The Effects of Ageing and Visual Field Loss on Pointing to Visual Targets

Purpose

To investigate the effect of ageing on visuomotor function and subsequently evaluate the effect of visual field loss on such function in older adults.

Methods

Two experiments were performed: 1) to determine the effect of ageing on visual localisation and subsequent pointing precision, and 2) to determine the effect of visual field loss on these outcome measures. For Experiment 1, we measured visual localisation and pointing precision radially at visual eccentricities of 5, 10 and 15° in 25 older (60–72 years) and 25 younger (20–31 years) adults. In the pointing task, participants were asked to point to a target on a touchscreen at a natural pace that prioritised accuracy of the touch. In Experiment 2, a subset of these tasks were performed at 15° eccentricity under both monocular and binocular conditions, by 8 glaucoma (55–76 years) and 10 approximately age-matched controls (61–72 years).

Results

Visual localisation and pointing precision was unaffected by ageing (p>0.05) and visual field loss (p>0.05), although movement time was increased in glaucoma (p = 0.01).

Conclusion

Visual localisation and pointing precision to high contrast stimuli within the central 15° of vision are unaffected by ageing. Even in the presence of significant visual field loss, older adults with glaucoma are able perform such tasks with reasonable precision provided the target can be perceived and movement time is not restricted.     

Parametric Modeling of Visual Search Efficiency in Real Scenes

How should the efficiency of searching for real objects in real scenes be measured? Traditionally, when searching for artificial targets, e.g., letters or rectangles, among distractors, efficiency is measured by a reaction time (RT) × Set Size function. However, it is not clear whether the set size of real scenes is as effective a parameter for measuring search efficiency as the set size of artificial scenes. The present study investigated search efficiency in real scenes based on a combination of low-level features, e.g., visible size and target-flanker separation factors, and high-level features, e.g., category effect and target template. Visible size refers to the pixel number of visible parts of an object in a scene, whereas separation is defined as the sum of the flank distances from a target to the nearest distractors. During the experiment, observers searched for targets in various urban scenes, using pictures as the target templates. The results indicated that the effect of the set size in real scenes decreased according to the variances of other factors, e.g., visible size and separation. Increasing visible size and separation factors increased search efficiency. Based on these results, an RT × Visible Size × Separation function was proposed. These results suggest that the proposed function is a practicable predictor of search efficiency in real scenes.     

Protein Misfolding and Aggregation in Ageing and Disease

Although intensively researched, the fundamental mechanism of protein misfolding that leads to protein aggregation and associated diseases remains somewhat enigmatic. The failure of a protein to correctly fold de novo or to remain correctly folded can have profound consequences on a living system especially when the cellular quality control processes fail to eliminate the rogue proteins. Over 20 different human diseases have now been designated as ‘conformational diseases’ and include neurodegenerative diseases such as Alzheimer’s disease (AD), Huntington’s disease (HD) and Creutzfeldt Jakob disease (CJD) that are becoming increasingly prevalent in an ageing human population. Such diseases are usually characterised by the deposition of specific misfolded proteins as amyloid fibrils and hence are often referred to as the amyloidoses.     

The Perception of Naturalness Correlates with Low-Level Visual Features of Environmental Scenes

Previous research has shown that interacting with natural environments vs. more urban or built environments can have salubrious psychological effects, such as improvements in attention and memory. Even viewing pictures of nature vs. pictures of built environments can produce similar effects. A major question is: What is it about natural environments that produces these benefits? Problematically, there are many differing qualities between natural and urban environments, making it difficult to narrow down the dimensions of nature that may lead to these benefits. In this study, we set out to uncover visual features that related to individuals'' perceptions of naturalness in images. We quantified naturalness in two ways: first, implicitly using a multidimensional scaling analysis and second, explicitly with direct naturalness ratings. Features that seemed most related to perceptions of naturalness were related to the density of contrast changes in the scene, the density of straight lines in the scene, the average color saturation in the scene and the average hue diversity in the scene. We then trained a machine-learning algorithm to predict whether a scene was perceived as being natural or not based on these low-level visual features and we could do so with 81% accuracy. As such we were able to reliably predict subjective perceptions of naturalness with objective low-level visual features. Our results can be used in future studies to determine if these features, which are related to naturalness, may also lead to the benefits attained from interacting with nature.     

