• 제목/요약/키워드: insular cortex

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대상회 피질, 편도체, 해마체, 도피질의 T2 이완시간: 1.5테슬러와 3.0테슬러 자기공명영상장치의 비교 (T2 Relaxation Times of the Cingulate Cortex, Amygdaloid Body, Hippocampal Body, and Insular Cortex: Comparison of 1.5 T and 3.0 T)

  • 이호준;김응엽
    • Investigative Magnetic Resonance Imaging
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    • 제15권1호
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    • pp.67-71
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    • 2011
  • 목적 : 1.5T와 3.0T MRI에서 대상회 피질, 편도체, 해마체, 도피질의 T2 이완시간 (T2)을 비교하고자 하였다. 대상 및 방법 : 건강한 12명의 자원자를 대상으로 1.5T와 3.0T에서 해마에 대해 수직으로 FLAIR와 CPMG 펄스열 영상을 같은 조건으로 획득하였다. 대상회 피질, 편도체, 해마체, 도피질에서 T2를 측정하였고, 해마와 나머지 부위의 T2 비를 1.5T와 3.0T 사이에서 비교하였다. 결과 : 1.5T에서 측정한 평균 T2는 대상회 피질, 편도체, 해마체, 도피질에서 각각 $109.5{\pm}3.1$, $117.0{\pm}7.1$, $114.7{\pm}2.4$, $111.3{\pm}2.4$, 3.0T에서 측정한 값은 각각 $99.7{\pm}3.8$, $100.7{\pm}4.3$, $97.9{\pm}3.4$, $96.2{\pm}2.0$ 이었다. 1.5T와 3.0T 사이의 T2 변화 백분율은 각각 -8.9%, -13.5%, -14.6%, -13.5% 이었다. 1.5T와 3.0T 사이에서 해마체에 대한 대상회 피질, 편도체, 도피질의 T2 비는 각각 0.96 과 1.02 (p=0.003), 1.02 과 1.03 (p > 0.05), 0.97 과 0.98 (p > 0.05) 이었다. 결론 : 3.0T에서 대상회 피질의 T2 감소는 편도체, 도피질, 해마체와 비교해서 상대적으로 적었고, 대상회 피질과 해마체의 T2 이완시간비는 1.5T와 3.0T에서 의미 있는 차이를 보였다.

간정격과 사관혈 침 치료의 우울 행동 개선 효과 및 뇌신경 반응성 분석 연구 (Antidepressant Effect of Liver Tonification and Four Gate Acupuncture Treatments and Its Brain Neural Activity)

  • 엄근향;류재상;박지연
    • Korean Journal of Acupuncture
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    • 제38권3호
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    • pp.162-174
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    • 2021
  • Objectives : We aimed to identify the antidepressant effect of liver tonification acupuncture treatment (ACU (LT); KI10, LR8, LU8, LR4) and four gate acupuncture treatment (ACU (FG); LI4, LR3) and its brain neural activity in the normal and chronic restraint stress (CRS)-induced mouse model. Methods : Firstly, normal mice were given ACU (LT) or ACU (FG) and the c-Fos expressions in each brain region were analyzed to examine brain neural activity. Secondly, CRS was administered to mice for 4 weeks, then ACU (LT) or ACU (FG) was performed for 2 weeks. The depression-like behavior was evaluated using open field test (OFT) before and after acupuncture treatment. Then, the c-Fos expressions in each brain region were analyzed to examine brain neural activity. Results : In normal mice, ACU (FG) regulated brain neural activities in the hypothalamus, hippocampus, and periaqueductal gray. ACU (LT) changed more brain regions in the prefrontal cortex, insular cortex, striatum, and hippocampus, including those altered by ACU (FG). In CRS-induced model, ACU (LT) alleviated depression-like behavior more than ACU (FG). Also, brain neural activities in the motor cortex area 2 (M2), agranular ventral part and piriform of insular cortex (AIV and Pir), and cornu ammonis (CA) 1 and CA3 of hippocampus were changed by ACU (LT), and those of AIV and CA3 were also changed by ACU (FG). As in normal mice, ACU (LT) resulted in changes in more brain regions, including those altered by ACU (FG) in CRS model. M2, Pir, and CA1 were only changed by ACU (LT) in depression model, suggesting that these brain regions reflect the specific effect of ACU (LT). Conclusions : ACU (LT) relieved depression-like behavior more than ACU (FG), and this acupuncture effect was associated with modulation of brain neural activities in the motor cortex, insular cortex, and hippocampus.

