• BMB Reports
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• 제55권1호
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• pp.20-29
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• 2022

Stem cell-based therapy is a promising approach for treating a variety of disorders, including acute brain insults and neurodegenerative diseases. Stem cells such as mesenchymal stem cells (MSCs) secrete extracellular vesicles (EVs), circular membrane fragments (30 nm-1 ㎛) that are shed from the cell surface, carrying several therapeutic molecules such as proteins and microRNAs. Because EV-based therapy is superior to cell therapy in terms of scalable production, biodistribution, and safety profiles, it can be used to treat brain diseases as an alternative to stem cell therapy. This review presents evidences evaluating the role of stem cell-derived EVs in stroke, traumatic brain injury, and degenerative brain diseases, such as Alzheimer's disease and Parkinson' disease. In addition, stem cell-derived EVs have better profiles in biocompatibility, immunogenicity, and safety than those of small chemical and macromolecules. The advantages and disadvantages of EVs compared with other strategies are discussed. Even though EVs obtained from native stem cells have potential in the treatment of brain diseases, the successful clinical application is limited by the short half-life, limited targeting, rapid clearance after application, and insufficient payload. We discuss the strategies to enhance the efficacy of EV therapeutics. Finally, EV therapies have yet to be approved by the regulatory authorities. Major issues are discussed together with relevant advances in the clinical application of EV therapeutics.

• Molecules and Cells
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• 제39권9호
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• pp.645-653
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• 2016

Morphine is the most potent analgesic for chronic pain, but its clinical use has been limited by the opiate's innate tendency to produce tolerance, severe withdrawal symptoms and rewarding properties with a high risk of relapse. To understand the addictive properties of morphine, past studies have focused on relevant molecular and cellular changes in the brain, highlighting the functional roles of reward-related brain regions. Given the accumulated findings, a recent, emerging trend in morphine research is that of examining the dynamics of neuronal interactions in brain reward circuits under the influence of morphine action. In this review, we highlight recent findings on the roles of several reward circuits involved in morphine addiction based on pharmacological, molecular and physiological evidences.

• 로봇학회논문지
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• 제1권2호
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• pp.163-171
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• 2006

This paper introduces the research progress on the artificial brain in the Telerobotics and Control Laboratory at KAIST. This series of studies is based on the assumption that it will be possible to develop an artificial intelligence by copying the mechanisms of the animal brain. Two important brain mechanisms are considered: spike-timing dependent plasticity and dopaminergic plasticity. Each mechanism is implemented in two coding paradigms: spike-codes and rate-codes. Spike-timing dependent plasticity is essential for self-organization in the brain. Dopamine neurons deliver reward signals and modify the synaptic efficacies in order to maximize the predicted reward. This paper addresses how artificial intelligence can emerge by the synergy between self-organization and reinforcement learning. For implementation issues, the rate codes of the brain mechanisms are developed to calculate the neuron dynamics efficiently.

• 한국산학기술학회논문지
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• 제10권9호
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• pp.2535-2544
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• 2009

뇌파연구는 비교적 안전하게 뇌상태에 관한 다양한 정보를 제공한다. 상담자나 피검자는 뇌파의 측정, 분석, 관리 등 일련의 과정에 대해 편리하게 사용자 TCO를 절감할 수 있어야 하고, 원하는 정보에 실시간 접근이 가능해야 한다. 기존 환경이 전문가의 판단에 따른 수작업 형태였다면, 본 논문이 제안한 시스템은 3-Tier 클라이언트/서버 IT기 술 및 BQT를 포함하는 뇌파기술을 융합하고 최적화시킨 스마트 뇌파케어시스템이다. 이 시스템은 편리한 웹 인터페이스를 통해 전 과정을 완전히 자동화하여 실시간서비스를 실현하였다. 본 연구로 개발된 이 시스템은 현재, 필드에서 서비스를 진행하고 있으며, DB에 수집된 자료는 연구자들에게 임상연구의 용도로 제공되고 있다.

• 대한의용생체공학회:의공학회지
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• 제27권6호
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• pp.384-391
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• 2006

Variation of brain dynamics under Zen meditation has been one of our major research interests for years. One issue encountered is the inaccessibility to the actual meditation level or stage as a reference. In this paper, we propose an alternative strategy for investigating the human brain in response to external flash stimuli during Zen meditation course. To secure a consistent condition of the brain dynamics when applying stimulation, we designed a recording of flash visual evoked potentials (F-VEPs) based on a constant background EEG (electroencephalograph) frontal $\alpha-rhythm$ dominating activities that increase significantly during Zen meditation. Thus the flash-light stimulus was to be applied upon emergence of the frontal $\alpha-rhythm$. The alpha-dependent F-VEPs were then employed to inspect the effect of Zen meditation on brain dynamics. Based on the experimental protocol proposed, considerable differences between experimental and control groups were obtained. Our results showed that amplitudes of P1-N2 and N2-P2 on Cz and Fz increased significantly during meditation, contrary to the F-VEPs of control group at rest. We thus suggest that Zen meditation results in acute response on primary visual cortex and the associated parts.

