Jennifer Cooke scite author profile

Tripeptidyl peptidase 1 (TPP1) deficiency causes CLN2 disease, late infantile (or classic late infantile neuronal ceroid lipofuscinosis), a paediatric neurodegenerative disease of autosomal recessive inheritance. Patients suffer from blindness, ataxia, epilepsy and cognitive defects, with MRI indicating widespread brain atrophy, and profound neuron loss is evident within the retina and brain. Currently there are no effective therapies for this disease, which causes premature death in adolescence. Zebrafish have been successfully used to model a range of neurological and behavioural abnormalities. The aim of this study was to characterize the pathological and functional consequences of Tpp1 deficiency in zebrafish and to correlate these with human CLN2 disease, thereby providing a platform for drug discovery. Our data show that homozygous tpp1(sa0011) mutant (tpp1(sa0011)(-/-)) zebrafish display a severe, progressive, early onset neurodegenerative phenotype, characterized by a significantly small retina, a small head and curved body. The mutant zebrafish have significantly reduced median survival with death occurring 5 days post-fertilization. As in human patients with CLN2 disease, mutant zebrafish display storage of subunit c of mitochondrial ATP-synthase, hypertrophic lysosomes as well as localized apoptotic cell death in the retina, optic tectum and cerebellum. Further neuropathological phenotypes of these mutants provide novel insights into mechanisms of pathogenesis in CLN2 disease. Secondary neurogenesis in the retina, optic tectum and cerebellum is impaired and axon tracts within the spinal cord, optic nerve and the posterior commissure are disorganized, with the optic nerve failing to reach its target. This severe neurodegenerative phenotype eventually results in functional motor impairment, but this is preceded by a phase of hyperactivity that is consistent with seizures. Importantly, both of these locomotion phenotypes can be assayed in an automated manner suitable for high-throughput studies. Our study provides proof-of-principle that tpp1(sa0011)(-/-) mutants can utilize the advantages of zebrafish for understanding pathogenesis and drug discovery in CLN2 disease and other epilepsies.

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The meaning of significant mean group differences for biomarker discovery

Loth

Ahmad

Chatham³

et al. 2021

PLoS Comput Biol

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Over the past decade, biomarker discovery has become a key goal in psychiatry to aid in the more reliable diagnosis and prognosis of heterogeneous psychiatric conditions and the development of tailored therapies. Nevertheless, the prevailing statistical approach is still the mean group comparison between “cases” and “controls,” which tends to ignore within-group variability. In this educational article, we used empirical data simulations to investigate how effect size, sample size, and the shape of distributions impact the interpretation of mean group differences for biomarker discovery. We then applied these statistical criteria to evaluate biomarker discovery in one area of psychiatric research—autism research. Across the most influential areas of autism research, effect size estimates ranged from small (d = 0.21, anatomical structure) to medium (d = 0.36 electrophysiology, d = 0.5, eye-tracking) to large (d = 1.1 theory of mind). We show that in normal distributions, this translates to approximately 45% to 63% of cases performing within 1 standard deviation (SD) of the typical range, i.e., they do not have a deficit/atypicality in a statistical sense. For a measure to have diagnostic utility as defined by 80% sensitivity and 80% specificity, Cohen’s d of 1.66 is required, with still 40% of cases falling within 1 SD. However, in both normal and nonnormal distributions, 1 (skewness) or 2 (platykurtic, bimodal) biologically plausible subgroups may exist despite small or even nonsignificant mean group differences. This conclusion drastically contrasts the way mean group differences are frequently reported. Over 95% of studies omitted the “on average” when summarising their findings in their abstracts (“autistic people have deficits in X”), which can be misleading as it implies that the group-level difference applies to all individuals in that group. We outline practical approaches and steps for researchers to explore mean group comparisons for the discovery of stratification biomarkers.

