• 수면정신생리
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• 제4권1호
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• pp.1-14
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• 1997

This paper reviewed models to explain memory and neuropsychological tests to assess memory. Memory was explained in cognitive and neuroanatomical perspectives, Cognitive model describes memory as structure and process. In structure model, memory is divided into three systems: sensory memory, short-term memory(working memory), and long-term memory. In process model, there are broadly three categories of memory process: encoding, storage, and retrieval. Memory process work in memory structure. There are two prominent models of the neuroanatomy of memory, derived from the work of Mishkin and Appenzeller and that of Squire and Zola-Morgan. These two models are the most useful for the clinician in part because they take into account the connections between the limbic and frontal cortical regions. The major difference between the two models concerns the role of the amygdala in memory processess. Mishkin and his colleagues believe that the amygdala plays a significant role while Squire and his colleagues do not. The most popular and widely used tests of memory ability such as WMS-R, AVLT, CVLT, HVLT. RBMT, CFT, and BVRT-R, were reviewed.

• 혜화의학회지
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• 제5권2호
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• pp.445-448
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• 1997

The human anatomy is the fundamental subject which is required lots of time and efforts for medical students. But most of the oriental medical students think it little important field. And moreover they have no active attitudes in their courses. In order to improve the present situation, the results obtained from this study are as follows: 1. As a Law of Cadaver Conservation revised systemically, there's need to have enough cadavers for dissection. 2. The teaching method must be converted into the laboratory technique with the strengthening human anatomy. 3. With opening a neuroanatomy course in oriental medical curriculum, the quality of nervous system is expected to increase. 4. Under the current medical system, there's need to have discussion deeply about the histology course.

• 디지털융복합연구
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• 제13권6호
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• pp.225-234
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• 2015

신경생물학 접근법은 정신학에서의 심신 이원론 문제를 해결하고 새로운 진단과 치료법을 발달시키는 데 도움을 주었다. 하지만 신경정신장애의 복합성 때문에 신경생물학의 신경해부학 부분을 너무 강조하는 것은 문제가 될 수 있다. 예를 들어, 발달성 협응장애 (DCD)는 일반적으로 움직임과 관련된 장애이지만 종종 지각과도 긴밀한 관계가 있다. 뇌의 기능적 분류에 입각한 두 시각 이론은 대뇌의 복측은 물체의 재인을, 배측은 움직임, 위치와 관련되어 있다고 주장한다. 하지만 물체의 지각은 시각적으로 유도되는 행동과 밀접한 관련이 있다. 이 논문에서는 두 시각 이론을 설명하는 기본적인 연구들을 검토하고, 이 이론에 대한 비판을 제시한다. 특히, 발달성 협응장애와 같은 운동뿐만 아니라 지각과 관련이 있는 신경정신장애에 구조적인 신경생물학 접근법을 적용하는 것의 한계점을 제시한다. 결론적으로, 현대의 신경정신분야에 융복합적으로 사용되는 신경생물학 접근법은 유용하지만, 신경구조적 분류에 너무 집중하면 한계점이 나타날 수 있다.

• 수면정신생리
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• 제5권2호
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• pp.119-133
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• 1998

Attentional processes facilitate cognitive and behavioral performance in several ways. Attention serves to reduce the amount of information to receive. Attention enables humans to direct themselves to appropriate aspects of external environmental events and internal operations. Attention facilitates the selection of salient information and the allocation of cognitive processing appropriate to that information. Attention is not a unitary process that can be localized to a single neuroanatomical region. Before the cortical registration of sensory information, activation of important subcortical structures occurs, which is called as an orienting response. Once sensory information reaches the sensory cortex, a large number of perceptual processes occur, which provide various levels of perceptual resolution of the critical features of the stimuli. After this preattentional processing, information is integrated within higher cortical(heteromodal) systems in inferior parietal and temporal lobes. At this stage, the processing characteristics can be modified, and the biases of the system have a direct impact on attentional selection. Information flow has been traced through sensory analysis to a processing stage that enables the new information to be focused and modified in relation to preexisting biases. The limbic and paralimbic system play significant roles in modulating attentional response. It is labeled with affective salience and is integrated according to ongoing pressures from the motivational drive system of the hypothalamus. The salience of information greatly influences the allocation of attention. The frontal lobe operate response selection system with a reciprocal interaction with both the attention system of the parietal lobe and the limbic system. In this attentional process, the search with the spatial field is organized and a sequence of attentional responses is generated. Affective, motivational and appectitive impulses from limbic system and hypothalamus trigger response intention, preparation, planning, initiation and control of frontal lobe on this process. The reticular system, which produces ascending activation, catalyzes the overall system and increases attentional capacity. Also additional energetic pressures are created by the hypothalamus. As psychophysiological measurement, skin conductance, pupil diameter, muscle tension, heart rate, alpha wave of EEG can be used. Event related potentials also provide physiological evidence of attention during information process. NI component appears to be an electrophysiological index of selective attention. P3 response is developed during the attention related to stimulus discrimination, evaluation and response.

