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1.
BMC Med Educ ; 23(1): 805, 2023 Oct 26.
Article in English | MEDLINE | ID: mdl-37884936

ABSTRACT

BACKGROUND: Developing research skills and scholarship are key components of medical education. The COVID-19 pandemic necessitated that all teaching be delivered online. We introduced an approach to small group teaching in the academic year 2020-2021 online which involved students in an active (ongoing) research study to develop their research skills. METHODS: We acquired student feedback to evaluate their perspectives quantitatively on development of research and scholarship skills, teaching content and format, and tutor performance using this teaching approach. In addition, we captured free text responses from both students and tutors on the positives and negatives of our course, and their suggested improvements. We also compared summative assessment marks for the online/active research course (2020-2021) with those obtained from previous (2017-2019) and subsequent (2021-2023) teaching sessions. RESULTS: Students were largely positive about most aspects of the online course utilising an active research study (n = 13). Students agreed that they were able to acquire research skills, particularly related to data analysis, transferable skills, and giving scientific presentations. A one-way ANOVA revealed no significant difference for assessment marks across all five teaching years (two years prior and two years following the online/active research course), indicating that the course achieved the learning outcomes. Students enjoyed the convenience of online teaching and the availability of course resources, but least liked the lack of in-person interaction and laboratory training. Tutors enjoyed the collaborative aspects of online teaching, but least liked the lack of face-to-face interactions with students. CONCLUSIONS: Our study demonstrates that delivering online teaching which involves students in active research engages and motivates them to develop their research and scholarship skills. We recommend that educators consider incorporating a current research study in their undergraduate courses as this can enhance the student learning experience as well as the research project itself.


Subject(s)
Education, Medical, Undergraduate , Students, Medical , Humans , Curriculum , Pandemics , Learning , Teaching
2.
PLoS One ; 17(11): e0269353, 2022.
Article in English | MEDLINE | ID: mdl-36374838

ABSTRACT

Although coronavirus disease 2019 (COVID-19) affects the respiratory system, it can also have neurological consequences leading to cognitive deficits such as memory problems. The aim of our study was to assess the impact of COVID-19 on working memory function. We developed and implemented an online anonymous survey with a working memory quiz incorporating aspects of gamification to engage participants. 5428 participants successfully completed the survey and memory quiz between 8th December 2020 and 5th July 2021 (68.6% non-COVID-19 and 31.4% COVID-19). Most participants (93.3%) completed the survey and memory quiz relatively rapidly (mean time of 8.84 minutes). Categorical regression was used to assess the contribution of COVID status, age, time post-COVID (number of months elapsed since having had COVID), symptoms, ongoing symptoms and gender, followed by non-parametric statistics. A principal component analysis explored the relationship between subjective ratings and objective memory scores. The objective memory scores were significantly correlated with participants' own assessment of their cognitive function. The factors significantly affecting memory scores were COVID status, age, time post-COVID and ongoing symptoms. Our main finding was a significant reduction in memory scores in all COVID groups (self-reported, positive-tested and hospitalized) compared to the non-COVID group. Memory scores for all COVID groups combined were significantly reduced compared to the non-COVID group in every age category 25 years and over, but not for the youngest age category (18-24 years old). We found that memory scores gradually increased over a period of 17 months post-COVID-19. However, those with ongoing COVID-19 symptoms continued to show a reduction in memory scores. Our findings demonstrate that COVID-19 negatively impacts working memory function, but only in adults aged 25 years and over. Moreover, our results suggest that working memory deficits with COVID-19 can recover over time, although impairments may persist in those with ongoing symptoms.


