Effect of Osteoarthritis on Prefrontal Cortical Activation Patterns During Dual Task Walking in Older Women

Hypertension is considered a risk factor for cardiovascular health and non-amnestic cognitive impairment in older adults. While heart rate reserve (HRR) has been shown to be a risk factor for hypertension, how impaired HRR in older adults can lead to cognitive impairment is still unclear. The objective of this study was to examine the effects of HRR on prefrontal cortical (PFC) activation under varying dual-task demands in older adults. Twenty-eight older adults (50–82 years of age) were included in this study and divided into higher (n = 14) and lower (n = 14) HRR groups. Participants engaged in the cognitive task which was the Modified Stroop Color Word Test (MSCWT) on a self-paced treadmill while walking. Participants with higher HRR demonstrated increased PFC activation in comparison to lower HRR, even after controlling for covariates in analysis. Furthermore, as cognitive task difficulty increased (from neutral to congruent to incongruent to switching), PFC activation increased. In addition, there was a significant interaction between tasks and HRR group, with older adults with higher HRR demonstrating increases in PFC activation, faster gait speed, and increased accuracy, relative to those with lower HRR, when going from neutral to switching tasks. These results provide evidence of a relationship between HRR and prefrontal cortical activation and cognitive and physical performance, suggesting that HRR may serve as a biomarker for cognitive health of an older adult with or without cardiovascular risk.

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Effect of Anxiety Inducing Virtual Reality Environments on Prefrontal Cortical Activation among Older Women with and without Osteoarthritis

Archives of Physical Medicine and Rehabilitation ◽

10.1016/j.apmr.2020.09.290 ◽

2020 ◽

Vol 101 (11) ◽

pp. e95-e96

Author(s):

Alka Bishnoi ◽

Yang Hu ◽

Manuel Hernandez

Keyword(s):

Virtual Reality ◽

Older Women ◽

Cortical Activation ◽

Prefrontal Cortical

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Effect of Osteoarthritis on Prefrontal Cortical Activation Patterns During Downward Reaching in Older Women

Innovation in Aging ◽

10.1093/geroni/igaa057.392 ◽

2020 ◽

Vol 4 (Supplement_1) ◽

pp. 119-119

Author(s):

Manuel Hernandez ◽

Yang Hu ◽

Alka Bishnoi

Keyword(s):

Older Women ◽

Near Infrared ◽

Local Community ◽

Target Position ◽

Cortical Activation ◽

Attentional Resource ◽

Functional Near Infrared Spectroscopy ◽

Attentional Resources ◽

Prefrontal Cortical ◽

Base Of Support

Abstract Downward reaching may lead to falls in older adults, but the underlying mechanisms are poorly understood, particularly in older women with osteoarthritis. Given the importance of attentional resources when maintaining balance in balance-demanding conditions, functional near-infrared spectroscopy may provide a lens to the attentional resource allocation needed to maintain balance while reaching down to the ground with or without full contact with the floor. We examined the changes in the executive control of downward reaching movements in older women with osteoarthritis. We hypothesized that prefrontal cortical activation would be higher in older women with osteoarthritis, compared to age-matched controls, particularly as the balance demands increased. Older women with osteoarthritis (n=7, mean±SD age: 66±3 years) and age-matched controls (n=10, mean±SD age: 67±6 years) were recruited from the local community. The effect of the base of support and target position (toe or maximal forward distance along ground) on attentional resources in older women with osteoarthritis were evaluated using the average oxygenated hemoglobin levels as a measure of prefrontal cortical (PFC) activation. Significant base of support by cohort and target by cohort interactions were observed on average PFC activation levels (P<0.005). As expected, PFC activation levels increased as the contact with the floor decreased and as the target distance increased, but older women with osteoarthritis were unable to increase their PFC activation levels as much as age-matched controls. In conclusion, these data suggest that older women with osteoarthritis may not be adequately modulating attentional resources to meet high-balance demanding tasks.

