Robert P. Cowan scite author profile

BackgroundEarly treatment of Alzheimer’s disease may reduce its devastating effects. By focusing research on asymptomatic individuals with Alzheimer’s disease pathology (the preclinical stage), earlier indicators of disease may be discovered. Decreasing cerebrospinal fluid beta-amyloid42 is the first indicator of preclinical disorder, but it is not known which pathology causes the first clinical effects. Our hypothesis is that neuropsychological changes within the normal range will help to predict preclinical disease and locate early pathology.Methods and FindingsWe recruited adults with probable Alzheimer’s disease or asymptomatic cognitively healthy adults, classified after medical and neuropsychological examination. By logistic regression, we derived a cutoff for the cerebrospinal fluid beta amyloid42/tau ratios that correctly classified 85% of those with Alzheimer’s disease. We separated the asymptomatic group into those with (n = 34; preclinical Alzheimer’s disease) and without (n = 36; controls) abnormal beta amyloid42/tau ratios; these subgroups had similar distributions of age, gender, education, medications, apolipoprotein-ε genotype, vascular risk factors, and magnetic resonance imaging features of small vessel disease. Multivariable analysis of neuropsychological data revealed that only Stroop Interference (response inhibition) independently predicted preclinical pathology (OR = 0.13, 95% CI = 0.04–0.42). Lack of longitudinal and post-mortem data, older age, and small population size are limitations of this study.ConclusionsOur data suggest that clinical effects from early amyloid pathophysiology precede those from hippocampal intraneuronal neurofibrillary pathology. Altered cerebrospinal fluid beta amyloid42 with decreased executive performance before memory impairment matches the deposits of extracellular amyloid that appear in the basal isocortex first, and only later involve the hippocampus. We propose that Stroop Interference may be an additional important screen for early pathology and useful to monitor treatment of preclinical Alzheimer’s disease; measures of executive and memory functions in a longitudinal design will be necessary to more fully evaluate this approach.

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Efficacy, tolerability, and safety of eptinezumab in patients with a dual diagnosis of chronic migraine and medication‐overuse headache: Subgroup analysis of PROMISE‐2

Diener

Marmura

Tepper

et al. 2020

Headache

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The morphology and biochemistry of nanostructures provide evidence for synthesis and signaling functions in human cerebrospinal fluid

Harrington

Fonteh

Oborina

et al. 2009

Fluids Barriers CNS

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Cerebrospinal Fluid Sodium Increases in Migraine

Harrington¹,

Fonteh²,

Cowan³

et al. 2006

Headache

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Background.-Pharmaceuticals with calcium-or sodium-channel-blocking activity have proven useful for migraine prophylaxis, and calcium channel, sodium transporter, and sodium channel gene mutations have been found in familial hemiplegic migraine. However, it is not known whether calcium or sodium homeostasis is altered in migraine.Objective.-To compare levels of sodium, calcium, potassium, and magnesium in cerebrospinal fluid (CSF) and blood plasma between migraineurs and controls.Methods.-We recruited 20 migraineurs without aura and 11 controls prospectively, and studied migraineurs in sick (MH + ) and well (MH − ) states. We collected lumbar CSF and venous blood plasma, quantified elements with ion-selective electrodes or colorimetry, and determined osmolality by depression of freezing point. We compared levels of Na + , Ca 2+ , K + , and Mg among and also within subjects who were studied in both MH + and MH − states.Results.-Mean CSF Na + levels were increased by 3 mmol/L in MH + compared with MH − and by 4 mmol/L compared to controls (P < 0.005). In 4 subjects who were sampled in both MH + and MH − states, mean CSF Na + concentration increased by 2 mmol/L in the MH + state compared with the MH − state (P < 0.05). Simultaneous plasma Na + levels did not differ among the 3 clinical groups, nor did osmolality, total Ca and Ca 2+ , K + , and total Mg levels in CSF.Conclusions.-Compared to both controls and the MH − state, CSF Na + concentration increased in MH + independently from other clinical or pharmacological fluctuations, CSF concentrations of Ca 2+ , Mg, and K + , and blood plasma Na + levels. These results implicate a deviation of Na + homeostasis in migraine. The modestly elevated extracellular Na + in MH + may cause the neural changes that underlie clinical features of migraine.

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Robert P. Cowan

Migraine affects 1 in 10 people worldwide featuring recent rise: A systematic review and meta-analysis of community-based studies involving 6 million participants

Executive Function Changes before Memory in Preclinical Alzheimer’s Pathology: A Prospective, Cross-Sectional, Case Control Study

Efficacy, tolerability, and safety of eptinezumab in patients with a dual diagnosis of chronic migraine and medication‐overuse headache: Subgroup analysis of PROMISE‐2

The morphology and biochemistry of nanostructures provide evidence for synthesis and signaling functions in human cerebrospinal fluid

Cerebrospinal Fluid Sodium Increases in Migraine

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