars of light of varying length drifted over the receptive field. The lengths were varied on a randomised interleaved sequence. Although our data confirm the presence of long field cells in layer VI, only 24% of a population of 119 cells had fields greater than 6 degrees in length. Fields greater than 8 degrees were only seen in 17% of cells. 61% of the population of cells had fields showing summation to 4 degrees or less with a mean length of 2.8 degrees (+/-0.15 sem). In this "short field" group, 18% had fields of 1 degrees or less. We observed 7 cells with rapid initial spatial summation up to 1 degree, followed by clear end zone inhibition. It has been recently suggested on the basis of localised inactivation experiments, that layer VI cells with long (greater than 8 degrees) fields may provide the drive to inhibitory interneurones in layer IV generating hypercomplex cell end zone inhibition. This observation is difficult to equate with evidence indicating that hypercomplex cell end zone inhibition reflects a mechanism showing maximal summation at lengths in the region of 2.8 degrees.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1991

38. A re-appraisal of the role of layer VI of the visual cortex in the generation of cortical end inhibition.

Author

Grieve KL and Sillito AM

Subjects

Animals, Brain Mapping, Cats, Female, Iontophoresis, Kinetics, Male, Muscimol administration & dosage, Time Factors, Visual Cortex cytology, Visual Cortex drug effects, gamma-Aminobutyric Acid administration & dosage, Muscimol pharmacology, Visual Cortex physiology, gamma-Aminobutyric Acid pharmacology

Abstract

These experiments examine the effect of blockade of layer VI of the cat striate cortex on the length tuning of hypercomplex cells in the overlying layers II, III and IV. It has previously been suggested that local inactivation of layer VI results in the complete loss of length selectivity in all hypercomplex cells in layers II, III and IV above the blocked region, by removal of an inhibitory mechanism within layer IV, driven from layer VI. However, we have found that, using iontophoretic application of the inhibitory substance GABA to block the activity of layer VI, 29% of hypercomplex cells were unaffected by blockade of the underlying layer VI. The predominant effect on hypercomplex cells was a reduction in visual responsiveness, seen in 71% of cells, with responses reduced on average by 43%. In 50% of these cells (35% of the population) this reduction was apparently specific to responses to the optimum bar length; responses to longer stimuli were unaffected. Iontophoretic application of the potent GABAA analogue muscimol in layer VI showed a similar spectrum of effects on hypercomplex cells. In these cases, however, the cortical blockade was slowly increased to encompass the recorded cell. In each case, any decreases in length selectivity were also the result of a decreased visual responsiveness. Thus, decreases in length selectivity seen when using either GABA or muscimol were almost exclusively the result of decreased responsiveness to the optimal length of bar stimulus, rather than an increase in response to non-optimal, long stimuli. This suggests the loss of a facilitatory influence from layer VI to layer IV, rather than the loss of inhibition.

Published

1991

39. Further investigation of the role of progesterone in the control of embryo transport in the mouse.

Author

Grieve KL, Henwood JM, and Kendle KE

Subjects

Adrenalectomy, Animals, Castration, Cell Movement drug effects, Female, Mice, Mice, Inbred Strains, Progesterone blood, Testosterone pharmacology, Ovum Transport drug effects, Progesterone physiology

Abstract

Combined ovariectomy and adrenalectomy retarded mouse embryo transport while either operation alone did not. Serum progesterone levels were reduced after ovariectomy and after the combined operation but detectable levels were still present on Day 4 following both procedures. Embryo transport was also retarded after administration of testosterone propionate. This effect was abolished by progesterone and was not mimicked by 5 alpha-dihydrotestosterone. From these results it is concluded that progesterone influences embryo transport and that androgenic effects are probably a result of antagonism of progesterone.

Published

1985

40. Method for maintaining embryo transport in mouse oviducts in vitro.

Author

Grieve KL and Kendle KE

Subjects

Animals, Calcium metabolism, Female, In Vitro Techniques, Mice, Oviducts metabolism, Perfusion, Pregnancy, Time Factors, Oviducts physiology, Ovum Transport

Abstract

The transport of embryos in mouse oviducts incubated in vitro was studied for 16 h. Successful embryo transport occurred in oviducts incubated from Day 2 or Day 3 of pregnancy, and the process was dependent on the availability of calcium from the incubation medium. This indicates that this phase of transport is a result of smooth muscle activity. Embryo transport did not occur in oviducts perfused from Day 1 of pregnancy.

Published

1984