지연성 운동장애(Tardive Dyskinesia)의 최근 견해

김용식,강웅구,주연호,Kim, Yong-Sik,Kang, Ung-Gu,Joo, Yeon-Ho 대한생물정신의학회 1996 생물정신의학 Vol.3 No.1

Tardive dyskinesia is a syndrome of involuntary hyperkinetic abnormal movements that occurs during or shortly after the cessation of neuroleptic drug treatment. Typically, the movements are choreoatheoid. Other movements such as tics and dystonia may be present. Nonetheless, any dyskinesia seen in a neuroleptic-treated patient is not always neuroleptic-induced tardive dyskinesia. The prevalence of tardive dyskinesia varies widely, which reflects many methodological problems, such as differential diagnosis. symptom fluctuation, masking effect of neuroleptics, validated diagnostic criteria. Of suggested risk factors, only old age has been consistently found to be associated with an increased frequency of tardive dyskinesia. Many hypotheses about the pathophysiolgy of tardive kinesia are proposeed, but time-honored ones are not present. No consistently safe and effective treatments are found. Various treatment modalities signifies the general ineffectiveness of these agents for most patients. In general, reduction or cessation of neuroleptics, if possible, is recommended. Remission or improvemets of tardive dyskinesia after neuroleptics withdrawal usually occurs among most patients within three months.

Protective Effects of Calcium Antagonists and Vitamine E on the Ischemia-induced Neuronal Damage in Rat Brain Slices

김용식,윤영란,박찬웅,Kim, Yong-Sik,Yoon, Young-Ran,Park, Chan-Woong The Korean Society of Pharmacology 1993 대한약리학잡지 Vol.29 No.1

허혈성 뇌손상시 칼슘길항제, 항산화제와 산소라디칼 제거제 그리고 흥분성 아미노산 수용체 길항제의 보호효과를 검토하기 위해 본 연구에서는 랫트 뇌 해마조직 절편을 산소와 포도당을 제거한 반응액에 노출시켜 실험적 허혈상태를 유도하였다. 그리고 여러 약물을 처리한 상태에서 허혈시의 뇌세포 손상정도를 생화학적 지표들(절편내 ATP와 반응액내 lactate 및 malondialdehyde (MDA)유리량)을 측정하여 검토하였다. 60분까지 허혈상태를 유발시킨 경우 시간에 따라 절편내 ATP 함량이 감소하였고 lactate 유리량이 증가하였다. 그 후 산소와 포도당이 든 반응액으로 바꿔주니 이들 생화학적 변화들이 회복되는 양상을 보였다. 그러나 본 실험조건에서 허혈상태로부터 완전히 회복되지는 않았다. 동일한 허혈조건에서 verapamil과 비타민 E는 ATP 함량 감소와 절편으로부터의 lactate 유리량의 증가에 대해 보고효과를 보였다. 그리고 verapamil과 diltiazem은 반응액내로의 MDA유리를 감소시켰다. Superoxide dismutase (SOD), glutathione과 MK-801 (NMDA 수용체 길항제)은 20분 허혈조건에서 ATP 함량을 증가시켰으나 그외 다른 조건에서 보호효과를 보이지 않았다. 허혈 후 20분간 산소와 포도당을 재공급한 경우 verapamil은 ATP 함량과 lactate 유리에 보호효과를 보였다. 한편 비타민 E는 20분 허혈 조건에서의 lactate 유리와 60분 허혈시의 MDA 유리 증가에 대해 감소효과를 보였다. 이상의 결과는 칼슘길항제와 비타민 E가 랫트 뇌절편에서의 허혈성 생화학적 손상을 방지함으로 나타난 결과로 해석되며, 칼슘갈항제의 효과가 비타민 E보다 우수함으로 미루어 칼슘길항제는 허혈성 뇌손상에 예방 및 보고효과를 보일 것으로 믿어졌다. To evaluate the protective effects of calcium antagonists, oxygen radical scavengers and excitatory amino acid (EAA) antagonist on the ischemic brain damage, we induced in vitro ischemic condition (namely, lack of oxygen and glucose) to rat hippocampal slices. And the degree of ischemic damage was determined by assaying changes in biochemical parameters such as ATP content and lactate ralease, MDA production in the presence or absence of the various drugs. During experimental ischemia for up to 60 min, ATP content was decreased and the amount of lactate release was markedly increased time-dependently. By changing the reaction medium which contained oxygen and glucose those biochemical parameters were recovered. But the recovery was not complete in this experimental condition. In the same ischemic conditions verapamil and vitamine E prevented the decrease of ATP content and the increase of lactate release from the slices. And verapamil and diltiazem decreased MDA release to the reaction medium. Superoxide dismutase (SOD) and MK-801 (as EAA receptor antagonist) protected the decrease of ATP content and reduced MDA release in 20 min ischemic condition, but glutathione affected ATP content and lactate release at the same condition. When oxygen and glucose were resupplied for 20 min after ischemic condition, verapamil showed the protective effect on the changes of ATP content and lactate release, and vitamine E decreased lactate release (at 20 min ischemia) and MDA release (at 60 min ischemia). These results showed that calcium antagonist and vitamine E protect the ischemic biochemical changes from rat hippocampal slices and calcium antagonist is more potent than vitamine E to protect the ischemical brain damege.