• 생물정신의학
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• 제15권4호
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• pp.254-264
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• 2008

Objectives : The neural substrate of fear is thought to be highly conserved among species including human. The purpose of this review was to address the neural substrates of fear based on recent findings obtained from animal and human studies. Methods : Recent studies on brain regions related to fear, particularly fear conditioning in rodents and humans, were extensively reviewed. Results : This paper suggests high consistency in anatomical structure and physiological mechanisms for fear perception, response, learning and modulation in animals and humans. Conclusions : Fear is manifested and modulated by well conserved neural circuits among species interconnected with the amygdala, such as the hippocampus and the ventromedial prefrontal cortex. Further research is required to incorporate findings from animal studies into a better understanding of neural circuitry of fear in human in a translational approach.

• 한국콘텐츠학회논문지
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• 제11권1호
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• pp.469-478
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• 2011

본 연구는 학습자의 학습양식이 혼합교육의 효과에 미치는 영향을 알아보고자 하였다. 2008년도와 2009년도에 혼합교육으로 진행된 신경해부학을 이수한 물리치료과 1학년생 102명의 자료를 대상으로 하였다. 혼합교육은 13주 동안 주당 3시간의 강의실 수업과 16강 24강좌로 구성된 온라인 수업으로 구성되었다. Kolb의 학습양식에 따라 분류한 결과 융합자가 가장 많았다. 학습양식에 따른 유의한 차이는 없었으나, 혼합교육을 가장 선호하고(학습자의 92.1%), 혼합교육에 의해 학습참여도(학습자의 55.5%)와 흥미도(학습자의 58.8%)가 향상되었으며, 혼합교육이 학습에 도움이 된 것으로(학습자의 85.1%) 나타났다. 강의만족도에 있어서는 학습양식에 따라 유의한 차이가 있었는데, 융합자의 만족도가 80.7%로 가장 높게 나타나 적응자의 만족도인 67.5%와 유의한 차이를 보였다.

• 대한핵의학회지
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• 제38권2호
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• pp.161-170
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• 2004

분자영상은 살아있는 개체의 몸 속에서 일어나는 생물학적 반응이나 특정한 표적분자를 비관혈적이며 반복적으로 영상화하는 기술이다. 이를 위해서는 두 가지 기본 요소가 요구되는 바 하나는 관심 생물현상에 의해 농도나 분광특성이 변하는 분자영상용 추적자이며 다른 하나는 이런 추적자를 모니터링하는 장비이다. 분자 핵의학 영상기술은 이제 신경과학분야에서도 활발히 적용되고 있으며 신경관련 기초연구나 뇌질환 관련 신약개발에 이미 중요한 역할을 하고 있다. 최근에는 살아있는 개체에서 약제 투여가 뇌에 미치는 약물학적, 생리적 영향을 조사하는 데에도 이용되고 있다. 다가오는 미래에는 각종 뇌질환에서 특이적 표적을 공략하는 새로운 분자치료가 개발되어 뇌질환 치료에 혁명적인 변화를 가져올 것으로 예상되고 있다. 그 예로, 파킨슨씨 병과 같은 퇴행성 신경질환에 줄기세포를 이용한 자가수선, 신경보호, 약물분비 치료, 성장인자와의 병행치료 등이 개발되고, 유전자 치료도 이용될 것으로 보인다. 신경 분자 핵의학 영상은 이와 같은 새로운 뇌질환 치료기술의 개발에 있어서 뇌 안에서 일어나는 분자수준의 변화를 실시간으로 모니터링함으로써 관련연구에 크게 기여할 것으로 기대된다.