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Placing meta-stable states of consciousness within the predictive coding hierarchy: The deceleration of the accelerated prediction error

Shirazibeheshti

Cooke

Chennu

et al. 2018

Consciousness and Cognition

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While many studies have linked prediction errors and event related potentials at a single processing level, few consider how these responses interact across levels. In response, we present a factorial analysis of a multi-level oddball task - the local-global task - and we explore it when participants are sedated versus recovered. We found that the local and global levels in fact interact. This is of considerable current interest, since it has recently been argued that the MEEG response evoked by the global effect corresponds to a distinct processing mode that moves beyond predictive coding. This interaction suggests that the two processing modes are not distinct. Additionally, we observed that sedation modulates this interaction, suggesting that conscious awareness may not be completely restricted to a single (global) processing level.

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Sedation Modulates Frontotemporal Predictive Coding Circuits and the Double Surprise Acceleration Effect

Witon

Shirazibehehsti

Cooke

et al. 2020

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Two important theories in cognitive neuroscience are predictive coding (PC) and the global workspace (GW) theory. A key research task is to understand how these two theories relate to one another, and particularly, how the brain transitions from a predictive early state to the eventual engagement of a brain-scale state (the GW). To address this question, we present a source-localization of EEG responses evoked by the local-global task—an experimental paradigm that engages a predictive hierarchy, which encompasses the GW. The results of our source reconstruction suggest three phases of processing. The first phase involves the sensory (here auditory) regions of the superior temporal lobe and predicts sensory regularities over a short timeframe (as per the local effect). The third phase is brain-scale, involving inferior frontal, as well as inferior and superior parietal regions, consistent with a global neuronal workspace (GNW; as per the global effect). Crucially, our analysis suggests that there is an intermediate (second) phase, involving modulatory interactions between inferior frontal and superior temporal regions. Furthermore, sedation with propofol reduces modulatory interactions in the second phase. This selective effect is consistent with a PC explanation of sedation, with propofol acting on descending predictions of the precision of prediction errors; thereby constraining access to the GNW.

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An exploratory qualitative study exploring GPs' and psychiatrists' perceptions of post‐traumatic stress disorder in postnatal women using a fictional case vignette

et al. 2021

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Postnatal post-traumatic stress disorder (PTSD) affects 3%-4% of women who give birth. It is underdiagnosed and undertreated. Thus far, no studies have investigated doctors' perceptions of PTSD in postnatal women. We investigated whether GPs and psychiatrists perceive PTSD symptoms after birth to indicate pathology and what diagnosis and management they would offer. Semi-structured interviews were conducted with six GPs and seven psychiatrists using a fictional vignette featuring a woman experiencing PTSD following a traumatic birth. A framework analysis approach was used. Despite half the GPs recognizing trauma-related features in the vignette their most common diagnosis was postnatal depression whereas six of the seven psychiatrists identified PTSD. Management plans reflected this. Both GPs and psychiatrists lacked trust in timeliness of referrals to psychological services. Both suggested referral to specialist perinatal mental health teams. Results suggest women are unlikely to get a PTSD diagnosis during initial GP consultations, however the woman-centred care proposed by GPs means that a trauma-focussed diagnosis later in the care pathway was not ruled out. Further research is needed to confirm these findings, which suggest that an evidence base around best management for women with postnatal PTSD is sorely needed, especially to inform GP training. K E Y W O R D Sperinatal mental health, postnatal post-traumatic stress disorder, recognition of posttraumatic stress disorder | INTRODUCTIONChildbirth is a common life event perceived generally by society as a positive time in women's lives. From a physical health perspective giving birth has never been safer (Knight et al., 2017; World Health Organization, 2019). However approximately a third of women describe their experience of childbirth as psychologically traumatic

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Jennifer Cooke

A zebrafish model of CLN2 disease is deficient in tripeptidyl peptidase 1 and displays progressive neurodegeneration accompanied by a reduction in proliferation

The meaning of significant mean group differences for biomarker discovery

Placing meta-stable states of consciousness within the predictive coding hierarchy: The deceleration of the accelerated prediction error

Sedation Modulates Frontotemporal Predictive Coding Circuits and the Double Surprise Acceleration Effect

An exploratory qualitative study exploring GPs' and psychiatrists' perceptions of post‐traumatic stress disorder in postnatal women using a fictional case vignette

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