• Journal of Radiation Protection and Research
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• 제8권2호
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• pp.41-46
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• 1983

방사성핵종의 대기방출로 인한 인근주민의 연간 집단선량을 대기확산모델과 USNRC에서 제안된 지상먹이연쇄모델을 결부시켜 AIRDOS-EPA전산코드를 사용하여 평가하였다. 평가결과는 전신의 경우, $3.348{\times}10^{-1}manrem$으로 GASPAR전산코드에 의해 계산된 값과 다소 차이가 있었으나 갑상선의 경우, 84.95manrem으로 아주 낮게 평가되었다.

• 대한한의학회지
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• 제21권3호
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• pp.119-128
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• 2000

목적 : Rhabdomyolysis에 의해 유발된 급성 신부전시 나타나는 신장세뇨관 세포에서 물질이동의 저해가 단삼 추출액에 의해 방지될 수 있는 지를 조사하였다. 방법 : 토끼에 50％ glycerol을 10ml/kg씩 대퇴근육내 주사한 후 뇨와 혈액을 채취하여 신기능을 측정하고, 신피질 절편을 분리하여 실험하였다. 결과： 토끼에 50％ glycerol을 10ml/kg씩 대퇴근육내 주사한 결과 사구체여과율의 감소와 Na 배설분율의 증가가 나타남으로서 glycerol 주입이 rhabdomyolysis에 의해 급성신부전이 유발되었음을 보였다. Glycerol을 주사하기 전 7일 동안 단삼 추출액 (0.05%)을 0.3 g/kg씩 경구 투여한 결과 glycerol에 의해 유발된 사구체여파율의 감소와 Na 배설분율의 증가가 유의하게 방지되었다. glycerol만을 주사한 동물에서는 포도당과 인산의 요배설분율이 각각 현저하게 증가하였으나, 이러한 증가는 단삼 추출액에 의해 억제되었다. 급성신부전이 유발된 신장피질에서 분리한 brush-border membrane vescicles (BBMV)에서 포도당과 인산의 이동은 정상 신장과 비교하여 유의한 감소가 나타나고, microsomal fraction에서 측정한 Na＋-K+-ATPase 활성도 억제되었다. 이러한 억제현상은 단삼 추출액을 전처치한 결과 방지되었다. 급성신부전이 유발된 신장피질 절편에서 유기 음이온인 P-aminohippurate 이동과 유기 양이온인 tetraethylammonium의 이동이 억제되었고, 이러한 변화는 단삼 추출액에 의해 방지되었다. Rhabdomyolysis에 의해 유발된 포도당과 인산의 배설분율의 증가는 항산화제로 잘 알려진 DPPD 전처치로 방지되었다. 결론 ： Rhabdomyolysis에 의한 급성신부전의 유발 과정에 반응성 산소기가 중요한 역할을 할 가능성을 보이고 있고, 단삼 추출액 전처치는 Rhabdomyolysis에 의한 급성 신부전시 나타나는 근위세뇨관에서 물질의 재흡수 장애를 방지하고 있다. 단삼 추출액의 방지 효과는 항산화작용에 기인할 것으로 사료된다.

• The Korean Journal of Physiology and Pharmacology
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• 제8권6호
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• pp.335-338
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• 2004