치매와 관련된 뇌영역에 투사되는 경혈(외관(SJ5), 내관(Pe6), 삼음교(SP6) 및 현종(GB39))의 탐색에 관한 신경해부학적 연구 (Neuroanatomical studies on acupoints(SJ5, Pe6, SP6 and GB39) projecting to the brain area related to dimentia using neural tracer, pseudorabies virus in mouse)

  • 이창현;김태헌;이상룡;육태한
    • Journal of Acupuncture Research
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    • 제20권6호
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    • pp.168-181
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    • 2003
  • Objective: The neuroanatomical studies on the acupoints(Waiguan(SJ5), Neiguan(Pe6), Sanyinjiao(SP6) and Xuanzhong(GB39)) projecting to the brain area related to dimentia using the pseudorabies virus (PRV-Ba strain) in the mouse was described. Methods: The common locations of the brain projecting to the Waiguan, Neiguan, Sanyinjiao and Xuanzhong following injection of PRV-Ba were histochemically observed. The results were as follows Results : 1. PRV-Ba labeled areas in medulla oblongata, pons and midbrain were similar to 4 acupoints, theses areas were related to autonomic center. 2. PRV-Ba labeled areas in diencephalon and cebrebrum were differently labeled according to the acupoints. 3. CNS labeled areas in Waiguan were dense labeled in CA1-3 area of hippocampus, amygdaloid nucleus, insular cortex, parietal cortex, entorhinal cortex, perirhinal cortex, dorsal endopiriform cortex, piriform cortex, amygdalopiriform transition and bed n. of stria terminalis. 4. CNS labeled areas in Neiguan were dense labeled in insular cortex, amygdaloid nucleus, parietal cortex, entorhinal cortex, perirhinal cortex, dorsal endopiriform cortex, piriform cortex, amygdalopiriform transition and bed n. of stria terminalis. 5. CNS labeled areas in Sanyinjiao were dense labeled in CA1-3 of hippocampus, suprachiasmatic n., dorsal endopiriform cortex, piriform cortex and bed n. of stria terminalis. 6. CNS labeled areas in Xuanzhong were dense labeled in suprachiasmatic n., dorsal endopiriform cortex and piriform cortex. Conclusions : Following these results, labeled acupoints in brain areas related to dimentia are Waiguan and Neiguan. Common labeled areas are amygdaloid n., entorhinal cortex, amygdaopiriform transition, bed n. stria terminalis and perirhinal cortex.

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침자극이 흰쥐 대뇌피질의 NADPH-d와 nNOS, NPY, VIP신경세포에 미치는 영향 (The effect of acupuncture on Choksamni(ST36), Kokchi (LI11) & Arbitrary acupoint on NADPH-diaphorase, neuronal Nitric Oxide Synthase, Neuropeptide Y and Vasoactive Intestinal Peptide in the cerebral cortex of Spontaneously Hypertensive Rats)