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Functional disruption of cortical cingulate activity attenuates visceral hypersensitivity and anxiety induced by acute experimental colitis

Scientific Reports ◽

10.1038/s41598-021-81256-x ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Lukas Brenner ◽

Leah Zerlin ◽

Linette Liqi Tan

Keyword(s):

Visceral Pain ◽

Experimental Colitis ◽

Visceral Hypersensitivity ◽

Cortical Activation ◽

Anterior Cingulate ◽

Pathological Feature ◽

Activation Patterns ◽

Bowel Disorders ◽

Noxious Mechanical Stimulation ◽

Underlying Mechanisms

AbstractVisceral pain is a highly complex experience and is the most common pathological feature in patients suffering from inflammatory gastrointestinal disorders. Whilst it is increasingly recognized that aberrant neural processing within the gut-brain axis plays a key role in development of neurological symptoms, the underlying mechanisms remain largely unknown. Here, we investigated the cortical activation patterns and effects of non-invasive chemogenetic suppression of cortical activity on visceral hypersensitivity and anxiety-related phenotypes in a well-characterized mouse model of acute colitis induced by dextran sulfate sodium (DSS). We found that within the widespread cortical network, the mid-cingulate cortex (MCC) was consistently highly activated in response to innocuous and noxious mechanical stimulation of the colon. Furthermore, during acute experimental colitis, impairing the activity of the MCC successfully alleviated visceral hypersensitivity, anxiety-like behaviors and visceromotor responses to colorectal distensions (CRDs) via downregulating the excitability of the posterior insula (PI), somatosensory and the rostral anterior cingulate cortices (rACC), but not the prefrontal or anterior insula cortices. These results provide a mechanistic insight into the central cortical circuits underlying painful visceral manifestations and implicate MCC plasticity as a putative target in cingulate-mediated therapies for bowel disorders.

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Genetic and environmental contribution to postural balance of older women in single and dual task situations

Neurobiology of Aging ◽

10.1016/j.neurobiolaging.2006.04.002 ◽

2007 ◽

Vol 28 (6) ◽

pp. 947-954 ◽

Cited By ~ 14

Author(s):

Satu Pajala ◽

Pertti Era ◽

Markku Koskenvuo ◽

Jaakko Kaprio ◽

Asko Tolvanen ◽

...

Keyword(s):

Older Women ◽

Dual Task ◽

Postural Balance ◽

Environmental Contribution

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REVEALING CORTICAL ACTIVATION PATTERNS OF NOVEL TASK PERFORMANCE IN CHILDREN WITH LOW COORDINATION VIA FNIRS

Frontiers in Human Neuroscience ◽

10.3389/conf.fnhum.2018.227.00027 ◽

2018 ◽

Vol 12 ◽

Author(s):

Shawn Joshi ◽

Benjamin Weedon ◽

Patrick Esser ◽

Yan-Ci Liu ◽

Daniella Springett ◽

...

Keyword(s):

Task Performance ◽

Cortical Activation ◽

Activation Patterns

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Modifications in Prefrontal Cortex Oxygenation in Linear and Curvilinear Dual Task Walking: A Combined fNIRS and IMUs Study

Sensors ◽

10.3390/s21186159 ◽

2021 ◽

Vol 21 (18) ◽

pp. 6159

Author(s):

Valeria Belluscio ◽

Gabriele Casti ◽

Marco Ferrari ◽

Valentina Quaresima ◽

Maria Sofia Sappia ◽

...

Keyword(s):

Prefrontal Cortex ◽

Dual Task ◽

Near Infrared ◽

Cognitive Task ◽

Real Life ◽

Motor Task ◽

Hemoglobin Concentration ◽

Cortical Activation ◽

Functional Near Infrared Spectroscopy ◽

Gait Quality

Increased oxygenated hemoglobin concentration of the prefrontal cortex (PFC) has been observed during linear walking, particularly when there is a high attention demand on the task, like in dual-task (DT) paradigms. Despite the knowledge that cognitive and motor demands depend on the complexity of the motor task, most studies have only focused on usual walking, while little is known for more challenging tasks, such as curved paths. To explore the relationship between cortical activation and gait biomechanics, 20 healthy young adults were asked to perform linear and curvilinear walking trajectories in single-task and DT conditions. PFC activation was assessed using functional near-infrared spectroscopy, while gait quality with four inertial measurement units. The Figure-of-8-Walk-Test was adopted as the curvilinear trajectory, with the “Serial 7s” test as concurrent cognitive task. Results show that walking along curvilinear trajectories in DT led to increased PFC activation and decreased motor performance. Under DT walking, the neural correlates of executive function and gait control tend to be modified in response to the cognitive resources imposed by the motor task. Being more representative of real-life situations, this approach to curved walking has the potential to reveal crucial information and to improve people’ s balance, safety, and life’s quality.

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