There are numerous studies on transepithelial transports in duct cells including $Cl^-$ and/or $HCO_3^-$. However, studies on transepithelial $K^+$ transport of normal duct cells in exocrine glands are scarce. In the present study, we examined the characteristics of $K^+$ currents in single duct cells isolated from guinea pig pancreas, using a whole-cell patch clamp technique. Both $Cl^-$ and $K^+$ conductance were found with KCI rich pipette solutions. When the bath solution was changed to low $Cl^-$, reversal potentials shifted to the negative side, $-75{\pm}4\;mV$, suggesting that this current is dominantly selective to $K^+$. We then characterized this outward rectifying $K^+$ current and examined its $Ca^{2+}$ dependency. The $K^+$ currents were activated by intracellular $Ca^{2+}$. 100 nM or 500 nM $Ca^{2+}$ in pipette significantly (P<0.05) increased outward currents (currents were normalized, $76.8{\pm}7.9\;pA$, n=4 or $107.9{\pm}35.5\;pA$, n=6) at +100 mV membrane potential, compared to those with 0 nM $Ca^{2+}$ in pipette $(27.8{\pm}3.7\;pA,\;n=6)$. We next examined whether this $K^+$ current, recorded with 100 nM $Ca^{2+}$ in pipette, was inhibited by various inhibitors, including $Ba^{2+}$, TEA and iberiotoxin. The currents were inhibited by $40.4{\pm}%$ (n=3), $87.0{\pm}%$ (n=5) and $82.5{\pm}%$ (n=9) by 1 mM $Ba^{2+}$, 5 mM TEA and 100 nM iberiotoxin, respectively. Particularly, an almost complete inhibition of the current by 100 nM iberiotoxin further confirmed that this current was activated by intracellular $Ca^{2+}$. The $K^+$ current may play a role in secretory process, slnce recycling of $K^+$ is critical for the initiation and sustaining of $CI^-$ or $HCO_3^-$ secretion in these cells.

• 보건행정학회지
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• 제28권4호
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• pp.411-422
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• 2018

Background: Whether there is a difference in outcomes for trauma patients transferring to the helicopter emergency medical service (HEMS) according to their previous team composition is controversial. The purpose of this study is to evaluate the effectiveness of trauma team-staffed-HEMS (TTS-HEMS) when transferring to a trauma center. Methods: A retrospective comparison was conducted on patients transported to a trauma center over a 6-year period by the TTS-HEMS and paramedic-staffed-HEMS (119-HEMS). Inclusion criteria were blunt trauma with age ${\geq}15years$. Patient outcomes were compared with the Trauma and Injury Severity Score (TRISS) (30-day mortality) and the Cox proportional hazard ratio of mortality (in hospital). Results: There were 321 patients of TTS-HEMS and 92 patients of 119-HEMS. The TTS-HEMS group had a higher Injury Severity Score and longer transport time but a significantly shorter time to emergency surgery. The prehospital data showed that the trauma team performed more aggressive interventions during transport. An additional 7.6 lives were saved per 100 TTS-HEMS deployments. However, the TRISS results in the 119-HEMS group were not significant. In addition, after adjusting for confounders, the hazard ratio of mortality in the 119-HEMS group was 2.83 times higher than that in the TTS-HEMS group. Conclusion: HEMS was likely to improve the survival rate of injured patients when physicians were involved in TTS-HEMS. Survival benefits in the TTS-HEMS group appeared to be related to the fact that the trauma team performed both more aggressive prehospital resuscitation and clinical decision making during transportation.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.341-341
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• 2017

Abiotic stress adversely affects crop growth worldwide. Drought of the major abiotic stresses have the most significant impact on all of the crop. The main objective of this study was to assess the effects of drought stress on photochemical performance and vitality of maize (Zea mays L.). The photochemical characteristics were analyzed in the context of period of drought stress during the maize growth. Drought experiment was carried out for four weeks, thereafter, the drought treated maize was re-watered. The polyphasic OJIP fluorescence transient was used to evaluate the behavior of photosystem II (PSII) and photosystem I (PSI) during the entire experiment period. In drought stress, the performance Index (PI) level was reached earlier when compared to the controls. For the screening of drought stress tolerance the drought factor index (DFI) of each variety was calculated as follow DFI= log(A) + 2log(B). All the fourteen cultivars show DFI ranged from -0.69 to 0.30, meaning less useful in selection of drought tolerant cultivars. PI and electron transport flux values of fourteen cultivars were to indicate reduction of photosynthetic performance during the early vegetative stage under drought stress. In conclusion, DFI and energy flux parameters can be used as photochemical and physiological index.