Subject(s)
COVID-19 , Cognition Disorders , Humans , Adult , Adolescent , Young Adult , COVID-19/complications , Memory, Short-Term , Surveys and Questionnaires , Cognition Disorders/psychology , Self Report
3.
Exp Brain Res ; 239(10): 3007-3022, 2021 Oct.
Article in English | MEDLINE | ID: mdl-34347129

ABSTRACT

Virtual reality head mounted display (VR HMD) systems are increasingly utilised in combination with electroencephalography (EEG) in the experimental study of cognitive tasks. The aim of our investigation was to determine the similarities/differences between VR HMD and the computer screen (CS) in response to an n-back working memory task by comparing visual electrophysiological event-related potential (ERP) waveforms (N1/P1/P3 components). The same protocol was undertaken for VR HMD and CS with participants wearing the same EEG headcap. ERP waveforms obtained with the VR HMD environment followed a similar time course to those acquired in CS. The P3 mean and peak amplitudes obtained in VR HMD were not significantly different to those obtained in CS. In contrast, the N1 component was significantly higher in mean and peak amplitudes for the VR HMD environment compared to CS at the frontal electrodes. Significantly higher P1 mean and peak amplitudes were found at the occipital region compared to the temporal for VR HMD. Our results show that successful acquisition of ERP components to a working memory task is achievable by combining VR HMD with EEG. In addition, the higher amplitude N1/P1 components seen in VR HMD indicates the potential utility of this VR modality in the investigation of early ERPs. In conclusion, the combination of VR HMD with EEG/ERP would be a useful approach to advance the study of cognitive function in experimental brain research.


Subject(s)
Smart Glasses , Virtual Reality , Brain , Computers , Evoked Potentials , Humans , Memory, Short-Term
4.
Biomed Res Int ; 2017: 5496196, 2017.
Article in English | MEDLINE | ID: mdl-29349078

ABSTRACT

Researchers are increasingly attempting to undertake electroencephalography (EEG) recordings in novel environments and contexts outside of the traditional static laboratory setting. The term "mobile EEG," although commonly used to describe many of these undertakings, is ambiguous, since it attempts to encompass a wide range of EEG device mobility, participant mobility, and system specifications used across investigations. To provide quantitative parameters for "mobile EEG," we developed a Categorisation of Mobile EEG (CoME) scheme based upon scoring of device mobility (D, from 0, off-body, to 5, head-mounted with no additional equipment), participant mobility (P, from 0, static, to 5, unconstrained running), system specification (S, from 4, lowest, to 20, highest), and number of channels (C) used. The CoME scheme was applied to twenty-nine published mobile EEG studies. Device mobility scores ranged from 0D to 4D, participant mobility scores from 0P to 4P, and system specification scores from 6S to 17S. The format of the scores for the four parameters is given, for example, as (2D, 4P, 17S, 32C) and readily enables comparisons across studies. Our CoME scheme enables researchers to quantify the degree of device mobility, participant mobility, and system specification used in their "mobile EEG" investigations in a standardised way.


Subject(s)
Electroencephalography/methods , Mobile Applications , Monitoring, Ambulatory/methods , Biomedical Research , Humans , Smartphone
5.
Soc Cogn Affect Neurosci ; 9(11): 1684-9, 2014 Nov.
Article in English | MEDLINE | ID: mdl-24097376

ABSTRACT

The amygdala is known to play an important role in the response to facial expressions that convey fear. However, it remains unclear whether the amygdala's response to fear reflects its role in the interpretation of danger and threat, or whether it is to some extent activated by all facial expressions of emotion. Previous attempts to address this issue using neuroimaging have been confounded by differences in the use of control stimuli across studies. Here, we address this issue using a block design functional magnetic resonance imaging paradigm, in which we compared the response to face images posing expressions of fear, anger, happiness, disgust and sadness with a range of control conditions. The responses in the amygdala to different facial expressions were compared with the responses to a non-face condition (buildings), to mildly happy faces and to neutral faces. Results showed that only fear and anger elicited significantly greater responses compared with the control conditions involving faces. Overall, these findings are consistent with the role of the amygdala in processing threat, rather than in the processing of all facial expressions of emotion, and demonstrate the critical importance of the choice of comparison condition to the pattern of results.