Cultural Adaptation of Visual Attention: Calibration of the Oculomotor Control System in Accordance with Cultural Scenes

Previous studies have found that Westerners are more likely than East Asians to attend to central objects (i.e., analytic attention), whereas East Asians are more likely than Westerners to focus on background objects or context (i.e., holistic attention). Recently, it has been proposed that the physical environment of a given culture influences the cultural form of scene cognition, although the underlying mechanism is yet unclear. This study examined whether the physical environment influences oculomotor control. Participants saw culturally neutral stimuli (e.g., a dog in a park) as a baseline, followed by Japanese or United States scenes, and finally culturally neutral stimuli again. The results showed that participants primed with Japanese scenes were more likely to move their eyes within a broader area and they were less likely to fixate on central objects compared with the baseline, whereas there were no significant differences in the eye movements of participants primed with American scenes. These results suggest that culturally specific patterns in eye movements are partly caused by the physical environment.     

Olfactory Functions in Parkinson's Disease and Alzheimer's Disease

The aim of this investigation was to compare olfactory functionsof patients suffering from Parkinson's disease (PD) and Alzheimer'sdisease (AD). Olfactory threshold, odor identification abilityand odor memory performance were assessed in 21 non-dementedPD patients and in 22 AD patients. Both patient groups wereimpaired in relation to an age-matched control group for themeasure of odor identification. AD patients showed a higherolfactory threshold and poorer odor memory performance. ChemSenses 22: 105–110, 1997.     

脑啡肽酶(neprilysin)和阿尔茨海默病

由于阿尔茨海默病 (Ａｌｚｈｅｉｍｅｒｄｉｓｅａｓｅ ,ＡＤ)的病因不明和到目前为止仍缺乏根治的办法 ,加之全世界范围的老龄化和ＡＤ的高发病率 ,一些科学家预言ＡＤ可能是本世纪最可怕的老年病。ＡＤ的数十年的漫长病程一般从 β淀粉样肽 (Ａβ)在脑中沉着开始 ,Ａβ是一个生理性多肽 ,它是淀粉样前体蛋白(ＡＰＰ)的水解产物。它的合成和分解代谢的平衡决定它在体内有一个稳定的水平。研究证明 ,由于基因突变导致的特殊形式的Ａβ的产生增加 50 %就能引起ＡＤ ,Ａβ代谢平衡的轻微改变不仅能影响ＡＤ的病理过程 ,而且能影响这个疾病的发…     

早老素与阿尔茨海默病

早老素(presenilin,PS)与阿尔茨海默病(alzheimer’s disease,AD)密切相关,其基因突变是遗传性家族型AD的主要病因。PS可能作为γ分泌酶和(或)通过影响蛋白质的膜转运参与β淀粉样前体蛋白质(β-amyloid precur-sor protein,APP)代谢生成Aβ42的过程,而PS多蛋白质复合物的形成可能是其中的关键步骤,突变的PS则通过“获得功能”的方式引起Aβ42的产生和沉积增加。PS还可能通过影响未折叠蛋白质反应等多种途径来影响神经细胞对凋亡的敏感性。本综述旨在探讨PS在AD中的上述病理作用。     

Presynaptic Serotonergic Dysfunction in Patients with Alzheimer's Disease

Indices of presynaptic serotonergic nerve endings were assayed in neocortical biopsy samples from patients with histologically verified Alzheimer's disease. The concentrations of 5-hydroxytryptamine (serotonin) and 5-hydroxyindoleacetic acid, serotonin uptake, and K+-stimulated release of endogenous serotonin were all found to be reduced below control values. Changes occurred in samples from both the frontal and temporal lobes, but they were most severe (at least a 55% reduction) in the temporal lobe. This is indicative of substantial serotonergic denervation. Values for serotonergic markers in Alzheimer's disease samples did not show correlations with rating of the severity of dementia, indices of cholinergic innervation, or senile plaque and cortical pyramidal neurone loss. However, neurofibrillary tangle count and an index of glucose oxidation (both probably reflecting pyramidal cells) correlated with the concentration of 5-hydroxyindoleacetic acid.     

