Browsing by Author "Otomo, Yasuhiro"

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    Abnormal Cardiac Repolarization After Seizure Episodes in Structural Brain Diseases: Cardiac Manifestation of Electrical Remodeling in the Brain?
    (American Heart Association, 2021-05-04) Mori, Shusuke; Hori, Atsushi; Turker, Isik; Inaji, Motoki; Bello-Pardo, Erika; Miida, Takashi; Otomo, Yasuhiro; Ai, Tomohiko; Medicine, School of Medicine
    Background: Abnormal cardiac repolarization is observed in patients with epilepsy and can be associated with sudden death. We investigated whether structural brain abnormalities are correlated with abnormal cardiac repolarizations in patients with seizure or epilepsy. Methods and Results: We retrospectively analyzed and compared 12-lead ECG parameters following seizures between patients with and without structural brain abnormalities. A total of 96 patients were included: 33 women (17 with and 16 without brain abnormality) and 63 men (44 with and 19 without brain abnormality). Brain abnormalities included past stroke, chronic hematoma, remote bleeding, tumor, trauma, and postsurgical state. ECG parameters were comparable for heart rate, PR interval, and QRS duration between groups. In contrast, corrected QT intervals evaluated by Fridericia, Framingham, and Bazett formulas were prolonged in patients with brain abnormality compared with those without (women: Fridericia [normal versus abnormal], 397.4±32.7 versus 470.9±48.9; P=0.002; Framingham, 351.0±40.1 versus 406.2±46.1; P=0.002; Bazett, 423.8±38.3 versus 507.7±56.6; P<0.0001; men: Fridericia, 403.8±30.4 versus 471.0±47.1; P<0.0001; Framingham, 342.7±36.4 versus 409.4±45.8; P<0.0001; Bazett, 439.3±38.6 versus 506.2±56.8; P<0.0001). QT dispersion and Tpeak-Tend intervals were comparable between groups. We also observed abnormal ST-segment elevation in 5 patients. Importantly, no patients showed fatal arrhythmias during or after seizures. Conclusions: Our study demonstrated that brain abnormalities can be associated with abnormal cardiac repolarization after seizures, which might be a manifestation of electrophysiological remodeling in the brain.
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    A Case of Fatal Stanford Type A Aortic Dissection Caused by a Traffic Accident with Low Energy Impact
    (Dove Press, 2020-10-14) Mori, Shusuke; Ai, Tomohiko; Morishita, Koji; Otomo, Yasuhiro; Medicine, School of Medicine
    A seemingly healthy 84-year-old female pedestrian was mildly bumped by a car, and she hit her left shoulder, flank, and lower legs when she fell down on a street. She was conscious and stable when transferred to an emergency room. She had no sign of any major injuries except minor lacerations on her legs. Repeated evaluations including chest X-ray, ECG, and focused assessment with sonography for trauma did not reveal any abnormal findings. While waiting for discharge, she started having mild chest discomfort. Unexpectedly, the third echocardiogram showed mild pericardial effusion, and a CT with contrast showed aortic dissection in the ascending aorta and infra-left subclavian aortic dissection. She was immediately transferred by a helicopter to a tertiary trauma center for emergent repair surgery. Considering the site of dissections, progression of existing intrinsic intimal tear triggered by energy impact was suspected. However, traumatic causes could not be excluded. Extra caution and diligence should be exercised when examining elderly patients in blunt trauma.