Subject(s)
Amygdala/physiology , Brain Mapping , Facial Expression , Fear , Pattern Recognition, Visual/physiology , Adult , Amygdala/blood supply , Female , Humans , Image Processing, Computer-Assisted , Magnetic Resonance Imaging , Male , Oxygen/blood , Photic Stimulation , Reaction Time , Young Adult
6.
Front Hum Neurosci ; 6: 303, 2012.
Article in English | MEDLINE | ID: mdl-23248594

ABSTRACT

Magnetoencephalography (MEG) enables non-invasive recording of neuronal activity, with reconstruction methods providing estimates of underlying brain source locations and oscillatory dynamics from externally recorded neuromagnetic fields. The aim of our study was to use MEG to determine the effect of manual acupuncture on neuronal oscillatory dynamics. A major problem in MEG investigations of manual acupuncture is the absence of onset times for each needle manipulation. Given that beamforming (spatial filtering) analysis is not dependent upon stimulus-driven responses being phase-locked to stimulus onset, we postulated that beamforming could reveal source locations and induced changes in neuronal activity during manual acupuncture. In a beamformer analysis, a two-minute period of manual acupuncture needle manipulation delivered to the ipsilateral right LI-4 (Hegu) acupoint was contrasted with a two-minute baseline period. We considered oscillatory power changes in the theta (4-8 Hz), alpha (8-13 Hz), beta (13-30 Hz), and gamma (30-100 Hz) frequency bands. We found significant decreases in beta band power in the contralateral primary somatosensory cortex and superior frontal gyrus (SFG). In the ipsilateral cerebral hemisphere, we found significant power decreases in beta and gamma frequency bands in only the SFG. No significant power modulations were found in theta and alpha bands. Our results indicate that beamforming is a useful analytical tool to reconstruct underlying neuronal activity associated with manual acupuncture. Our main finding was of beta power decreases in primary somatosensory cortex and SFG, which opens up a line of future investigation regarding whether this contributes toward an underlying mechanism of acupuncture.

7.
Neuropsychologia ; 50(9): 2205-11, 2012 Jul.
Article in English | MEDLINE | ID: mdl-22659107

ABSTRACT

Neuropsychological and neuroimaging studies have demonstrated a role for the amygdala in processing the perceived trustworthiness of faces, but it remains uncertain whether its responses are linear (with the greatest response to the least trustworthy-looking faces), or quadratic (with increased fMRI signal for the dimension extremes). It is also unclear whether the trustworthiness of the stimuli is crucial or if the same response pattern can be found for faces varying along other dimensions. In addition, the responses to perceived trustworthiness of face-selective regions other than the amygdala are seldom reported. The present study addressed these issues using a novel set of stimuli created through computer image-manipulation both to maximise the presence of naturally occurring cues that underpin trustworthiness judgments and to allow systematic manipulation of these cues. With a block-design fMRI paradigm, we investigated neural responses to computer-manipulated trustworthiness in the amygdala and core face-selective regions in the occipital and temporal lobes. We asked whether the activation pattern is specific for differences in trustworthiness or whether it would also track variation along an orthogonal male-female gender dimension. The main findings were quadratic responses to changes in both trustworthiness and gender in all regions. These results are consistent with the idea that face-responsive brain regions are sensitive to face distinctiveness as well as the social meaning of the face features.


