Accelerated decline in cognition in a mouse model of increased oxidative stress

Logan, Sreemathi; Royce, Gordon H.; Owen, Daniel B; Farley, Julie A.; Ranjo-Bishop, Michelle; Sonntag, William E.; Deepa, Sathyaseelan S.

doi:10.1007/s11357-019-00105-y

Cited by 44 publications

(44 citation statements)

References 103 publications

(137 reference statements)

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“…Furthermore, the assessment of ''age-related cognitive impairment'' is a critical scientific research area in human disease. Recent evidence of cognitive impairment in a mouse model of accelerated aging using the PhenoTyper indicates the translational potential for assessing cognitive function in various models of aging and models designed to mitigate age-related changes in learning and memory (Logan et al, 2019;Parks et al, 2020). In addition, when standard measurements like the Cumulative Learning Index (Logan et al, 2019) are proved to be…”

Section: Measuring Learning and Cognitive Functionsmentioning

confidence: 99%

Measuring Behavior in the Home Cage: Study Design, Applications, Challenges, and Perspectives

Grieco

Bernstein

Biemans

et al. 2021

Front. Behav. Neurosci.

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The reproducibility crisis (or replication crisis) in biomedical research is a particularly existential and under-addressed issue in the field of behavioral neuroscience, where, in spite of efforts to standardize testing and assay protocols, several known and unknown sources of confounding environmental factors add to variance. Human interference is a major contributor to variability both within and across laboratories, as well as novelty-induced anxiety. Attempts to reduce human interference and to measure more "natural" behaviors in subjects has led to the development of automated home-cage monitoring systems. These systems enable prolonged and longitudinal recordings, and provide large continuous measures of spontaneous behavior that can be analyzed across multiple time scales. In this review, a diverse team of neuroscientists and product developers share their experiences using such an automated monitoring system that combines Noldus PhenoTyper® home-cages and the video-based tracking software, EthoVision® XT, to extract digital biomarkers of motor, emotional, social and cognitive behavior. After presenting our working definition of a “home-cage”, we compare home-cage testing with more conventional out-of-cage tests (e.g., the open field) and outline the various advantages of the former, including opportunities for within-subject analyses and assessments of circadian and ultradian activity. Next, we address technical issues pertaining to the acquisition of behavioral data, such as the fine-tuning of the tracking software and the potential for integration with biotelemetry and optogenetics. Finally, we provide guidance on which behavioral measures to emphasize, how to filter, segment, and analyze behavior, and how to use analysis scripts. We summarize how the PhenoTyper has applications to study neuropharmacology as well as animal models of neurodegenerative and neuropsychiatric illness. Looking forward, we examine current challenges and the impact of new developments. Examples include the automated recognition of specific behaviors, unambiguous tracking of individuals in a social context, the development of more animal-centered measures of behavior and ways of dealing with large datasets. Together, we advocate that by embracing standardized home-cage monitoring platforms like the PhenoTyper, we are poised to directly assess issues pertaining to reproducibility, and more importantly, measure features of rodent behavior under more ethologically relevant scenarios.

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Section: Measuring Learning and Cognitive Functionsmentioning

confidence: 99%

Measuring Behavior in the Home Cage: Study Design, Applications, Challenges, and Perspectives

Grieco

Bernstein

Biemans

et al. 2021

Front. Behav. Neurosci.

Self Cite

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“…A range of recent studies both in elderly patients and rodent models shows that aging significantly impairs neurovascular coupling responses (Balbi et al., 2015; D'Esposito et al., 2003; Fabiani et al., 2014; Park et al., 2007; Schroeter et al., 2007; Sorond et al., 2013; Tarantini et al., 2016; Tarantini, Valcarcel‐Ares, et al., 2018, 2019; Tarantini et al., 2019; Tong et al., 2012; Zaletel et al., 2005). In aging, changes in the cerebrovascular ultrastructure caused by arteriosclerotic processes, increases in vascular oxidative stress (Logan et al., 2019; Tarantini, Valcarcel‐Ares, et al., 2018, 2019; Tarantini et al., 2019), progressively dysfunctional cellular components of the neurovascular unit, and the age‐related decline of important humoral vasoprotective factors (IGF‐1) (Toth et al., 2015), all are believed to be important contributors to the impairment of neurovascular coupling responses and cognition. Notably, age‐related changes in resting‐state CBF have been identified in humans (Bertsch et al., 2009; Restom et al., 2007; Zhang et al., 2017).…”