• Journal of Korean Neurosurgical Society
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• 제60권2호
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• pp.165-173
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• 2017

Objective : To explore and analyze the influencing factors of facial nerve function retainment after microsurgery resection of acoustic neurinoma. Methods : Retrospective analysis of our hospital 105 acoustic neuroma cases from October, 2006 to January 2012, in the group all patients were treated with suboccipital sigmoid sinus approach to acoustic neuroma microsurgery resection. We adopted researching individual patient data, outpatient review and telephone followed up and the House-Brackmann grading system to evaluate and analyze the facial nerve function. Results : Among 105 patients in this study group, complete surgical resection rate was 80.9% (85/105), subtotal resection rate was 14.3% (15/105), and partial resection rate 4.8% (5/105). The rate of facial nerve retainment on neuroanatomy was 95.3% (100/105) and the mortality rate was 2.1% (2/105). Facial nerve function when the patient is discharged from the hospital, also known as immediate facial nerve function which was graded in House-Brackmann : excellent facial nerve function (House-Brackmann I-II level) cases accounted for 75.2% (79/105), facial nerve function III-IV level cases accounted for 22.9% (24/105), and V-VI cases accounted for 1.9% (2/105). Patients were followed up for more than one year, with excellent facial nerve function retention rate (H-B I-II level) was 74.4% (58/78). Conclusion : Acoustic neuroma patients after surgery, the long-term (${\geq}1year$) facial nerve function excellent retaining rate was closely related with surgical proficiency, post-operative immediate facial nerve function, diameter of tumor and whether to use electrophysiological monitoring techniques; while there was no significant correlation with the patient's age, surgical approach, whether to stripping the internal auditory canal, whether there was cystic degeneration, tumor recurrence, whether to merge with obstructive hydrocephalus and the length of the duration of symptoms.

• 한국한의학연구원논문집
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• 제2권1호
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• pp.514-550
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• 1996

There are many theory in acupuncture mechanism, so we must know the detail contents. and then we can use the acupuncture as we know. the follow article will be helpful in this part. 1. Spinal cord are role in intermediate part in somatosensorypathway also in acupuncture stumulating tract 2. Acute pain pathway started in laminae I, V of gray colmn, next are the spinothalamic tract(trigeminal spinothalamic tract in above neck part) and then go to the specific thalamic nucleus. but chronic pain in laminae II, III, VI, VII, next are spinoreticular tract(trigeminal spinoreticular tract in the neck part) and finally to the nonspecific thalamic nucleus. 3. Thalamus is very important area in somatosensory stimuation including acupuncture stumulating sensory also as a pain control center. but except this, there are Hypothalamus, Limbic system Cerebral cortex and Cerebellum as intermediator. as we Know hypothalamus is related to the emotional analgesic system with a limbic system. 4. A ${\delta$ fiber has relationship in Acute, sharp and initial pain, contrary this C fiber is related with Chronic, dull and last pain. 5. In Acupuncture mechanism of pain analgesia, there are two theory, one is gate control theory as large fiber another is stimuation produced analgesia as small diameter fier. 6. In DNIC, the stimulation sources are mechanical, thermal, heating, pain and acupuncture stimulation etc. we call these as a Heterotopic Noxious Stimulation. 7. In DNIC, SRD(Subnucleus reticularis dorsalis)is core nucleus in pain imtermediated analgesic mechanism. 8. Takeshige insisted nonacupuncture point dependent analgesic mechanism and acupuncture point dependent analgesic mechanism. and protested that Stimulation acupuncture piing evoke blocking nomacupuncture point analgesic pathway.

• The Korean Journal of Pain
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• 제35권3호
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• pp.250-260
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• 2022

Background: Cranial nerve ganglia, which are prone to viral infections and tumors, are located deep in the head, so their detailed anatomy is difficult to understand using conventional cadaver dissection. For locating the small ganglia in medical images, their sectional anatomy should be learned by medical students and doctors. The purpose of this study is to elucidate cranial ganglia anatomy using sectioned images and three-dimensional (3D) models of a cadaver. Methods: One thousand two hundred and forty-six sectioned images of a male cadaver were examined to identify the cranial nerve ganglia. Using the real color sectioned images, real color volume model having a voxel size of 0.4 × 0.4 × 0.4 mm was produced. Results: The sectioned images and 3D models can be downloaded for free from a webpage, anatomy.dongguk.ac.kr/ganglia. On the images and model, all the cranial nerve ganglia and their whole course were identified. In case of the facial nerve, the geniculate, pterygopalatine, and submandibular ganglia were clearly identified. In case of the glossopharyngeal nerve, the superior, inferior, and otic ganglia were found. Thanks to the high resolution and real color of the sectioned images and volume models, detailed observation of the ganglia was possible. Since the volume models can be cut both in orthogonal planes and oblique planes, advanced sectional anatomy of the ganglia can be explained concretely. Conclusions: The sectioned images and 3D models will be helpful resources for understanding cranial nerve ganglia anatomy, for performing related surgical procedures.