Subject(s)
Brain/physiology , Face , Gender Identity , Trust/psychology , Adolescent , Adult , Amygdala/physiology , Cues , Female , Humans , Image Processing, Computer-Assisted , Judgment/physiology , Magnetic Resonance Imaging , Male , Occipital Lobe/physiology , Photic Stimulation , Social Behavior , Temporal Lobe/physiology , Young Adult
8.
J Neurosci Methods ; 207(2): 189-99, 2012 Jun 15.
Article in English | MEDLINE | ID: mdl-22546477

ABSTRACT

In this paper, we test the performance of a synchronicity estimator widely applied in Neuroscience, phase lag index (PLI), for brain network inference in EEG. We implement the four sphere head model to simulate the volume conduction problem present in EEG recordings and measure the activity at the scalp of surrogate sources located at the brain level. Then, networks are estimated under the null hypothesis (independent sources) using PLI, coherence (R) and phase coherence (PC) for the volume conduction and no volume conduction (NVC) cases. It is known that R and PC are highly influenced by volume conduction, leading to the inference of clustered grid networks. PLI was designed to solve this problem. Our simulations show that PLI is partially invariant to volume conduction. The networks found by PLI show small-worldness, with a clustering coefficient higher than random networks. On the contrary, PLI-NVC obtains networks whose distribution is closer to random networks indicating that the high clustering shown by PLI networks are caused by volume conduction. The influence of volume conduction in PLI might lead to biased results in brain network inference from EEG if this behaviour is ignored.


Subject(s)
Brain/physiology , Electroencephalography/methods , Models, Anatomic , Nerve Net/physiology , Brain/pathology , Humans , Nerve Net/pathology , Time Factors
9.
Brain Res ; 1315: 111-8, 2010 Feb 22.
Article in English | MEDLINE | ID: mdl-20025853

ABSTRACT

The needling sensation of deqi is considered by most acupuncturists to be an important component of acupuncture, yet neuroimaging research that investigates this needle sensation has been limited. In this study we have investigated the effect of deqi and acute pain needling sensations upon brain fMRI blood oxygen level-dependent (BOLD) signals. Seventeen right-handed participants who received acupuncture at the right LI-4 (Hegu) acupoint were imaged in a 3T MRI scanner. fMRI datasets were classified, on the basis of psychophysical participants' reports of needling scores, into those that were associated with predominantly deqi sensations versus those with predominantly acute pain sensations. Brain areas showing changes in BOLD signal increases (activations) and decreases (deactivations) were identified. Differences were demonstrated in the pattern of activations and deactivations between groupings of scans associated with deqi versus pain sensations. For the deqi grouping, significant deactivations occurred, whereas significant activations did not. In contrast, the predominantly acute pain grouping was associated with a mixture of activations and deactivations. For the comparison between the predominately deqi sensation grouping and the acute pain sensation grouping (deqi>pain contrast), only negative Z value voxels resulted (mainly from deactivations in the deqi grouping and activations in the pain grouping) in the limbic/sub-cortical structures and the cerebellum regions of interest. Our results show the importance of collecting and accounting for needle sensation data in neuroimaging studies of acupuncture.


Subject(s)
Acupuncture Therapy/methods , Brain/physiology , Brain/physiopathology , Needles , Pain/physiopathology , Sensation/physiology , Acupuncture Therapy/instrumentation , Adult , Brain Mapping , Cerebrovascular Circulation , Female , Humans , Magnetic Resonance Imaging/methods , Male , Middle Aged , Oxygen/blood , Pain Measurement , Psychophysics , Young Adult
10.
J Physiol ; 587(Pt 11): 2499-510, 2009 Jun 01.
Article in English | MEDLINE | ID: mdl-19359371