Transforming growth factor ${\beta}_1$이 배양랫트 신경교세포의 성장 및 생화학적 변화에 미치는 영향

김용식,윤용하,박난향,박찬웅,Kim, Yong-Sik,Youn, Yong-Ha,Park, Nan-Hyang,Park, Chan-Woong 대한약리학회 1994 대한약리학잡지 Vol.30 No.2

Recent evidence indicates that glial cells have a wide range of funtions which are critical for maintaining a balanced homeostatic environment in the central nervous system(CNS) peripheral nervous system(PNS). Morever, astrocytes are known to participate in the tissue repair and neuroimmunologic events within the CNS through many kinds of growth factors and cytokines. We investigated the effect of $TGF\;{\beta}_1$, on the growth and biochemical changes of rat glial cells in culture. The proliferative effect was determined by $^3H-thymidine$ uptake and the double immunostain with anti-cell-specific marker and anti-Bromodeoxyuridine(BrdU) antibody. To check the effect of biochemical changes we compared the amounts of glial fibrillar acidic protein(GFAP) and the activity of glutamine synthetase(GS) in astrocyte. And the amounts of myelin basic protein and the activity of 2',3'-cyclic nucleotide phosphohydrolase(CNPase) were measured in oligodendrocyte and the amounts of peripheral myelin in Schwann cell. When $TGF\;{\beta}_1$, was treated for 2 days with cultured glial cell, $TGF\;{\beta}_1$, decreased the $^3H-thymidine$ uptake and proliferation index of double immunostain of astrocytes, which indicates the inhibition of astroglial DNA synthesis, but stimulated the growth of Schwann cell. Also, $TGF\;{\beta}_1$, decrease the GS activity and increased the amounts of GFAP in astrocyte. In the case of Schwann cells the amounts of peripheral myelin was increased when treated with $TGF\;{\beta}_1$. However, $TGF\;{\beta}_1$, didn't show any effect on the proliferation and biochemical changes in oligodendrocyte. These results suggest that $TGF\;{\beta}_1$, might have a critical action in the regulation of proliferation and biochemical changes in glial cells, especially astrocyte.