• 전자공학회논문지SC
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• 제48권2호
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• pp.71-79
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• 2011

최근 고령 인구의 증가와 뇌질환의 발생 연령 감소 등을 볼 때에 기존의 물리적인 재활 치료와 더불어 사회로의 건강한 복귀를 돕기 위한 보다 총체적인 방법이 절실히 요구된다. 본 연구에서는 후유 장애 극복 과정에서 가장 중요한 성취감, 자발적인 의지 형성 등의 동기 부여를 위한 방법으로서 웹 기반 상호 작용형 애플리케이션 및 시스템을 제안하고 이의 프로토타입을 개발하였다. 웹 환경에서의 접근성 향상과 역동적인 상호 작용을 위하여 웹 2.0 환경에서 사용가능한 개발 언어와 저작도구들을 이용하여 개발을 진행하였다. 개발된 프로토타입 시스템은 사용자 측에서 별도의 전용 프로그램 설치 없이 웹 브라우저 기반으로 손쉽게 이용이 가능하며, 다양한 형태의 상호 작용형 컨텐츠가 접목될 수 있는 개방적인 기반을 제공하고 있다. 향후 재활 및 고령자 케어를 위한 전문 애플리케이션 개발을 통해 통합적 치료의 도구로서 체계화될 계획이다.

• Molecules and Cells
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• 제47권1호
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• pp.100005.1-100005.15
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• 2024

Amyotrophic lateral sclerosis is a devastating neurodegenerative disease with a complex genetic basis, presenting both in familial and sporadic forms. The hexanucleotide (G₄C₂) repeat expansion in the C9orf72 gene, which triggers distinct pathogenic mechanisms, has been identified as a major contributor to familial and sporadic Amyotrophic lateral sclerosis cases. Animal models have proven pivotal in understanding these mechanisms; however, discrepancies between models due to variable transgene sequence, expression levels, and toxicity profiles complicate the translation of findings. Herein, we provide a systematic comparison of 7 publicly available Drosophila transgenes modeling the G₄C₂ expansion under uniform conditions, evaluating variations in their toxicity profiles. Further, we tested 3 previously characterized disease-modifying drugs in selected lines to uncover discrepancies among the tested strains. Our study not only deepens our understanding of the C9orf72 G₄C₂ mutations but also presents a framework for comparing constructs with minute structural differences. This work may be used to inform experimental designs to better model disease mechanisms and help guide the development of targeted interventions for neurodegenerative diseases, thus bridging the gap between model-based research and therapeutic application.

• Advances in biomechanics and applications
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• 제1권4호
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• pp.253-267
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• 2014

The human head is identified as the body region most frequently involved in life-threatening injuries. Extensive research based on experimental, analytical and numerical methods has sought to quantify the response of the human head to blunt impact in an attempt to explain the likely injury process. Blunt head impact arising from vehicular collisions, sporting injuries, and falls leads to relative motion between the brain and skull and an increase in contact and shear stresses in the meningeal region, thereby leading to traumatic brain injuries. In this paper the properties and material modeling of the subarachnoid space (SAS) as it relates to Traumatic Brain Injuries (TBI) is investigated. This was accomplished using a simplified local model and a validated 3D finite element model. First the material modeling of the trabeculae in the Subarachnoid Space (SAS) was investigated and validated, then the validated material property was used in a 3D head model. In addition, the strain in the brain due to an impact was investigated. From this work it was determined that the material property of the SAS is approximately E = 1150 Pa and that the strain in the brain, and thus the severity of TBI, is proportional to the applied impact velocity and is approximately a quadratic function. This study reveals that the choice of material behavior and properties of the SAS are significant factors in determining the strain in the brain and therefore the understanding of different types of head/brain injuries.

• 임상간호연구
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• 제22권3호
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• pp.265-275
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• 2016

Purpose: The purpose of this study was to develop an evidence-based guideline for fever management for critically ill adult patients after a brain injury. Methods: Development of the guideline process was done according to the De Novo development Korean Medical Guideline Information Center (KoMGI) and consists of 12 steps. Results: This developed guideline included 3 domains and 19 recommendations. The number of recommendations for each domain was 7 on measuring temperature, 9 on managing fever, and 3 on managing shivering. The level of evidence was as follows: 58% were at level I, and 42% at level II. Of the recommendations, 58% were graded as A, 37% as B, and 5% as C. Conclusion: These findings indicate that this guideline can be used as a guide for nursing in critically ill adult patients with brain injury. This guideline can also contribute to improvements in the quality of nursing care for critically ill adult patients with brain injury.

• Journal of the Korean Data and Information Science Society
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• 제20권3호
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• pp.541-550
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• 2009

본 연구는 영어학습 영역별 (듣기쓰기능력, 단어수준, 스피킹, 단어기억, 리스닝) 성취도에 따른 대뇌피질 내의 뇌기능 활성화에 대한 관련성을 규명한 것이다. 좌뇌 기반으로 알려진 영어학습에 대한 우뇌적 요인에 대한 연구들이 진행되었다. 뇌기능 영상화 중에서 정량뇌파분석를 사용하여 영어학습에 관여하는 뇌 영역별 정량뇌파 결과를 분석함으로써 영어학습을 뇌 영역별 활성화로 변별할 수 있는 기준을 마련한 것이다. 영어학습의 좌우뇌 균형발달을 위한 지침을 제시하였으며 특정 학습영역과 연계한 뇌의 활성화를 제시함으로써 개인별 뇌 기능에 따른 영어학습 향상을 위한 뇌기능을 훈련할 수 있는 이론적 토대를 마련하였다 (권형규, 2008). 이를 통하여 단순한 이미지와 오감을 활용한 우뇌적 학습방향이 아니라 개인별 정량뇌파 데이터에 의한 통합뇌 훈련모형을 개발하였다. 정량뇌파 분석을 위해서는 피험자 개인별 영어능력 검사점수에 대한 뇌파지표를 도출하여 단계적 변수선택법에 의한 다중회귀분석을 실시하였다.