ABSTRACT

This study investigated the role of electrical and chemical synapses in sustaining 4-aminopyridine (4-AP)-evoked network activity recorded extracellularly from substantia gelatinosa (SG) of young rat spinal cord in vitro. Superfusion of 4-AP (50 microM) induced two types of activity, the first was observed as large amplitude field population spiking activity and the second manifested within the inter-spike interval as low amplitude rhythmic oscillations in the 4-12 Hz frequency range (mean peak of 8.0 +/- 0.1 Hz). The AMPA/kainate receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX, 10 microM) abolished field population spiking and disrupted 4-12 Hz rhythmic oscillatory activity whereas the NMDA receptor antagonist D-AP5 (50 microM) had no significant effect on either activity component. The glycine receptor antagonist strychnine (4 microM) and the GABA(A) receptor antagonist bicuculline (10 microM) diminished and abolished, respectively, field population spiking and both antagonists reduced the power of 4-12 Hz oscillations. The non-specific gap junction blockers carbenoxolone (100 microM) and octanol (1 mM) attenuated both types of 4-AP-induced activity. By comparison, the neuronal-specific gap junction uncouplers quinine (250 microM) and mefloquine (500 nM) both disrupted 4-12 Hz oscillations but only quinine reduced the frequency of field population spiking. These data demonstrate the existence of 4-AP-sensitive neuronal networks within SG that can generate rhythmic activity, are differentially modulated by excitatory and inhibitory ionotropic neurotransmission and are at least partly reliant on neuronal and/or glial-mediated electrical connectivity. The physiological significance of these putative intrinsic SG networks and the implications in the context of processing of nociceptive inputs are discussed.


Subject(s)
4-Aminopyridine/pharmacology , Electrical Synapses/drug effects , Gap Junctions/drug effects , Nerve Net/drug effects , Posterior Horn Cells/drug effects , Synaptic Transmission/drug effects , Action Potentials , Animals , Animals, Newborn , Electrical Synapses/metabolism , Excitatory Amino Acid Antagonists/pharmacology , Gap Junctions/metabolism , In Vitro Techniques , Kinetics , Male , Nerve Net/metabolism , Neural Inhibition/drug effects , Perfusion , Periodicity , Posterior Horn Cells/metabolism , Rats , Rats, Wistar , Receptors, AMPA/metabolism , Receptors, GABA/metabolism , Receptors, Glycine/metabolism , Receptors, Kainic Acid/metabolism , Receptors, N-Methyl-D-Aspartate/metabolism
11.
Neuropsychologia ; 46(9): 2364-70, 2008.
Article in English | MEDLINE | ID: mdl-18479717

ABSTRACT

Findings of amygdala responsiveness to the eye region of fearful faces raise the question of whether eye widening is the only facial cue involved. We used fMRI to investigate the differential amygdala response to fearful versus neutral stimuli for faces, eyes, and for faces in which the eye region was masked. For maximum sensitivity, a block design was used, with a region of interest (ROI) centred on the amygdala which included peri-amygdalar areas. Evidence of amygdala responsiveness to fear compared to neutral stimuli was found for whole faces, eye region only, and for faces with masked eyes. The amygdala can therefore use information from facial regions other than the eyes, allowing it to respond differentially to fearful compared to neutral faces even when the eye region is hidden.


Subject(s)
Amygdala/physiology , Eye , Facial Expression , Fear/physiology , Adult , Fear/psychology , Female , Functional Laterality/physiology , Humans , Magnetic Resonance Imaging , Male , Mouth , Pattern Recognition, Visual/physiology , Photic Stimulation/methods , Psychomotor Performance/physiology , Visual Perception/physiology
12.
Neurosci Lett ; 434(1): 144-9, 2008 Mar 21.
Article in English | MEDLINE | ID: mdl-18294772

ABSTRACT

The difference between superficial and deep needling at acupuncture points has yet to be mapped with functional magnetic resonance imaging (fMRI). Using a 3T MRI, echo planar imaging data were acquired for 17 right-handed healthy volunteer participants. Two fMRI scans of acupuncture needling were taken in random order in a block design, one for superficial and one for deep needling on the right hand at the acupuncture point LI-4 (Hegu), with the participant blind to the order. For both scans needle stimulation was used. Brain image analysis tools were used to explore within-group and between-group differences in the blood oxygen level dependent (BOLD) responses. The study demonstrated marked similarities in BOLD signal responses between superficial and deep needling, with no significant differences in either activations (increases in BOLD signal) or deactivations (decreases in BOLD signal) above the voxel Z score of 2.3 with corrected cluster significance of P=0.05. For both types of needling, deactivations predominated over activations. These fMRI data suggest that acupuncture needle stimulation at two different depths of needling, superficial and deep, do not elicit significantly different BOLD responses. This data is consistent with the equivalent therapeutic outcomes that are claimed by proponents of Japanese and Chinese styles of acupuncture that utilise superficial and deep needling, respectively.


