• Applied Microscopy
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• 제46권4호
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• pp.171-175
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• 2016

A distinctive neuronal network in the brain is believed to make us unique individuals. Electron microscopy is a valuable tool for examining ultrastructural characteristics of neurons, synapses, and subcellular organelles. A recent technological breakthrough in volume electron microscopy allows large-scale circuit reconstruction of the nervous system with unprecedented detail. Serial-section electron microscopy-previously the domain of specialists-became automated with the advent of innovative systems such as the focused ion beam and serial block-face scanning electron microscopes and the automated tape-collecting ultramicrotome. Further advances in microscopic design and instrumentation are also available, which allow the reconstruction of unprecedentedly large volumes of brain tissue at high speed. The recent introduction of correlative light and electron microscopy will help to identify specific neural circuits associated with behavioral characteristics and revolutionize our understanding of how the brain works.

• Communications for Statistical Applications and Methods
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• 제12권1호
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• pp.241-252
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• 2005

In this study we suggest that the spatial correlation structure of the brain fMRI data be used to characterize the functional connectivity of the brain. For some concussion and recovery data, we examine how the correlation structure changes from one step to another in the data analyses, which will allow us to see the effect of each analysis to the spatial correlation or the functional connectivity of the brain. This will lead us to spot the processes which cause significant changes in the spatial correlation structure of the brain. We discuss whether or not we can decompose correlation matrices in terms of its causes of variations in the data.

• 한국방사선학회논문지
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• 제14권7호
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• pp.947-956
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• 2020

인간의 신체는 노화가 진행됨에 따라 구조 및 기능이 저하되어 다양한 질병에 취약해지게 된다. 특히 뇌구조의 변화는 혈관 및 대사성 뇌 질환과 같은 질병에 대한 면역 체계가 취약해지고 신경정신질환에 쉽게 노출되게 된다. 본 연구에서는 이러한 뇌 구조를 비침습적으로 관찰할 수 있는 자기공명영상 기법을 이용하여 65세에서 85세까지의 여성을 대상으로 뇌 부피, 회백질, 백질, 피질하부 영역의 부피가 노화에 따라 어떻게 변화 하는지 패턴을 조사하였으며, 연구결과로 피질하부영역에서 선형적으로 유의미하게 감소하는 변화 패턴을 확인 할 수 있었다. 이러한 결과는 뇌 구조 영역의 노화로 인한 변화가 노년기 신경정신질환과 밀접한 관련이 있음을 시사하고 있으며, 노년기 뇌 발달에 대한 이해를 도울 수 있는 정보를 제공할 수 있다.

• 인지과학
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• 제28권4호
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• pp.267-297
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• 2017

뇌의 해부학적 구조에는 개인의 인지적 특성에 대한 많은 정보가 반영된다. 본 연구는 아동과 청소년을 대상으로 생물학적 성숙과 지능의 개인차와 관련한 대뇌의 구조적 변화와 특성을 관찰한 연구들을 중점적으로 개관하였다. 본 연구의 목적은 아동과 청소년의 뇌 구조의 발달 과정을 이해함과 동시에 개인의 지능에 따라 뇌 구조가 발달하는 패턴이 어떠한 차이가 있는지를 알아보는 것이다. 첫 번째 단원에서는 뇌의 구조적 특성에 대한 측정치들(전체 뇌의 크기나 부피, 영역 별 회백질/백질의 부피와 밀도, 피질 두께, 피질 표면적 등)과 부피소-기반 계측법 및 구조적 공분산성 분석 등의 연구 방법들을 설명한다. 두 번째 단원에서는 생물학적 성숙에 따른 뇌 구조의 발달적 변화와 이에 영향을 미치는 변수와 조절 변인들(성별, 정신/발달 장애, 환경 요인, 영역 별 피질의 층 구조)을 설명한다. 세 번째 단원에서는 지능의 두정-전두 통합 이론을 소개하고 뇌 구조 및 뇌의 구조적 공분산성, 기능적 연결성의 발달적 변화가 지능의 개인차에 따라 어떻게 달라지는지에 대한 연구 결과들을 개관한다. 끝으로, 결론 부분에서는 현재까지 이루어진 연구들을 기반으로 하여 후속 연구의 방향과 이 분야 연구의 사회적 가치를 논한다.

• 생물정신의학
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• 제18권1호
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• pp.5-14
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• 2011

Neuroimaging in psychiatry encompasses the powerful tools available for the in vivo study of brain structure and function. MRI including the volumetry, voxel-base morphometry(VBM) and diffusion tensor imaging (DTI) are useful for assessing brain structure, whereas function MRI, positron emission tomography(PET) and magnetoencephalography(MEG) are well established for probing brain function. These tools are well tolerated by the vast majority of psychiatric patients because they provide a powerful but noninvasive means to directly evaluate the brain. Although neuroimaging technology is currently used only to rule in or rule out general medical conditions as opposed to diagnosing primary mental disorders, it may be used to confirm or make psychiatric diagnoses in the future. In addition, neuroimaging may be valuable for predicting the natural course of psychiatric illness as well as treatment response.