새로운 항정신병약물의 약물상호작용

김용식,강웅구,노명선,Kim, Yong Sik,Kang, Ung Gu,Roh, Myoung Sun 대한생물정신의학회 2000 생물정신의학 Vol.7 No.1

Recently atypical antipsychotics have been used as first line agent in the treatment of schizophrenia, and also played a significant role in the treatment of many kinds of psychiatric disorders. The pharmacokinetic and pharmacodynamic properties of these newer antipsychotics are well known through preclinical and early clinical trials. However, it is important to note the limitations of the results due to its relatively short experience. Clozapine is eliminated principally by the hepatic P450 1A2 and 3A4 cytochrome enzymes. 1A2 inducers such as carbamazepine and smoking can reduce its half-life, while 1A2 inhibitors such as SSRIs, especially fluvoxamine can increase its duration of action. Carbamazepine should be avoided in a patient on clozapine because of carbamazepine's potential effects on bone marrow. Benzodiazepines tend to increase the chances of sedation, delirium and respiratory depression. Risperidone is metabolized to 9-hydroxyriperidone by the hepatic P450 2D6 cytochrome enzymes. Fluoxetine and paroxetine, 2D6 inhibitors interfere with metabolism, but 9-hydroxyrisperidone has similar biological activity as parental drug, so it has little affect on the outcome. Olanzapine shows minimal capacity to inhibit cytochrome P450 isoenzymes and shows minimal chance of drug interaction. It is eliminated principally by the hepatic P450 1A2 and 2D6 cytochrome enzymes.

연구논문 - 펄프 , 제지 , 피혁분과 : 라이너지 제조공정의 폐쇄화율 향상을 위한 보류시스템 선정 및 적용 결과 (Ⅱ) - 현장적용에 따른 공정 및 제품 품질 변화 -

김용식,안국헌,오종익,이학래,성용주,박철웅,윤혜정 ( Yong Sik Kim,Kuk Hun Ahn,Jong Ik Oh,Hak Lae Lee,Yong Joo Sung,Chul Woong Park,Hye Jung Youn ) 한국공업화학회 1997 한국공업화학회 연구논문 초록집 Vol.1994 No.1

이차전지내 발생하는 수소-산소 혼합기체 재결합용 촉매의 성능 측정 및 이론적 모델 연구

김용식,장민환,주재백,Kim, Yong-Sik,Chang, Min-Hwan,Ju, Jeh-Beck 한국전기화학회 2014 한국전기화학회지 Vol.17 No.1

이차전지에서 충전이나 방전시 발생하는 수소-산소 혼합기체의 재결합반응용 촉매들의 성능을 측정하고 모델식을 정립 및 해석하여 실험값과 비교하였다. 전기분해셀을 이용하여 수소-산소 혼합기체를 발생시켰으며 고정층 촉매 반응기를 사용하여 촉매의 성능을 측정하였다. 생성된 물의 양과 전기 분해셀에서 감소된 전해질 양의 비인 수율은 전해셀내 전해질인 KOH의 농도 및 인가전류의 크기가 커질수록 증가함을 보였으며 촉매 1의 성능이 가장 우수하였고 수율은 60%이하의 값을 보였다. 이론적인 패러데이 법칙을 이용하여 계산된 패러데이 수율은 촉매 1의 경우 거의 최대 100%에 가까운 수율도 보여주었다. 여러 촉매들은 유량속도에 따라 물의 생성량의 범위가 5-40 g/day인 성능을 보여주었다. 준균질 촉매 반응기 모델식으로 해석한 결과 반응기 내부의 가장 뜨거운 부분은 유량속도가 커질수록 출구 쪽으로 이동하고 온도는 $440-480^{\circ}K$ 사이였으며 점화온도에는 못 미치는 것으로 나타났다. 반응기 출구에서의 평균 수소농도로부터 계산한 물의 생성량을 실험값과 비교한 결과 유량속도가 약 $0.5cm^3/sec$이하인 경우 모델 결과와 부합됨을 알 수 있었으나 그 이상의 유량속도에서는 차이가 남을 알 수 있었다. The performance of catalysts for the recombination of oxyhydrogen gas was measured and compared with the results obtained from theoretical model. The oxyhydrogen gas was generated by the electrolysis cell and recombined through the fixed bed catalytic reactor. The yield that is the ratio of water-amount produced to the water-amount consumed in the electrolysis cell was increased with the increase of KOH concentration in electrolysis cell and the applied current. The catalyst 1 showed the best performance and the yield was under 60 %. The faradic yield calculated by Faraday's law showed about 100% in maximum with catalyst 1. The production rate of water generated by the recombination was 5-40 g/day dependent on the flow rate of mixed gas. Considering the results calculated from the pseudo-homogeneous catalytic reactor model, the hot point inside the reactor was moved to the direction of outlet and the maximum temperatures were $440-480^{\circ}K$ when the gas flow rate increased. The production rate of water calculated from the theoretical model showed good agreement with experimental results below the flow rate of $0.5cm^3/sec$, but there were much differences above that flow rate.

