Accelerated development of cerebral small vessel disease in young stroke patients.

OBJECTIVE: To study the long-term prevalence of small vessel disease after young stroke and to compare this to healthy controls. METHODS: This prospective cohort study comprises 337 patients with an ischemic stroke or TIA, aged 18-50 years, without a history of TIA or stroke. In addition, 90 age- and sex-matched controls were included. At follow-up, lacunes, microbleeds, and white matter hyperintensity (WMH) volume were assessed using MRI. To investigate the relation between risk factors and small vessel disease, logistic and linear regression were used. RESULTS: After mean follow-up of 9.9 (SD 8.1) years, 337 patients were included (227 with an ischemic stroke and 110 with a TIA). Mean age of patients was 49.8 years (SD 10.3) and 45.4% were men; for controls, mean age was 49.4 years (SD 11.9) and 45.6% were men. Compared with controls, patients more often had at least 1 lacune (24.0% vs 4.5%, p < 0.0001). In addition, they had a higher WMH volume (median 1.5 mL [interquartile range (IQR) 0.5-3.7] vs 0.4 mL [IQR 0.0-1.0], p < 0.001). Compared with controls, patients had the same volume WMHs on average 10-20 years earlier. In the patient group, age at stroke (β = 0.03, 95% confidence interval [CI] 0.02-0.04) hypertension (β = 0.22, 95% CI 0.04-0.39), and smoking (β = 0.18, 95% CI 0.01-0.34) at baseline were associated with WMH volume. CONCLUSIONS: Patients with a young stroke have a higher burden of small vessel disease than controls adjusted for confounders. Cerebral aging seems accelerated by 10-20 years in these patients, which may suggest an increased vulnerability to vascular risk factors.This is the final version of the article. It first appeared from Wolters Kluwer via https://doi.org/10.​1212/​WNL.​0000000000003123

Lower Ipsilateral Hippocampal Integrity after Ischemic Stroke in Young Adults: A Long-Term Follow-Up Study.

BACKGROUND AND PURPOSE: Memory impairment after stroke is poorly understood as stroke rarely occurs in the hippocampus. Previous studies have observed smaller ipsilateral hippocampal volumes after stroke compared with controls. Possibly, these findings on macroscopic level are not the first occurrence of structural damage and are preceded by microscopic changes that may already be associated with a worse memory function. We therefore examined the relationship between hippocampal integrity, volume, and memory performance long after first-ever ischemic stroke in young adults. METHODS: We included all consecutive first-ever ischemic stroke patients, without hippocampal strokes or recurrent stroke/TIA, aged 18-50 years, admitted to our academic hospital between 1980 and 2010. One hundred and forty-six patients underwent T1 MPRAGE, DTI scanning and completed the Rey Auditory Verbal Learning Test and were compared with 84 stroke-free controls. After manual correction of hippocampal automatic segmentation, we calculated mean hippocampal fractional anisotropy (FA) and diffusivity (MD). RESULTS: On average 10 years after ischemic stroke, lesion volume was associated with lower ipsilateral hippocampal integrity (p0.05). CONCLUSIONS: Patients with average ipsilateral hippocampal volume could already have lower ipsilateral hippocampal integrity, although at present with no attendant worse memory performance compared with patients with high hippocampal integrity. Longitudinal studies are needed to investigate whether a low hippocampal integrity after stroke might lead to exacerbated memory decline with increasing age.This study was funded by the Dutch Epilepsy Fund (grant 10–18)

Ischemic neuropathy and rhabdomyolysis as presenting symptoms of postpartum cardiomyopathy.

Contains fulltext : 80055.pdf (publisher's version ) (Closed access)Rhabdomyolysis and peripheral neuropathy are two distinct disease entities which are rarely encountered in combination. We present a woman with rhabdomyolysis and peripheral neuropathy 3 weeks postpartum. Her symptoms were caused by bilateral femoral artery thrombosis due to postpartum cardiomyopathy (PPCM). This demonstrates that PPCM may present with predominantly non-cardial symptoms and underscores the importance of rapidly recognizing this disorder

Comparisons between hemispheric stroke patients with normal ipsilateral hippocampal volume and high versus low ipsilateral hippocampal MD.