• 대한교통학회지
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• 제32권4호
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• pp.303-314
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• 2014

본 연구는 우리나라 도로 교통부분의 이산화탄소 배출량 관리를 위한 지역별 배출량 산정 방법에 대한 연구로서 지역별로 서로 다른 통행패턴(기종점 통행, 통과 통행)을 고려하였다. 기초자료는 국가교통DB센터(KTDB)에서 제공하는 O/D 및 Network 자료를 이용하였다. 분석 결과, 기존 연구에서 제공하는 수도권의 총 이산화탄소 배출량은 매우 유사한 수준으로 분석되었다. 경기도를 중심으로 권역을 설정하여 분석한 결과, 경기도 남부 지역에서는 통과교통량에 의한 이산화탄소 배출량이 지역 배출량에 비해 높게 나타났으며, 북부 지역에서는 지역 배출량의 비율이 높은 것으로 나타났다. 이러한 결과는 통행의 구분에 따라 지자체에서 관리할 수 있는 배출량과 국가 차원에서 관리할 수 있는 배출량을 구분할 필요가 있을 것으로 판단된다.

• 대한약리학회지
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• 제24권2호
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• pp.179-187
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• 1988

소듐에 의한 칼슘의 유리는 verapamil, TTX, TEA의 영향을 받지 않았다. $100\;{\mu}M\;Cd6{++}$과 $Zn^{++}$은 소듐에 의한 칼슘 유출을 유의하게 억제하였다. $Cd^{++}$은 $Ki\;100\;{\mu}M\;Cd6{++}$로써 비상경적으로 소듐-칼슘 교환이동을 억제하였다. $Cd^{++}$은 SH기의 산화를 초래하였으나, $Zn^{++}$은 거의 영향을 나타내지 않았다. $Cd^{++}$과 $Zn^{++}$은 $Na^+-Ca^{++}$ ATPase를 효과적으로 억제하였으나 $Ca^{++}-Mg^{++}$ ATPase를 약간 억제시켰다. Carbonyl cyanide chlorophenylhydrazone, 2,4-dinitrophenol과 sodium arsenate는 소듐에 의한 칼슘 유리를 촉진하였다. Dibucaine과 oligomycin은 소듐에 의한 칼슘의 유리를 약간 억제하였으나, 이에 반하여 ouabain은 약간 촉진하였다. 이상의 실험 결과로부터 신경 세포막에서의 소듐-칼슘 교환은 이온 통로를 통하여 이루어지지 않을 것으로 시사되었다. 소듐-칼슘 교환이동은 $Cd^{++}$에 민감하게 억제되고 이 이동기전에 synaptosome막의 SH기가 관여할 것으로 사료되었다. 또한 소듐-칼슘 교환은 세포막 단백질 성분의 인산화 반응 동안에 억압될 것으로 추정되었다.

• Journal of the korean society of oceanography
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• 제39권2호
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• pp.119-135
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• 2004

A three-dimensional numerical model using POM (the Princeton Ocean Model) is established in order to understand the dispersion processes of the Yangtze River water in the Yellow and East China Seas. The circulation experiments for the seas are conducted first, and then on the bases of the results the dispersion experiments for the river water are executed. For the experiments, we focus on the tide effects and wind effects on the processes. Four cases of systematic experiments are conducted. They comprise the followings: a reference case with no tide and no wind, of tide only, of wind only, and of both tide and wind. Throughout this study, monthly mean values are used for the Kuroshio Current input in the southern boundary of the model domain, for the transport through the Korea Strait, for the river discharge, for the sea surface wind, and for the heat exchange rate across the air-sea interface. From the experiments, we obtained the following results. The circulation of the seas in winter is dependent on the very strong monsoon wind as several previous studies reported. The wintertime dispersion of the Yangtze River water follows the circulation pattern flowing southward along the east coast of China due to the strong monsoon wind. Some observed salinity distributions support these calculation results. In summertime, generally, low-salinity water from the river tends to spread southward and eastward as a result of energetic vertical mixing processes due to the strong tidal current, and to spread more eastward due to the southerly wind. The tide effect for the circulation and dispersion of the river water near the river mouth is a dominant factor, but the southerly wind is still also a considerable factor. Due to both effects, two major flow directions appear near the river mouth. One of them is a northern branch flow in the northeast area of the river mouth moving eastward mainly due to the weakened southerly wind. The other is a southern branch flow directed toward the southeastern area off the river mouth mostly caused by tide and wind effects. In this case, however, the tide effect is more dominant than the wind effect. The distribution of the low salinity water follows the circulation pattern fairly well.