Subject(s)
Acupuncture/methods , Brain/physiology , Cerebrovascular Circulation/physiology , Magnetic Resonance Imaging/methods , Mechanoreceptors/physiology , Acupuncture/standards , Acupuncture Points/classification , Adolescent , Adult , Afferent Pathways/physiology , Brain/anatomy & histology , Brain Mapping/methods , Female , Functional Laterality/physiology , Humans , Image Processing, Computer-Assisted , Male , Middle Aged , Muscle, Skeletal/innervation , Proprioception/physiology , Skin/innervation
13.
J Physiol ; 562(Pt 1): 183-98, 2005 Jan 01.
Article in English | MEDLINE | ID: mdl-15528239

ABSTRACT

Although rhythmic behaviour of mammalian spinal ventral horn networks has been extensively studied little is known about oscillogenesis in the spinal dorsal horn. The aims of this in vitro study were to record and determine the underlying mechanisms of potassium-evoked network field oscillations in the substantia gelatinosa of the neonatal rat dorsal horn, a lamina involved in nociceptive processing. Transient pressure ejection of a potassium solution evoked reproducible rhythmic activity in discrete areas of the substantia gelatinosa which lasted for 5-15 s with a single prominent peak in the 4-12 Hz frequency band (7.7 +/- 0.1 Hz, n = 60). Oscillations of similar frequency and amplitude were also observed in isolated dorsal horn quadrants. Application of CNQX (10 microm) reduced peak power amplitude and integrated power area (from 4 to 12 Hz) of the power spectrum, whereas D-AP5 (50 microm) had no effect on the potassium-evoked rhythm. Bicuculline (30 microm) or strychnine (10 microm) reduced the power amplitude and area. On combination of bicuculline (30 microm) and strychnine (10 microm) the reductions in power amplitude and area were not significantly different (P > 0.05) when compared with application of either drug alone. The gap junction blockers carbenoxolone (100 microm) or octanol (1 mM) significantly reduced power amplitude and area. Although TTX (1 microm) or a calcium-free perfusate both caused reductions in the power amplitude and area, potassium-evoked rhythmic activity persisted. However, this persistent rhythm was further reduced on combination of calcium-free perfusate with octanol (1 mM) and was abolished using a cocktail of drugs. Blockade of the potassium delayed rectifier current by tetraethylammonium (5 mM) or the hyperpolarization-activated current (I(h)) by ZD7288 (10 microm) disrupted the synchronization of the potassium-induced oscillation. The frequency of potassium-induced rhythms was unaffected by any of the drugs tested. These novel findings demonstrate that transient pressure ejection of potassium evokes oscillatory activity in the substantia gelatinosa in vitro. This rhythm is partly dependent upon various receptors (AMPA/kainate, GABA(A) and glycine), ion channels (potassium delayed rectifier and I(h)) and gap junctions. Oscillatory behaviour in the substantia gelatinosa could potentially play a role in the processing of nociceptive signals.


Subject(s)
Neurotransmitter Agents/physiology , Substantia Gelatinosa/physiology , Synaptic Transmission/physiology , Animals , Animals, Newborn , Electrophysiology , Extracellular Space/physiology , Female , Gap Junctions/drug effects , In Vitro Techniques , Microelectrodes , Nerve Net/physiology , Potassium/pharmacology , Rats , Rats, Wistar , Receptors, GABA/drug effects , Receptors, Glutamate/drug effects , Spinal Cord/cytology , Spinal Cord/drug effects , Spinal Cord/physiology , Synaptic Transmission/drug effects
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