1.Controversy in Diagnosis and Treatment of Vasovagal Syncope.
Korean Circulation Journal 1997;27(2):159-163
No abstract available.
Diagnosis*
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Syncope, Vasovagal*
2.Pediatric syncope: where are we now?
Chinese Medical Journal 2014;127(21):3681-3683
3.An Ependymal Cyst in Cerebello-Pontine Angle Presenting with Syncope.
Byoung Joo PARK ; Young Il KIM ; Sin Soo JEUN ; Youn Soo LEE
Brain Tumor Research and Treatment 2013;1(2):121-123
Intracranial ependymal cysts are rare, congenital, benign lesions. These commonly occur in the supratentorial regions and usually generate no symptoms. The cerebellopontine angle (CPA) is an extremely rare site for ependymal cysts. Furthermore, there are no previous reports of CPA ependymal cysts related to syncope. We report a case of ependymal cyst in the left CPA with syncope. The patient underwent a cardiologic evaluation for syncope after admission, but there were no definite cardiologic abnormal findings. He underwent fenestration into the subarachnoid space, and the pathologic diagnosis revealed an ependymal cyst. We analyzed this case with review of other literatures.
Cerebellopontine Angle
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Diagnosis
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Humans
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Subarachnoid Space
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Syncope*
4.Improve the skills of managing syncope in children.
Chinese Journal of Pediatrics 2007;45(12):881-884
6.Comparison of Isoproterenol Infusion and Nitrate Spray during Provocative Head-Up Tilt Test.
Bora YANG ; Hyung Wook PARK ; Ju Han KIM ; Weon KIM ; Young Keun AHN ; Myung Ho JEONG ; Jeong Gwan CHO ; Jong Chun PARK ; Jung Chaee KANG
Korean Circulation Journal 2005;35(9):690-695
BACKGROUND AND OBJECTIVES: The head-up tilt test (HUT) is widely used for the diagnosis of vasovagal syncope. To improve the sensitivity of the test, provocation with isoproterenol is frequently used. The aim of this study was to evaluate the values of isosorbide dinitrate spray as a provocation drug in the HUT. SUBJECTS AND METHODS: Two hundred patients, undergoing baseline HUT (60 degrees for 20 minutes) for suspected vasovagal syncope or presyncope and unexplained dizziness, were enrolled. If the baseline HUT was negative, isosorbide dinitrate (2.5 mg) spray was applied sublingually (group I, n=93), or isoproterenol (3 microgram/min) infused (group II, n=93), in a randomized fashion. The values of isosorbide dinitrate and isoproterenol were compared in those patients that developed a positive vasovagal response or who completed the drug-provocative HUT. RESULTS: Syncope was similarly reproduced in both groups (47.7 vs. 41.9%, p>0.05). Type I responses were most common in both groups, and types I and II responses were more common in group I than group II (78.0 vs. 55.6% and 12.2 vs. 5.6%, p<0.05, respectively). The average time to a positive response was longer in group I than group II (8.5+/-3.4 vs. 6.1+/-3.6 minutes, p<0.01). The sensitivity and specificity of the drug-provocative HUT were significantly higher in group I than group II (73.5 and 87.5% vs. 58.5 and 71.1%; respectively, p<0.01). The incidence of minor adverse effects were similar in both groups, but serious cardiac side effects were significantly more common in group II than group I (4.3 vs. 0%, p<0.05). CONCLUSION: Sublingual isosorbide dinitrate spray may be used as a simple, effective and well tolerated provocative drug during HUT.
Diagnosis
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Dizziness
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Humans
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Incidence
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Isoproterenol*
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Isosorbide Dinitrate
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Sensitivity and Specificity
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Syncope
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Syncope, Vasovagal
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Tilt-Table Test
7.Predictive value of blood cell parameters in the diagnosis of vasovagal syncope in children.