  • 이현수;김용석;김창환
    • Journal of Acupuncture Research
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    • 제21권2호
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    • pp.205-222
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    • 2004
  • Objective: To investigate the effects of acupointed Choksamni(ST36), Kokchi(LI11) and Arbitrary acupoint on NADPH-diaphorase, neuronal nitric oxide synthase(nNOS), neuropeptide Y(NPY) and vasoactive intestinal peptide(VIP) in the cerebral cortex of spontaneously hypertensive rats. Methods: The experimental groups were divided into four groups: Normal, Choksamni(ST36), Kokchi(LI11), arbitrary group. Needles were inserted into acupoints at the depth of 0.5 cm with basic insertion method. Such stimulation was applied continuously for 10 minutes, every other day, for 10 sessions of treatments. Thereafter we evaluated changes in NADPH-d-positive neurons histochemically and changes in nNOS, NPY and VIP-positive neurons immunohistochemically. Results : The optical densities of NADPH-d-positive neurons of all the Choksamni & Kokchi groups were significantly different in all areas of cerebral cortex as compared to arbitrary group. In motor1, sensory2, cingulate2, insular, peripheral, visual cortex there was a significant difference between Choksamni & Kokchi group. The optical densities of nNOS-positive neurons of Choksamni group were significantly different in all areas except for auditory, visual and pisiform cortex and Kokchi group in all areas except for auditory and pisiform cortex as compared to arbitrary group. And there was a significant difference in cingulate1, cingulate2, ectohinal, visual cortex between Choksamni & Kokchi group. The optical densities of NPY neurons of Choksamni group were significantly different in cingulate2, insular, pisiform cortex and Kokchi group in motor1, motor2, sensory1, cingulate2, ectorhinal cortex as compared to arbitrary group. And there was no significant difference between Choksamni & Kokchi group. The optical densities of VIP neurons of Choksamni group were significantly different in all areas except for motor1, auditory cortex and Kokchi group in sensory1, insular, ectorhinal, perirhinal, visual, pisiform cortex as compared to arbitrary group. And there was a significant difference in cingulate1, cingulate2, retrosplenial, auditory corterx between Choksamni & Kokchi group. Conclusion : Our results demonstrated that acupuncture on Choksamni(ST36) & Kokchi(LI11) changes the control activities of the NO system in the cerebral cortex of SHR and according to areas there were significant difference between two groups. In all cerebral cortex areas there were distributed NPY & VIP and there were no significant difference among Choksamni(ST36), Kokchi(LI11) and arbitrary group.

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Effects of the Bee Venom Herbal Acupuncture on the Neurotransmitters of the Rat Brain Cortex

  • Yun, Hyoung-Seok;Lee, Jae-Dong
    • 대한약침학회지
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    • 제4권1호
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    • pp.125-139
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    • 2001
  • In order to study the effects of bee venom herbal acupuncture on the neurotransmitters of the rat brain cortex, herbal acupuncture with the bee venom group and normal saline group was performed bilaterally on the point corresponding to LI 4 of the rat. The average optical density of the neurotransmitters from the cerebral cortex was analyzed 30 minutes after the herbal acupuncture with immunohistochemical methods. The results were as follows: 1. The density of NADPH-diaphorase in the bee venom group was increased significantly at the motor cortex, visual cortex, auditory cortex, cingulate cortex, retrosplenial cortex, and perirhinal cortex, compared to the normal saline group. 2. The average optical density of vasoactive intestinal peptide in the bee venom group had significant changes at the insular cortex, retrosplenial cortex, and perirhinal cortex, compared to the normal saline group. 3. The average optical density of neuropeptide-Y in the bee venom group increased significantly at the visual cortex and cingulate cortex, compared to the normal saline group.

The Effects of Glutamate NMDA Receptor Antagonist MK-801 on Gastrointestinal Motility after Middle Cerebral Artery Occlusion in Rats

  • Ameer, Nasir Hussin;Lee, Jae-Hee;Choi, Myoung-Ae;Jin, Guang-Shi;Kim, Min-Sun;Park, Byung-Rim
    • The Korean Journal of Physiology and Pharmacology
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    • 제14권3호
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    • pp.151-156
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    • 2010
  • This study was performed to investigate the role of glutamate neurotransmitter system on gastrointestinal motility in a middle cerebral artery occlusion (MCAO) model of rats. The right middle cerebral artery was occluded by surgical operation, and intestinal transit and geometric center as a parameter of gastrointestinal motility and expression of c-Fos protein in the insular cortex and cingulate cortex were measured at 2 and 12 h after MCAO. Intestinal transit was $66.3{\pm}7.5%$ and $62.3{\pm}5.7%$ 2 and 12 h after sham operation, respectively, and MCAO significantly decreased intestinal transit to $39.0{\pm}3.5%$ and $47.0{\pm}5.1%$ at 2 and 12 h after the occlusion, respectively (p<0.01). The geometric center was $5.6{\pm}0.4$ and $5.2{\pm}0.9$ at 2 and 12 h after sham operation, respectively, and MCAO significantly decreased geometric center to $2.9{\pm}0.8$ and $3.0{\pm}0.3$ at 2 and 12 h after the occlusion, respectively (p<0.01). In control animals, injection of atropine decreased intestinal transit to $35.9{\pm}5.2%$, and injection of glutamate NMDA receptor antagonist, MK-801, decreased intestinal transit to $28.8{\pm}9.5%$. Pretreatment with MK-801, a glutamate NMDA receptor antagonist, in the MCAO group decreased intestinal transit to $11.8{\pm}3.2%$, which was significantly decreased compared to MCAO group (p<0.01). MCAO markedly increased the expression of c-Fos protein in the insular cortex and cingulate cortex ipsilateral to the occlusion 2 h after MCAO, and pretreatment with MK-801 produced marked reduction of c-Fos protein expression compared to MCAO group (p<0.01). These results suggest that modulation of gastrointestinal motility after MCAO might be partially mediated through a glutamate NMDA receptor system.