• Archives of Pharmacal Research
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• 제28권3호
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• pp.249-268
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• 2005

Drug metabolizing enzymes (DMEs) play central roles in the metabolism, elimination and detoxification of xenobiotics and drugs introduced into the human body. Most of the tissues and organs in our body are well equipped with diverse and various DMEs including phase I, phase II metabolizing enzymes and phase III transporters, which are present in abundance either at the basal unstimulated level, and/or are inducible at elevated level after exposure to xenobiotics. Recently, many important advances have been made in the mechanisms that regulate the expression of these drug metabolism genes. Various nuclear receptors including the aryl hydrocarbon receptor (AhR), orphan nuclear receptors, and nuclear factor-erythoroid 2 p45-related factor 2 (Nrf2) have been shown to be the key mediators of drug-induced changes in phase I, phase II metabolizing enzymes as well as phase III transporters involved in efflux mechanisms. For instance, the expression of CYP1 genes can be induced by AhR, which dimerizes with the AhR nuclear translocator (Arnt) , in response to many polycyclic aromatic hydrocarbon (PAHs). Similarly, the steroid family of orphan nuclear receptors, the constitutive androstane receptor (CAR) and pregnane X receptor (PXR), both heterodimerize with the ret-inoid X receptor (RXR), are shown to transcriptionally activate the promoters of CYP2B and CYP3A gene expression by xenobiotics such as phenobarbital-like compounds (CAR) and dexamethasone and rifampin-type of agents (PXR). The peroxisome proliferator activated receptor (PPAR), which is one of the first characterized members of the nuclear hormone receptor, also dimerizes with RXR and has been shown to be activated by lipid lowering agent fib rate-type of compounds leading to transcriptional activation of the promoters on CYP4A gene. CYP7A was recognized as the first target gene of the liver X receptor (LXR), in which the elimination of cholesterol depends on CYP7A. Farnesoid X receptor (FXR) was identified as a bile acid receptor, and its activation results in the inhibition of hepatic acid biosynthesis and increased transport of bile acids from intestinal lumen to the liver, and CYP7A is one of its target genes. The transcriptional activation by these receptors upon binding to the promoters located at the 5-flanking region of these GYP genes generally leads to the induction of their mRNA gene expression. The physiological and the pharmacological implications of common partner of RXR for CAR, PXR, PPAR, LXR and FXR receptors largely remain unknown and are under intense investigations. For the phase II DMEs, phase II gene inducers such as the phenolic compounds butylated hydroxyanisol (BHA), tert-butylhydroquinone (tBHQ), green tea polyphenol (GTP), (-)-epigallocatechin-3-gallate (EGCG) and the isothiocyanates (PEITC, sul­foraphane) generally appear to be electrophiles. They generally possess electrophilic-medi­ated stress response, resulting in the activation of bZIP transcription factors Nrf2 which dimerizes with Mafs and binds to the antioxidant/electrophile response element (ARE/EpRE) promoter, which is located in many phase II DMEs as well as many cellular defensive enzymes such as heme oxygenase-1 (HO-1), with the subsequent induction of the expression of these genes. Phase III transporters, for example, P-glycoprotein (P-gp), multidrug resistance-associated proteins (MRPs), and organic anion transporting polypeptide 2 (OATP2) are expressed in many tissues such as the liver, intestine, kidney, and brain, and play crucial roles in drug absorption, distribution, and excretion. The orphan nuclear receptors PXR and GAR have been shown to be involved in the regulation of these transporters. Along with phase I and phase II enzyme induction, pretreatment with several kinds of inducers has been shown to alter the expression of phase III transporters, and alter the excretion of xenobiotics, which implies that phase III transporters may also be similarly regulated in a coordinated fashion, and provides an important mean to protect the body from xenobiotics insults. It appears that in general, exposure to phase I, phase II and phase III gene inducers may trigger cellular 'stress' response leading to the increase in their gene expression, which ultimately enhance the elimination and clearance of these xenobiotics and/or other 'cellular stresses' including harmful reactive intermediates such as reactive oxygen species (ROS), so that the body will remove the 'stress' expeditiously. Consequently, this homeostatic response of the body plays a central role in the protection of the body against 'environmental' insults such as those elicited by exposure to xenobiotics.