<p>Data are presented as number or adjusted mean (±SEM).</p><p>^aComparison between left-hemispheric stroke patients with low left hippocampal MD versus high left hippocampal MD.</p><p>^bComparison between right-hemispheric stroke patients with low right hippocampal MD versus high right hippocampal MD. For the analyses on hippocampal volume we adjusted for age, sex, and follow-up duration. For the analyses on ipsilateral hippocampal MD we additionally adjusted for ipsilateral hippocampal volume. For the analyses on immediate and delayed verbal recall we adjusted for age, sex, education, follow-up duration, and ipsilateral hippocampal volume.</p><p>MD = Mean Diffusivity.</p><p>Comparisons between hemispheric stroke patients with normal ipsilateral hippocampal volume and high versus low ipsilateral hippocampal MD.</p

Lesion probability maps in patients with left-hemispheric stroke, right-hemispheric stroke, and infratentorial stroke.

<p>The color overlay created on top of the Montreal Neurologic Institute (MNI) standard brain template shows the probability of each voxel containing a lesion in each patient group. The color bar denotes the probability range.</p

Demographic and clinical characteristics of ischemic stroke patients and controls.

<p>Data are expressed as mean (SD), number (%), or median (Q1–Q3).</p><p>NIHSS = National Institutes of Health Stroke Scale</p><p>mRS = modified Rankin Scale.</p><p>HADS = Hospital Anxiety and Depression Scale</p><p>CIS-20R = Checklist Individual Strength.</p><p>TOAST = Trial of Org 10172 in Acute Stroke Treatment.</p><p>Missing data in patients: education = 0.7%, NIHSS at admission = 1.4%</p><p>HADS-depressive symptoms = 0.7%, CIS-20R = 0.7%.</p><p>^aStroke could be located in more than one region in a patient.</p><p>^bGroup comparisons between the three groups of patients (left/right/infratentorial stroke).</p><p>Demographic and clinical characteristics of ischemic stroke patients and controls.</p

Post-stroke epilepsy in young adults: a long-term follow-up study

Contains fulltext : 117449.pdf (publisher's version ) (Open Access)BACKGROUND: Little is known about the incidence and risk of seizures after stroke in young adults. Especially in the young seizures might dramatically influence prognosis and quality of life. We therefore investigated the long-term incidence and risk of post-stroke epilepsy in young adults with a transient ischemic attack (TIA), ischemic stroke (IS) or intracerebral hemorrhage (ICH). METHODS AND FINDINGS: We performed a prospective cohort study among 697 consecutive patients with a first-ever TIA, IS or ICH, aged 18-50 years, admitted to our hospital between 1-1-1980 till 1-11-2010. The occurrence of epilepsy was assessed by standardized questionnaires and verified by a neurologist. Cumulative risks were estimated with Kaplan-Meier analysis. Cox proportional hazard models were used to calculate relative risks. After mean follow-up of 9.1 years (SD 8.2), 79 (11.3%) patients developed post-stroke epilepsy and 39 patients (5.6%) developed epilepsy with recurrent seizures. Patients with an initial late seizure more often developed recurrent seizures than patients with an initial early seizure. Cumulative risk of epilepsy was 31%, 16% and 5% for patients with an ICH, IS and TIA respectively (Logrank test ICH and IS versus TIA p<0.001). Cumulative risk of epilepsy with recurrent seizures was 23%, 8% and 4% respectively (Logrank ICH versus IS p = 0.05, ICH versus TIA p<0.001, IS versus TIA p = 0.01). In addition a high NIHSS was a significant predictor of both epilepsy and epilepsy with recurrent seizures (HR 1.07, 95% CI 1.03-1.11 and 1.08, 95% CI 1.02-1.14). CONCLUSIONS: Post-stroke epilepsy is much more common than previously thought. Especially patients with an ICH and a high NIHSS are at high risk. This calls upon the question whether a subgroup could be identified which benefits from the use of prophylactic antiepileptic medication. Future studies should be executed to investigate risk factors and the effect of post-stroke epilepsy on quality of life