Cortical Iron Accumulation as an Imaging Marker for Neurodegeneration in Clinical Cognitive Impairment Spectrum: A Quantitative Susceptibility Mapping Study

  • Hyeong Woo Kim;Subin Lee;Jin Ho Yang;Yeonsil Moon;Jongho Lee;Won-Jin Moon
    • Korean Journal of Radiology
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    • 제24권11호
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    • pp.1131-1141
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    • 2023
  • Objective: Cortical iron deposition has recently been shown to occur in Alzheimer's disease (AD). In this study, we aimed to evaluate how cortical gray matter iron, measured using quantitative susceptibility mapping (QSM), differs in the clinical cognitive impairment spectrum. Materials and Methods: This retrospective study evaluated 73 participants (mean age ± standard deviation, 66.7 ± 7.6 years; 52 females and 21 males) with normal cognition (NC), 158 patients with mild cognitive impairment (MCI), and 48 patients with AD dementia. The participants underwent brain magnetic resonance imaging using a three-dimensional multi-dynamic multi-echo sequence on a 3-T scanner. We employed a deep neural network (QSMnet+) and used automatic segmentation software based on FreeSurfer v6.0 to extract anatomical labels and volumes of interest in the cortex. We used analysis of covariance to investigate the differences in susceptibility among the clinical diagnostic groups in each brain region. Multivariable linear regression analysis was performed to study the association between susceptibility values and cognitive scores including the Mini-Mental State Examination (MMSE). Results: Among the three groups, the frontal (P < 0.001), temporal (P = 0.004), parietal (P = 0.001), occipital (P < 0.001), and cingulate cortices (P < 0.001) showed a higher mean susceptibility in patients with MCI and AD than in NC subjects. In the combined MCI and AD group, the mean susceptibility in the cingulate cortex (β = -216.21, P = 0.019) and insular cortex (β = -276.65, P = 0.001) were significant independent predictors of MMSE scores after correcting for age, sex, education, regional volume, and APOE4 carrier status. Conclusion: Iron deposition in the cortex, as measured by QSMnet+, was higher in patients with AD and MCI than in NC participants. Iron deposition in the cingulate and insular cortices may be an early imaging marker of cognitive impairment related neurodegeneration.

Projections from the Prefrontal Cortex to the Dorsal Raphe Nucleus of the Rat

  • Lee, Hyun S.;Kim, Myung-A
    • Animal cells and systems
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    • 제6권2호
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    • pp.159-165
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    • 2002
  • Projections from the prefrontal cortex to subdivisions of the dorsal raphe nucleus were investigated in the rat using retrograde and anterograde tracing methods. A retrograde tracer, gold-conjugated horseradish peroxidase (WGA-apo-HRP-gold), was injected into each subdivision of the dorsal raphe including lateral wing, dorsomedial, and ventromedial areas. The majority of retrogradely labeled cells were located in the prelimbic, infralim-bic, and dorsal peduncular areas of the medial prefrontal cortex. A few cells were also identified in the cingulate, various regions of the orbital, and agranular insular cortices. Secondly, an anterograde tracer, Phaseolus vulgaris leucoagglutinin (PHA-L), was injected into the medial prefrontal cortex involving the prelimbic or infralimbic areas. Axonal fibers with varicosities were identified in all subdivisions of the DR including the lateral wing, dorsomedial, and ventromedial areas. Projections were bilateral, with ipsilateral predominance. Axonal fibers were observed at the lateral border of medial longitudinal fasciculus or in the interfascicular region at the midline. The present findings demonstrate that both the midline and lateral wing regions of the dorsal raphe nucleus receive excitatory input from cognitive and emotional centers of the cerebral cortex.

