Neurovascular Coupling in Cognitive Impairment Associated With Diabetes Mellitus

Mogi, Masaki; Horiuchi, Masatsugu

doi:10.1253/circj.cj-11-0121

Cited by 109 publications

(78 citation statements)

References 80 publications

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“…In addition to loss of BBB integrity, there is increasing evidence that hypoperfusion and/or loss of neurovascular coupling may be a key pathway whereby oxidative stress connects vascularrelated diseases to cognitive impairment (45,55). Indeed, evidence suggests that diabetes-induced cognitive decline may be induced via disruption of neurovascular coupling, with physiological impairment arising from both cerebrovascular elements and also glial cells (61,83). In this light, it is important to note that NADPH oxidase is a major player in both endothelial and glial physiology.…”

Section: E400mentioning

confidence: 99%

NOX2 deficiency attenuates markers of adiposopathy and brain injury induced by high-fat diet

Pepping

Freeman

Gupta

et al. 2013

American Journal of Physiology-Endocrinology and Metabolism

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Pepping JK, Freeman LR, Gupta S, Keller JN, Bruce-Keller AJ. NOX2 deficiency attenuates markers of adiposopathy and brain injury induced by high-fat diet. Am J Physiol Endocrinol Metab 304: E392-E404, 2013. First published December 11, 2012 doi:10.1152/ajpendo.00398.2012.-The consumption of high-fat/ calorie diets in modern societies is likely a major contributor to the obesity epidemic, which can increase the prevalence of cancer, cardiovascular disease, and neurological impairment. Obesity may precipitate decline via inflammatory and oxidative signaling, and one factor linking inflammation to oxidative stress is the proinflammatory, pro-oxidant enzyme NADPH oxidase. To reveal the role of NADPH oxidase in the metabolic and neurological consequences of obesity, the effects of high-fat diet were compared in wild-type C57Bl/6 (WT) mice and in mice deficient in the NAPDH oxidase subunit NOX2 (NOX2KO). While diet-induced weight gains in WT and NOX2KO mice were similar, NOX2KO mice had smaller visceral adipose deposits, attenuated visceral adipocyte hypertrophy, and diminished visceral adipose macrophage infiltration. Moreover, the detrimental effects of HFD on markers of adipocyte function and injury were attenuated in NOX2KO mice; NOX2KO mice had improved glucose regulation, and evaluation of NOX2 expression identified macrophages as the primary population of NOX2-positive cells in visceral adipose. Finally, brain injury was assessed using markers of cerebrovascular integrity, synaptic density, and reactive gliosis, and data show that high-fat diet disrupted marker expression in WT but not NOX2KO mice. Collectively, these data indicate that NOX2 is a significant contributor to the pathogenic effects of high-fat diet and reinforce a key role for visceral adipose inflammation in metabolic and neurological decline. Development of NOX-based therapies could accordingly preserve metabolic and neurological function in the context of metabolic syndrome. brain injury; metabolic syndrome; NADPH oxidase; obesity

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Section: E400mentioning

confidence: 99%

NOX2 deficiency attenuates markers of adiposopathy and brain injury induced by high-fat diet

Pepping

Freeman

Gupta

et al. 2013

American Journal of Physiology-Endocrinology and Metabolism

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“…The abnormalities of spontaneous brain activity reflected by ALFF and ReHo measurements in the absence of structural changes in T2DM patients may provide insights into the neurological pathophysiology underlying diabetes-associated cognitive decline. Type 2 diabetes mellitus (T2DM) has been shown to be associated with an increased risk of cognitive impairment (1,2), which primarily manifests as declining memory, information processing speed (3), attention, and executive function (4). However, the pathophysiological mechanism of T2DM-induced cognitive impairment is still largely unknown (5).…”

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confidence: 99%

Altered Spontaneous Brain Activity in Type 2 Diabetes: A Resting-State Functional MRI Study

et al. 2014

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Previous research has shown that type 2 diabetes mellitus (T2DM) is associated with an increased risk of cognitive impairment. Patients with impaired cognition often show decreased spontaneous brain activity on resting-state functional magnetic resonance imaging (rs-fMRI). This study used rs-fMRI to investigate changes in spontaneous brain activity among patients with T2DM and to determine the relationship of these changes with cognitive impairment. T2DM patients (n = 29) and age-, sex-, and education-matched healthy control subjects (n = 27) were included in this study. Amplitude of lowfrequency fluctuation (ALFF) and regional homogeneity (ReHo) values were calculated to represent spontaneous brain activity. Brain volume and cognition were also evaluated among these participants. Compared with healthy control subjects, patients with T2DM had significantly decreased ALFF and ReHo values in the occipital lobe and postcentral gyrus. Patients performed worse on several cognitive tests; this impaired cognitive performance was correlated with decreased activity in the cuneus and lingual gyrus in the occipital lobe. Brain volume did not differ between the two groups. The abnormalities of spontaneous brain activity reflected by ALFF and ReHo measurements in the absence of structural changes in T2DM patients may provide insights into the neurological pathophysiology underlying diabetes-associated cognitive decline.

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“…Whatever the mechanism, with an expected increase in the prevalence of diabetes in people of all ages, which include the older adults, the risk of developing dementia may increase [23]. A diabetes-induced cognitive decline may be induced via the disruption of the neurovascular coupling, not only with vascular disorders but also with the impairment of the astrocytic trafficking [24]. It was observed in our study, that the educational qualification affected the MMSE and the 3MS scores.…”

Section: Resultsmentioning

confidence: 52%

Assessment of the Cognitive Status in Diabetes Mellitus

Shuba

Karan²

2012

JCDR

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Background and Objectives: Diabetes is considered as an independent risk factor for cognitive impairment and dementia. In this study, we assessed the cognitive status of diabetics and non diabetics by the Mini Mental Status Examination (MMSE) and the Modified Mini Mental Status Examination (3MS) and also found a correlation of age, sex, the duration of diabetes and HbA1C with the cognitive status among the diabetics. Materials and Methods:Thirty males and females above the age of 50 years, with and without diabetes, were included in the study. Both the groups underwent a cognition assessment by MMSE and 3MS and they scored 30 and 100 respectively. The correlation of age, sex, the duration of diabetes and HbA1C among the diabetics with 3MS was also done.Statistical Analysis: The analysis was done by using the SPSS software, version 13. The unpaired t test and one way ANOVA were used for various analyses. A p value of < 0.05 was considered to be statistically significant. Results:The diabetics showed decreased MMSE and 3MS scores (p<0.001). 63.33% of the diabetics had a decreased cognition, based on the MMSE and 70% of the diabetics had a decreased cognition, based on the 3MS. The correlation of age, sex, the duration of diabetes and HbA1C among the diabetics with cognition status was not significant. Conclusion:Diabetes is associated with lower levels of the cognitive function. By the early implementation of MMSE, we can detect even a mild cognitive impairment, so that adequate treatment can be given, to prevent dementia.

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Neurovascular Coupling in Cognitive Impairment Associated With Diabetes Mellitus

Cited by 109 publications

References 80 publications

NOX2 deficiency attenuates markers of adiposopathy and brain injury induced by high-fat diet

NOX2 deficiency attenuates markers of adiposopathy and brain injury induced by high-fat diet

Altered Spontaneous Brain Activity in Type 2 Diabetes: A Resting-State Functional MRI Study

Assessment of the Cognitive Status in Diabetes Mellitus

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