3개월간의 일본 연수

김용식,Kim, Yong-Sik 대한산업보건협회 1993 산업보건 Vol.64 No.-

Involvement of $Cu^{++}$-Catalyzed Peroxidation in Degradation of Collagen and Protective Mechanism of Sodium Salicylate on this Peroxidative Reaction

김용식,Kim, Yong-Sik The Korean Society of Pharmacology 1987 대한약리학잡지 Vol.23 No.1

$Cu^{++}$ 촉매작용에 의한 과산화현상이 관절조직손상의 한 형태인 Collagen 손상에 관여할 수 있음을 알아보고, sodium salicylate의 항 염증기전의 일부를 설명해 보고자 sodium salicylate가 이 과산화반응에 미치는 효과를 검토하였다. 쥐피부로 부터 얻은 Collagen을 이용하여 Collagen gelation에 대한 $Cu^{++}$와$H_2O_2$의 효과를 관찰한 결과 $Cu^{++}$ 또는 $H_2O_2$ 단독으로는 gelation에 영향을 미치지 못하였으나, $Cu^{++}$와 $H_2O_2$가 동시에 첨가된 경우 gelation이 억제되어 maximal turbidity가 감소되고, lag phase가 연장됨을 보였다. 그리고 같은 반응 조건에서 sodium salicylate 첨가에 의해 $Cu^{++}$와 $H_2O_2$에 의해 억제된 gelation이 회복됨을 볼 수 있었으며 회복정도는 salicylate 농도 증가에 의존적이었다. 한편 $Cu^{++}$에 의한 $H_2O_2$의 decomposition rate가 sodium salicylate에 의해 증가됨을 보였고, salicylate 농도 증가에 의해 점차 saturation되는 양상을 보였다. 이상의 결과로 부터 $Cu^{++}$ 촉매작용에 의한 과산화 현상은 collagen에 작용하여 구조적 또는 기능적인 변화를 초래함을 알 수 있었고, salicylate에 의해 이러한 과산화 현상이 억제되는 것은 $Cu^{++}$에 의한 $H_2O_2$의 decomposition rate를 증가시킨 결과임을 알 수 있었다. 그러므로 $Cu^{++}$ 촉매작용에 의한 과산화현상은 만성염증 반응 특히 rheumatoid arthritis에서 나타나는 관절조직 손상에 관여할 수 있으며, sodium salicylate는 이 과산화반응에 작용하여 항 염증효과를 나타낼 수 있으리라 믿어졌다. The present study examines firstly, the inhibition of collagen gelation to explore the possible involvement of $Cu^{++}$-catalyzed peroxidation in rheumatoid arthritis and secondly, the effect of sodium salicylate on this peroxidative reaction to provide a possible explanation for its mechanism of anti-inflammatory action. Incubation of collagen obtained from rat skin with $Cu^{++}$ and $H_2O_2$ resulted in the inhibition of gelation in terms of maximal turbidity and lag phase, but either $Cu^{++}$ or $H_2O_2$ alone essentially gave no effect in the collagen gelation. In the presence of sodium salicylate the inhibited gelation of collagen induced by $Cu^{++}$ and $H_2O_2$ was reversed with the dependency of the concentration of sodium salicylate. Moreover, the rate of $H_2O_2$ decomposition by $Cu^{++}$ was accelerated by sodium salicylate and this decomposition of $H_2O_2$ was found to be saturable in terms of concentration of this drugs. Thus it can be expected that $Cu^{++}$ -catalyzed peroxidation attacks collagen resulting in change of structural or functional integrity of collagen, and sodium salicylate may act on this peroxidative process, possibly through the enhancement of catalatic action of $Cu^{++}$. From these results $Cu^{++}$-catalyzed peroxidation can be in part responsible for degradation of joint tissue in rheumatoid arthritis and sodium salicylate may exert its anti-inflammatory action by this peroxidative reaction.