• 한국수산과학회지
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• 제39권2호
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• pp.94-99
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• 2006

The tadpole larvae of most ascidians have two sensory pigment cells in their brain vesicle. The anterior otolith pigment cell is sensitive to gravity, whereas the posterior ocellus pigment cell responds to light. Besides these two sensory cells, the larvae also possess another type of sensory receptor cell: hydrostatic pressure receptor (Hpr) cells. The Hpr cells have been presumed to sense hydrostatic water pressure, although no functional analysis has been performed. In larvae of the ascidian Halocynthia reretzi, the development of the Hpr cells and their structure in the brain vesicle are poorly understood. To investigate the morphology and formation of the Hpr cells, we established a monoclonal antibody, Hpr-1, that specifically recognizes Hpr cells. The Hpr-1 antigens became detectable in the brain vesicle at the late tailbud stage. Each Hpr cell projected a small globular body, connected by a short stalk, into the lumen of the brain vesicle. The brain vesicle showed remarkable left-right asymmetry. Pigment cells were located on the right side in the lumen of the brain vesicle, whereas Hpr cells were present in the left side. After metamorphosis, the Hpr cells were observed near the rudimental siphons of the juvenile.

• 한국멀티미디어학회논문지
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• 제22권9호
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• pp.1020-1028
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• 2019

Cerebrovascular disease is a common disease in the elderly population. However, we do not have enough understanding of brain-related diseases. Recent advances in microscopy technology have resulted in the acquisition of vast amounts of image data sets for small organs, and it has become possible to handle vast amounts of image data sets due to improved computer performance and software technology. In this paper, the author proposes introduce a method for classifying and analysing only cerebrovascular information in the mouse brain image, as well as a quantitative measure of the portion of the cerebrovascular in the mouse brain. The study of the cerebrovascular structure is significant, and it can be helpful to improve the understanding of cerebrovasculature. As a result, the author expects that this study will be useful for neuroscientists conducting clinical research.

• Mass Spectrometry Letters
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• 제10권1호
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• pp.11-17
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• 2019

Drosophila melanogaster (fruits fly) is a representative model system widely used in biological studies because its brain function and basic cellular processes are similar to human beings. The whole head of the fly is often used to obtain the key function in brain-related diseases like degenerative brain diseases; however the biomolecular distribution of the head may be slightly different from that of a brain. Herein, lipid profiles of the head and dissected brain samples of Drosophila were studied using electrospray ionization-mass spectrometry (ESI-MS). According to the sample types, the detection of phospholipid ions was suppressed by triacylglycerol (TAG), or the specific phospholipid signals that are absent in the mass spectrum were measured. The lipid distribution was found to be different in the wild-type and the microRNA-14 deficiency model ($miR-14{\Delta}^1$) with abnormal lipid metabolism. A few phospholipids were also profiled by comparison of the head and the brain in two fly model systems. The mass spectra showed that the phospholipid distributions in the $miR-14{\Delta}^1$ model and the wild-type were different, and principal component analysis revealed a correlation between some phospholipids (phosphatidylethanolamine (PE), phosphatidylinositol (PI), and phosphatidylserine (PS)) in $miR-14{\Delta}^1$. The overall results suggested that brain-related lipids should be profiled using fly samples after dissection for more accurate analysis.

• 운동영양학회지
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• 제24권1호
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• pp.14-18
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• 2020

[Purpose] Functional foods are thought to strongly influence the structure and function of the brain. Previous studies have reported that brain-boosting diets may enhance neuroprotective functions. Certain foods are particularly rich in nutrients like phytochemicals that are known to support brain plasticity; such foods are commonly referred to as brain foods. [Methods] In this review, we briefly explore the scientific evidence supporting the neuroprotective activity of a number of phytochemicals with a focus on phenols and polyunsaturated fatty acids such as flavonoid, olive oil, and omega-3 fatty acid. [Results] The aim of this study was to systematically examine the primary issues related to phytochemicals in the brain. These include (a) the brain-gut-microbiome axis; (b) the effects of phytochemicals on gut microbiome and their potential role in brain plasticity; (c) the role of polyunsaturated fatty acids in brain health; and (d) the effects of nutrition and exercise on brain function. [Conclusion] This review provides evidence supporting the view that phytochemicals from medicinal plants play a vital role in maintaining brain plasticity by influencing the brain-gut-microbiome axis. The consumption of brain foods may have neuroprotective effects, thus protecting against neurodegenerative disorders and promoting brain health.

• 대한한의학원전학회지
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• 제18권4호통권31호
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• pp.49-59
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• 2005

On the importance of brain, Nei Ching has many descriptions, but it has been 3,000 years since the theory was issued that brain should be considered as a viscera. Nowadays scientists rush more studies on brain in international scientific field, Eastern medicine is to be required for the solution of it. This study is on the identical pathological mechanism between Simpo and brain based on my researches on senil dimentia through continued reports last 15 years. A psychosis is caused by stress and abnormality of neurotransmitter on brain, for which is caused by seven emotions and pathological material on Simpo in Pyun Jahk Simseo, so it shows Simpo is brain clearly. Therefore Simpo is no more intangible organ but brain, Samcho which has been debated similarly for thousands of years in the orient is no more intangible but spinal nerve system on central nerve with its structure and physiological points, and both two organs are composed of inside and outside relationship in Eastern medicine, I report hereby today.