1.Surgical Managements of Ischemic Stroke.
Yeungnam University Journal of Medicine 1994;11(2):202-212
No abstract available.
Stroke*
2.Surgical Complication and Its Management in Ischemic Stroke.
Dal Soo KIM ; Do Sung YOO ; Pil Woo HUH ; Kyoung Suok CHO ; Joon Ki KANG
Journal of Korean Neurosurgical Society 2000;29(8):1107-1112
No abstract available.
Stroke*
3.Intracranial Magnetic Resonance Angiography-Its Role in the Approach to Ischemic Stroke.
Dong Jun LIM ; Tae Hyoung CHO ; Yong Gu CHUNG ; Baek Hyun KIM ; Keun Hoe KIM ; Se Hoon KIM ; Taek Hyun KWON ; Heung Seob CHUNG ; Jung Yul PARK ; Youn Kwan PARK ; Hoon Kap LEE ; Ki Chan LEE ; Jung Keun SUH
Journal of Korean Neurosurgical Society 2000;29(8):1063-1068
No abstract available.
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4.Current update of therapeutic interventions for stroke rehabilitation.
Journal of the Korean Medical Association 2013;56(1):5-6
No abstract available.
Stroke
5.Validation of the Histogram Summation Technique for Measurement Error Minimization of Respiratory Air Flow Rate.
Kyung Ah KIM ; Young Kyu KANG ; Jae Hwan KANG ; Tae Soo LEE ; Eun Jong CHA
Journal of Korean Society of Medical Informatics 2000;6(4):143-151
The present study performed an experiment to validate the histogram summation technique developed for measurement error minimization of respiratory air flow rate2). Five sets of manual stroke operation data(MSO#1 5) of 1 [LI each were acquired at varying speeds. Selected sets of these data were used to estimate the conductance correction factors reflecting the resistance-flow character -istics. Then the correction factors were applied to different sets of the data to evaluate mean SD of the volume measurement error. When the resistance was linearly compensated without conductance correction, the relative error was 2.3% marginally within the ATS standard limit of 3%. With the histogram summation techinque applied, it has dramatically decreased down to within 1%. For a newly input flow data, the error was maintained within 1.5%. Therefore, the histogram summation techinque minimized the measurement error consistently and reproducibly. With increased number of strokes included in the correction factor estimation process, the error decreased at a rate of 0.5 [mL!S0strokesj. However, no more than 50 stroke data were necessary to keep the measurement error within 1.5%. This corresponded to only 25 MSO, thus the histogram summation technique has been demonstrated to be consistent, reproducible, and practical technique for measurement error minimization of respiratory air flow rate.
Stroke
6.Stroke System of Care: A Policy Statement from the Korean Stroke Society.
Soo Joo LEE ; Hee Kwon PARK ; Tae Hwan PARK ; Kyung Bok LEE ; Hee Joon BAE ; Joung Ho RHA ; Ji Hoe HEO ; Byung Chul LEE ; Chin Sang CHUNG
Journal of the Korean Neurological Association 2015;33(3):226-228
No abstract available.
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7.Interrater Reliabilities of Barthel Index, Canadian Neurologic Scale, NIH Stroke Scale, and Graded Neurologic Scale.
Seung Bong HONG ; Dae Won SEO ; Il Keon LEE ; Duk Lyul NA ; Byung Woo YOON ; Eae Kyu ROH ; Seung Hyun KIM
Journal of the Korean Neurological Association 1992;10(1):14-22
No abstract availalbe.
Stroke*
8.The Differences on Cystometric Finding According to the Characteristicsof Cerebrovascular Accident.
Ja Hyeon KU ; Joon Mo KIM ; Yun Seob SONG ; Min Eui KIM ; Nam Kyu LEE ; Young Ho PARK
Korean Journal of Urology 2000;41(3):402-407
No abstract available.
Stroke*
9.Stroke Prevention.
Journal of the Korean Medical Association 1998;41(12):1258-1268
No abstract available.
Stroke*
10.Rate of Stroke Mimics over Telestroke.
Dong In SINN ; Sami Al KASAB ; Chirantan BANERJEE ; Shelly OZARK
Journal of Stroke 2017;19(3):373-375
No abstract available.
Stroke*