LPG 유통구조현대화계획에 대한 관견

김용식,Kim, Yong-Sik 대한석유협회 1984 석유와 에너지 Vol.1984 No.2

Toluene의 생물학적 분해능 향상을 위한 계면활성제의 선정

김용식,손영규,김지형,송지현,Kim Yong-Sik,Son Young-Gyu,Khim Jee-Hyeong,Song Ji-Hyeon 한국지하수토양환경학회 2005 지하수토양환경 Vol.10 No.4

Surfactants can be used to enhance the mass transfer rate of hydrophobic compounds into the biologically active liquid phase, resulting in an increase in biodegradation rate of toluene. In this study, the mass transfer rate and the biocompatibility of toluene in the presence of various surfactants were evaluated. Four anionic and non ionic surfactants were tested: sodium dodecyl sulfate (SOS), TritonX-100, Tween 80, and BYK-345 (silicone surfactant). Experimental results showed that BYK-345 at the critical micelle concentration (CMC) enhanced the solubility of toluene. However, there was no increase in the solubility of toluene by SOS and TritonX-100 at their CMCs. With the addition of each surfactant into deionized water the mass transfer rate became faster than that of the case with no surfactant. A bottle study using toluene-degrading microorganisms showed that SOS seriously reduced toluene removal presumably due to the toxicity of the anionic surfactant and/or the substrate competition between the surfactant and toluene. In addition, the degradation rate of toluene was decreased in the presence of BYK-345, indicating that BYK-345 adversely affects the activity of microorganisms. However, TritonX-100 and Tween 80 did not decrease the degradation rate of toluene significantly. Rather, at the low concentration of TritonX-100 toluene degradation rate was even increased. Overall the experimental results suggest that TritonX-100 be the appropriate surfactant for enhanced biological degradation of toluene. 계면활성제는 소수성 물질(톨루엔)의 물질전달율을 증가시켜 미생물이 있는 액상으로 잘 녹아들어가게 함으로써 미생물에 의한 분해를 증가시킨다. 본 연구에서는 여러 종류의 계면활성제가 존재할 때 톨루엔의 물질전달율과 미생물에 의한 분해가 어떻게 이루어지는지에 대해 알아보았다. 사용한 계면활성제는 다음과 같다: Sodium Oodecyl Sulfate (SOS), TritonX-100, Tween 80, BYK-345 (silicone 계면활성제). 실험결과에 따르면 BYK-345는 critical micelle concentration (CMC)에서 톨루엔의 용해도를 증가시켰다. 하지만, SDS와 TritonX-100는 CMC에서 톨루엔의 용해도를 증가시키지 못했다. 증류수에 계면활성제를 첨가하면 증류수만 있는 경우보다 톨루엔의 물질전달율$(K_La)$이 증가했다. 톨루엔 분해 미생물을 이용한 회분식 실험에서 SOS는 톨루엔의 분해를 감소시켰다. 그 이유는 SDS가 미생물에 독성을 미쳤기 때문일 수도 있고, 기질로서 이용되어서 톨루엔과 경쟁관계에 놓였기 때문일 수도 있다. BYK-345를 계면활성제로 사용한 실험에서도 톨루엔의 분해가 감소했는데 이것은 BYK-345가 미생물의 활성도에 심각한 영향을 미쳤기 때문이다. 하지만, TritonX-100 와 Tween 80의 경우에는 톨루엔의 분해가 크게 감소하지 않았다. 낮은 농도의 TritonX-100의 경우에 오히려 톨루엔의 분해는 증가했다. 이와 같은 결과들을 통해 톨루엔의 생물학적 분해를 위해 가장 적절한 계면활성제는 TritonX-100임을 알 수 있었다.