Background: Stroke patients are known to be at risk of developing anxiety, depression, and post-traumatic stress disorder (PTSD).Objective: To determine the overlap between anxiety, depression, and PTSD in patients after stroke and to determine the association between these disorders and quality of life, functional status, healthcare utilization, and return to work.Methods: A cross-sectional telephone survey was conducted to assess for depression, anxiety, PTSD, and health-related outcomes 6–12 months after first ischemic stroke in patients without prior psychiatric disease at a single stroke center.Results: Of 352 eligible subjects, 55 (16%) completed surveys. Seven subjects (13%) met criteria for probable anxiety, 6 (11%) for PTSD, and 11 for depression (20%). Of the 13 subjects (24%) who met criteria for any of these disorders, 6 (46%) met criteria for more than one, and 5 (39%) met criteria for all three. There were no significant differences in baseline characteristics, including stroke severity or neurologic symptoms, between those with or without any of these disorders. Those who had any of these disorders were less likely to be independent in their activities of daily living (ADLs) (54 vs. 95%, p < 0.001) and reported significantly worse quality of life (score of 0–100, median score of 50 vs. 80, p < 0.001) compared to those with none of these disorders.Conclusions: Anxiety, depression, and PTSD are common after stroke, have a high degree of co-occurrence, and are associated with worse outcomes, including quality of life and functional status.
Intrathoracic pressure influences cardiac output and may affect cerebral blood flow (CBF). We aimed to quantify the cerebral hemodynamic response to intrathoracic pressure reduction in patients with acute ischemic stroke using a noninvasive respiratory impedance (RI) device. We assessed low-level (6 cm H 2 O) and high-level (12 cm H 2 O) RI in 17 spontaneously breathing patients within 72 h of anterior circulation acute ischemic stroke. Average age was 65 years, and 35% were female. Frontal lobe tissue perfusion and middle cerebral artery velocity (MCAv) were continuously monitored with optical diffuse correlation spectroscopy (DCS) and transcranial Doppler ultrasound, respectively. High-level RI resulted in a 7% increase in MCAv (p = 0.004). MCAv varied across all studied levels (baseline vs low-level vs high-level, p = 0.006), with a significant test of trend (p = 0.002). Changes were not seen in DCS measured tissue perfusion by nonparametric pairwise comparison. Mixed effects regression analysis identified a small increase in both MCAv (low-level RI: β 2.1, p < 0.001; high-level RI: β 5.0, p < 0.001) and tissue-level flow (low-level RI: β 5.4, p < 0.001; high-level RI: β 5.9, p < 0.001). There was a small increase in mean arterial pressure during low-level and high-level RI, 4% (p = 0.013) and 4% (p = 0.017), respectively. End-tidal CO 2 remained stable throughout the protocol. RI was well tolerated. Manipulating intrathoracic pressure via noninvasive RI was safe and produced a small but measurable increase in cerebral perfusion in acute ischemic stroke patients. Future studies are warranted to assess whether RI is feasible and tolerable for prolonged use in hyperacute stroke management.
Introduction: Poor medication adherence and insufficient stroke related knowledge may contribute to worse outcomes. Hypothesis: A relationship-based attending nurse (AN) model of inpatient care for stroke patients will enhance medication adherence, stroke-related knowledge, and QOL after hospital discharge. Methods: We performed a pseudo-randomized trial of AN + standard care vs. standard care at a single comprehensive stroke center (CSC). We enrolled patients with ischemic stroke, TIA, or ICH. The AN intervention consisted of a dedicated nurse focused on individual patient goals, expectations, and disease related knowledge deficits. After discharge, subjects were consented and assessed via structured telephone interviews using the Morisky Medication Adherence Scale (MMAS-4), Stroke Patient Education Retention tool (SPER), and Stroke Impact Scale (SIS). Results: We randomly allocated 278 subjects to AN and 392 to standard models of care; 47% and 43% consented to participate, respectively. Patients in the AN group tended to have more severe strokes and lower baseline health literacy on a single Health Read question (Table). Overall, no significant differences were observed in the MMAS-4, SPER, or SIS. However, among those with low baseline health literacy, medication adherence was nearly doubled in the AN group, but no significant effect was observed on other outcomes. Conclusion: Compared to standard nursing care alone, an attending nurse model did not improve medication adherence, stroke knowledge, or QOL in patients treated at a CSC. However, this intervention may hold promise and warrant further study in those with low baseline health literacy.
Introduction: Optimization of cerebral blood flow is a cornerstone of clinical management in a number of neurologic diseases, most notably acute ischemic stroke. Intra-thoracic pressure influences cardiac output and has the potential to impact cerebral blood flow (CBF). We aimed to quantify cerebral hemodynamic changes in acute ischemic stroke patients during increased respiratory impedance using a non-invasive oral device. Methods: Cerebral perfusion was measured during low (6cm H 2 0) and high (12cm H 2 0) levels of respiratory impedance in 20 patients within 72 hours of acute ischemic stroke. Microvascular CBF was measured by optical diffuse correlation spectroscopy, and middle cerebral artery mean flow velocity (MFV) was assessed by transcranial Doppler ultrasound. Results: High level respiratory impedance resulted in a 10% increase in MFV. Low level respiratory impedance resulted in a smaller (4%) non-significant change in MFV. Changes in cortical CBF were non-significant (figure). MFV varied across all studied levels (baseline vs low vs high, p=0.0017) with a significant test of trend (p=0.001), but this was not seen with microvascular CBF (p=0.33). Heart rate, cardiac output, and end tidal CO 2 remained stable during all levels of respiratory impedance. There was a small increase in mean arterial blood pressure at the low and high level of respiratory impedance, 4% (p=0.013) and 6% (p=0.017) respectively. All patients completed the protocol in its entirety, and the respiratory impedance exercise was well tolerated. Conclusions: Manipulating intrathoracic pressure via non-invasive respiratory impedance was safe and produced a small but measurable increase in cerebral blood flow in acute stroke patients. Future studies are warranted to assess whether respiratory impedance is feasible during hyperacute stroke management, and to determine the effect of volume status on the hemodynamic response to respiratory impedance.
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