Descending Projections from the Prefrontal Cortex to the Locus Coeruleus of the Rat

  • Kim, Myung-A;Lee, Hyun-S
    • Animal cells and systems
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    • 제7권1호
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    • pp.49-55
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    • 2003
  • The fiber projection from the prefrontal cortex to the locus coeruleus (LC) in the periventricular region was analyzed in rat using anterograde and retrograde tracing methods. Following injection of an anterograde tracer, Phaseolus vulgaris leucoagglutinin (PHA-L), into prelimbic and infralimbic regions of the medial prefrontal cortex, labeled axonal fibers with varicosities were observed bilaterally within the LC, with ipsilateral predominance. Terminal labeling was also observed in the region medial to the nucleus at rostral to middle levels of the LC, whereas axonal labeling in the caudal LC was minimal. Anterogradely-labeled axonal fibers were not found in the subcoerulear region. A retrograde tracer, gold-conjugated and inactivated wheatgerm-agglutinin horseradish-peroxidase (WGA-apo-HRP-gold), was injected into several rostro-caudal levels of the LC. Majority of retrogradely-labeled cells were observed in the prelimbic or infralimbic regions of the medial prefrontal cortex when the injections were made into rostral to middle levels of the LC. Only a few cells were observed in cingulate, dorsal peduncular, orbital, or insular cortices. The present findings suggest that the nucleus LC receives restricted, excitatory inputs from cognitive, emotional, and autonomic centers of the cerebral cortex and might secondarily have influences on widespread brain regions via its diversified monoaminergic innervation.

학습피드백으로서 보상과 처벌 관련 두뇌 활성화 연구 (Learning-associated Reward and Penalty in Feedback Learning: an fMRI activation study)

  • 김진희;강은주
    • 인지과학
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    • 제28권1호
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    • pp.65-90
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    • 2017
  • 본 연구의 목적은 학습상황에서 피드백으로 주어지는 금전적 획득/손실(학습 피드백)과 비학습적 상황에서 우연히 제시되는 의사 피드백(무선 피드백)을 비교하는 방법을 사용하여, 금전적 보상과 처벌의 학습 피드백으로서만 가지는 정보처리에 어느 두뇌 영역이 관여하는지를 규명하는 데 있다. 이를 위해 정상 성인(n = 22)을 대상으로 fMRI scan 동안 단서 자극에 대한 범주 버튼 반응(좌/우)의 정확 여부에 따라 피드백이 제시되는 시행(학습시행)과 단서 자극의 위치판단 반응과 무관하게 피드백이 제시되는 시행(무선시행)을 사건 관련 fMRI 방략으로 제시하였다. 두 시행 간 보상과 처벌과 같은 동기적 사건에 대한 두뇌 반응이 변별적으로 나타나는지를 알아보기 위해 시행 유형(학습 vs. 무선)과 피드백 유형(보상 vs, 처벌)을 두 독립변인으로 한 반복측정 이원분산분석을 하였다(voxel-wise FWE p < .001). 그 결과, 좌측 배외측 전두피질(dorsolateral prefrontal cortex), 좌측 전측 도(anterior insular), 배내측 전두피질(dorsomedial prefrontal cortex) 등의 영역에서 유의한 상호작용 효과가 관찰되었는데, 이들 영역은 모두 학습-보상 피드백 및 무선-처벌 피드백보다 학습-처벌 피드백에 대해 증가한 두뇌 활성을 보였다. 본 연구 결과는 학습상황에서 주어지는 처벌 피드백에 대한 기존 전략의 변경이나 재평가를 위한 집행적 처리, 적절하지 못하거나 틀린 행동에 대한 오류처리 과정 그리고 실패 경험에 대한 부정적 정서처리가 위에서 언급한 피질신경망을 중심으로 이루어질 가능성을 보여준다. 따라서 학습의 처벌 피드백은 보상과 달리 위와 같은 추가적 정보처리 과정이 존재할 가능성을 시사한다.