Tau Aggregation in Alzheimer's Disease

The crucial role of the neuronal Tau protein in microtubule stabilization and axonal transport suggests that too little or too much Tau might lead to neuronal dysfunction. The presence of a hyper-phosphorylated but non-aggregated molecule as a toxic species that might sequester normal Tau is discussed. We present recent in vitro results that might allow to dissect the role of individual phosphorylation sites on its structure and function. We also discuss in this review the role of phosphorylation for the aggregation of the neuronal Tau protein, and compare it to the aggregation induced by external poly-anions.     

CD33 in Alzheimer's Disease

The amyloid-beta peptide (Aβ) cascade hypothesis posits that Aβ accumulation is the fundamental initiator of Alzheimer's disease (AD), and mounting evidence suggests that impaired Aβ clearance rather than its overproduction is the major pathogenic event for AD. Recent genetic studies have identified cluster of differentiation 33 (CD33) as a strong genetic locus linked to AD. As a type I transmembrane protein, CD33 belongs to the sialic acid-binding immunoglobulin-like lectins, mediating the cell–cell interaction and inhibiting normal functions of immune cells. In the brain, CD33 is mainly expressed on microglial cells. The level of CD33 was found to be increased in the AD brain, which positively correlated with amyloid plaque burden and disease severity. More importantly, CD33 led to the impairment of microglia-mediated clearance of Aβ, which resulted in the formation of amyloid plaques in the brain. In this article, we review the recent epidemiological findings of CD33 that related with AD and discuss the levels and pathogenic roles of CD33 in this disease. Based on the contributing effects of CD33 in AD pathogenesis, targeting CD33 may provide new opportunities for AD therapeutic strategies.     

过氧化物酶体功能异常与阿尔茨海默病

过氧化物酶体是一种广泛存在于真核细胞内的异质性细胞器,具有多种酶活性,主要功能是参与脂肪酸氧化、磷脂合成和氧化应激平衡的调节等过程。研究发现,过氧化物酶体功能异常引起的脑组织中极长链脂肪酸聚集、植烷酸贮积、二十二碳六烯酸(docosahexaenoic acid,DHA)和缩醛磷脂减少等与阿尔茨海默病(Alzheimer’s disease,AD)的发生发展密切相关。尽管具体的机制尚不清楚,但目前认为,过氧化物酶体功能异常很可能是AD发生发展的始动因素之一。因此,就过氧化物酶体功能异常与AD之间关系的研究进展进行综述,有助于为AD的发病机制研究提供线索和依据。     

Timing Precision in Population Coding of Natural Scenes in the Early Visual System

The timing of spiking activity across neurons is a fundamental aspect of the neural population code. Individual neurons in the retina, thalamus, and cortex can have very precise and repeatable responses but exhibit degraded temporal precision in response to suboptimal stimuli. To investigate the functional implications for neural populations in natural conditions, we recorded in vivo the simultaneous responses, to movies of natural scenes, of multiple thalamic neurons likely converging to a common neuronal target in primary visual cortex. We show that the response of individual neurons is less precise at lower contrast, but that spike timing precision across neurons is relatively insensitive to global changes in visual contrast. Overall, spike timing precision within and across cells is on the order of 10 ms. Since closely timed spikes are more efficient in inducing a spike in downstream cortical neurons, and since fine temporal precision is necessary to represent the more slowly varying natural environment, we argue that preserving relative spike timing at a ~10-ms resolution is a crucial property of the neural code entering cortex.     

Effects of Chronic Arginase Inhibition with Norvaline on Tau Pathology and Brain Glucose Metabolism in Alzheimer's Disease Mice

Neurochemical Research - Alzheimer's disease (AD) is an insidious neurodegenerative disorder representing a serious continuously escalating medico-social problem. The AD-associated progressive...