Juan ZHANG ; Hao Neng TANG ; Yu Wen WANG ; Fang LI ; Hong CAI ; Ping LIN ; Run Mei ZOU ; Cheng WANG
Chinese Journal of Pediatrics 2022;60(8):792-797
Objective: To investigate the predictive value of blood cell parameters in children with vasovagal syncope (VVS). Methods: In this case-control study, the VVS group included 111 patients with unexplained syncope or prodromata who were diagnosed with VVS by head-up tilt test in the Second Xiangya Hospital, Central South University from January 2018 to October 2020, and 111 healthy children were enrolled as control. The differences in blood cell parameters between the 2 groups were compared by t test and Mann-Whitney U test. Multivariate binary Logistic regression was used to analyze the independent correlation factors of VVS, and receiver operating characteristic (ROC) curve to explore the predictive value of blood cell parameters for diagnosing VVS. Results: Sex composition ratios were consistent in the 2 groups (51 males vs. 60 females), while the age of the VVS group was higher than that of the control group (11.0 (8.0, 12.5) vs. 8.0 (7.0, 11.0) years, Z=4.39, P<0.001). Compared with the control group, VVS group had lower level of white blood cell (WBC) (6.0 (5.3, 7.1)×109 vs. 8.6 (6.7, 10.1)×109/L, Z=-7.96, P<0.001), lymphocyte (LY) (2.3 (1.9, 2.7)×109 vs. 4.0 (2.8, 6.3)×109/L, Z=-8.49, P<0.001), lymphocyte ratio (0.39 (0.33, 0.44) vs. 0.52 (0.37, 0.69), Z=-5.59, P<0.001), monocyte (0.3 (0.3, 0.4)×109 vs. 0.4 (0.3, 0.6)×109/L, Z=-6.19, P<0.001), eosinophil (0.1 (0.1, 0.2)×109 vs. 0.2 (0.2, 0.4)×109/L, Z=-5.75, P<0.001), mean corpuscular-hemoglobin concentration (MCHC) ((328±12) vs. (333±11) g/L, t=-3.27, P<0.001) and blood platelet (263 (235, 313)×109 vs. 341 (295, 409)×109/L, Z=-2.69, P<0.001), but higher neutrophil ratio (0.53 (0.48, 0.58) vs. 0.37 (0.22, 0.54), Z=5.86, P<0.001), hematocrit (0.39±0.04 vs. 0.37±0.04, t=2.75, P=0.006), mean corpuscular volume (MCV) (85 (82, 88) vs. 81 (78, 84) fl, Z=5.56, P<0.001), mean corpuscular hemoglobin (28 (27, 29) vs. 27 (26, 28) pg, Z=3.39, P=0.001), red cell distribution width (39 (37, 41) vs. 37 (36, 40) fl, Z=4.02, P<0.001) and mean platelet volume (11 (10, 11) vs. 10 (9, 11) fl, Z=2.81, P=0.005) levels. After adjusting for confounding factors such as sex and age, LY (OR=0.42, 95%CI 0.29-0.62, P<0.001), WBC (OR=0.75, 95%CI 0.59-0.95, P=0.015), MCHC (OR=0.94, 95%CI 0.91-0.97, P<0.001) were independent negative correlation factors of VVS, while MCV (OR=1.08, 95%CI 1.01-1.15, P=0.021) was independent positive correlation factor. ROC curve showed that the combination of LY, WBC, MCV and MCHC had acceptable predictive value for the diagnosis of VVS, with area under curve of 0.88, sensitivity of 0.80, specificity of 0.83, and Youden index of 0.63. Conclusions: Compared with healthy children, the blood cell parameters usually change in those with VVS. Combination of LY, WBC, MCHC and MCV can facilitate the diagnosis of VVS in children with unexplained syncope or prodromata.
Case-Control Studies
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Child
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Female
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Humans
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Lymphocytes
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Male
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Syncope
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Syncope, Vasovagal/diagnosis*
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Tilt-Table Test
8.The Mega Cisterna Magna: Report of 4 Cases.
Young Gil LEE ; Sang Kyun CHANG ; Choon Woong HUH ; Jin Un SONG
Journal of Korean Neurosurgical Society 1981;10(2):651-658
The size of the cisterna magna is still detatable. Robertson13) stated that the cisterna magna varies greatly in capacity and described the large cisterna magna as a separate entity. He also found that in most cases the cisterna magna extended approximately 2.5cm above the foramen magnum and was usually 5mm deep with a variable width. Liliequist8) proposed a mean heigh of 28mm for the normal cisterna magna with a wide variation of 15 to 60mm, and a depth of 6mm at the foramen magnum with a variation of 2 to 10mm:however, he did not quote measurements for the width. Gonsette, et al.5) reported 28 cases of enlarged cisterna magna diagnosed by ventriculography and coined the phrase "mega grande citerne" or mega cisterna magna. All of these cases, however, had symptoms of posterior fossa disease. Our study of the syndrome of the mega cisterna magna without specific syndrome is presented nystagmus, transient syncope in the first & third cases were operated under suboccipital craniectomy and was confimed the large cisterna magna. This paper presents the clinical diagnosis with vertebral angiogrraphy, pneumoencephalography and computed tomography.
Cisterna Magna*
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Diagnosis
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Foramen Magnum
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Numismatics
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Pneumoencephalography
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Syncope
9.Hyperventilation Induced Syncope: Differential Feature of Head-up Tilt Table Test with Transcranial Doppler in Patient with Hyperventilation Syndrome from True Syncope.
Byung Sung LEE ; Soek Kyung KWON ; Sang Rae LEE ; Jong Wan PARK ; Jang Joon LEE
Journal of the Korean Neurological Association 2014;32(4):310-313
The causes of a transient loss of consciousness (TLOC) are divided into syncope, epileptic seizures, cerebrovascular diseases and functional disorders such as hyperventilation (HV) syndrome, psychogenic pseudosyncope. The differential diagnosis of TLOC is may be difficult due to lack of history, misleading features, or confusion over the definition of syncope. We have experienced a rare case of HV syncope that TLOC developed after HV from mental stress, and differentiated by head-up tilt table test with transcranial doppler.
Diagnosis, Differential
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Epilepsy
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Humans
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Hyperventilation*
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Syncope*
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Tilt-Table Test*
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Unconsciousness
10.Summary of the 3(rd) National Conference of Pediatric Syncope.
Chinese Journal of Pediatrics 2012;50(5):400-400
Child
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China
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Congresses as Topic
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Humans
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Pediatrics
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Syncope
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diagnosis
;
etiology
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therapy