Section: Age‐related Impairment Of Neurovascular Coupling Responsesmentioning

confidence: 99%

Age‐related alterations in the cerebrovasculature affect neurovascular coupling and BOLD fMRI responses: Insights from animal models of aging

et al. 2020

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The present and future research efforts in cognitive neuroscience and psychophysiology rely on the measurement, understanding, and interpretation of blood oxygenation level‐dependent (BOLD) functional magnetic resonance imaging (fMRI) to effectively investigate brain function. Aging and age‐associated pathophysiological processes change the structural and functional integrity of the cerebrovasculature which can significantly alter how the BOLD signal is recorded and interpreted. In order to gain an improved understanding of the benefits, drawbacks, and methodological implications for BOLD fMRI in the context of cognitive neuroscience, it is crucial to understand the cellular and molecular mechanism of age‐related vascular pathologies. This review discusses the multifaceted effects of aging and the contributions of age‐related pathologies on structural and functional integrity of the cerebral microcirculation as they has been investigated in animal models of aging, including age‐related alterations in neurovascular coupling responses, cellular and molecular mechanisms involved in microvascular damage, vascular rarefaction, blood–brain barrier disruption, senescence, humoral deficiencies as they relate to, and potentially introduce confounding factors in the interpretation of BOLD fMRI.

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“…Maximum skeletal muscle strength, mass, and endurance decrease as a consequence of morphological and physiological changes in the cells of the organs responsible for the production of important metabolic regulators and target tissues. There are several markers of these changes that are identifiable in blood and help distinguish biological age from chronological age [ 1 ]. Among these markers are steroid hormones belonging to the group of androgens, mainly testosterone.…”

Section: Introductionmentioning

confidence: 99%

The Effect of High-Intensity Interval Training Periods on Morning Serum Testosterone and Cortisol Levels and Physical Fitness in Men Aged 35–40 Years

Ambroży

Rydzik

Obmiński

et al. 2021

JCM

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Background: Intensive physical activity largely modulates resting concentrations of blood cortisol (C) and testosterone (T) and their molar ratio, which is defined as the anabolic–catabolic index and expressed as T/C × 102. The aim of the study is to evaluate the effect of the author’s high-intensity training program on T, C, T/C × 102, and selected physical fitness indices in men between 35 and 40 years of age. Methods: The experiment was conducted on a group of 30 healthy men, divided into control and experimental groups. The experimental group followed a high-intensity 8-week training program, which included three sessions per week, each of them lasting 1 h and consisting of intensive-interval exercises followed by strength circuit exercises. The controls did not change their previous recreational physical activity. T, C, and T/C × 102 were measured before and after the experiment for all participants. Physical performance was examined using a standardized laboratory exercise test to determine maximal oxygen uptake (VO2max). Results: There were statistically significant increases in T (by 36.7%) and T/C × 102 (by 59%), while C somewhat dropped (by 12%) in the experimental group. No changes in the hormonal indices were found in the control group. After completing the experimental training, there were no statistically significant changes in aerobic capacity, but it improved muscle strength in the men studied. Conclusions: High-intensity interval training, continued over an 8-week period, modulates (significantly and positively) the balance between testosterone and cortisol levels and improves physical capacity in men aged 35–40 years.

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Accelerated decline in cognition in a mouse model of increased oxidative stress

Cited by 44 publications

References 103 publications

Measuring Behavior in the Home Cage: Study Design, Applications, Challenges, and Perspectives

Measuring Behavior in the Home Cage: Study Design, Applications, Challenges, and Perspectives

Age‐related alterations in the cerebrovasculature affect neurovascular coupling and BOLD fMRI responses: Insights from animal models of aging

The Effect of High-Intensity Interval Training Periods on Morning Serum Testosterone and Cortisol Levels and Physical Fitness in Men Aged 35–40 Years

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