• 생태와환경
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• 제37권2호통권107호
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• pp.180-192
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• 2004

본 연구는 2002년 11월부터 2004년 2월까지 수심이 얕은 부영양상태의 저수지에서계절에 따른 수질변화와이에 대한 유입 부하량 영향을 평가하기 위해 이루어졌다. 수심간의 수온차가 $1^{\circ}C\;m^{-1}$ 이상의 수온약층이 5월에 형성되었고, 심층에서 2 mg $O_2\;L^{-1}$ 이하의 낮은 산소농도가 5월부터 9월까지 관찰되었다. $Z_{eu}/Z_{m}$은 0.2${\sim}$l.1의 범위로 수온약층 형성으로 혼합 층이 수심 4m근처이고 유광대 층이 수심 4.3m였던 5월을 제외하고는 대부분의 기간 동안에 유광대층에 비해 혼합층의 수심이 깊은 것으로 나타났다. 수체내 질소는 1.1 ${\sim}$ 4.5 mg N $L^{-1}$ 의범위로, 대부분이 용존 형태(Avg. 58.7%)로 존재하고 있었으며 결빙된 수표면의 해빙 시에 암모니아성 질소와 질산성질소가 증가하였다. 저수지내 총인 농도는43.g${\sim}$126.6 ${\mu}g\;P\;L^{-1}$범위로 대부분은 입자성인의 형태(Avg. 80%)로 존재하고 있었다. 용존무기인 농도는 심층에서의 일시적인 증가가 관찰된 7월과 8월을 제외하고는 10 ${\mu}g\;P\;L^{-1}$ 이하였다. 엽록소 a 농도의 뚜렷한 증가는인 유입부하량이 많았던 7월 (99 ${\mu}g\;L^{-1}$)과 11월 (109 ${\mu}g\;L^{-1}$)에 관찰되었고 수체내 총인과 양의 상관성을 보였다(r=0.55, P<0.008, n=22).수층간의 평균 엽록소 a 농도는11월 8일에 84.5${\pm}$29.0 ${\mu}g\;L^{-1}$으로 가장 높았고 2월에13.5${\pm}$ 1.0 ${\mu}g\;L^{-1}$로 가장 낮았다. 유입수량이 증가할 수록유입수내 층인 농도도 증가하는 경향을 나타냈으며(r=0.69,P<0.001), 1년 중 강우량이 많았던 7월 25일 하루동안에 연간 총인 유입부하량의 40.5%가 유입되었고, 11월 8일에도 17.1%가 유입되었다. 유역으로부터 유입되는총인 부하량은 159.0kg P $yr^{-1}$였고, 식물플랑크톤에 의해직접 이용 될 수 있는 용존무기인 부하량은 126.3 kg P $yr^{-1}$로 총인의 77.7%에 해당하였다. 총 질소 부하량은 5.0 ton $yr^{-1}$로 총 인 부하량(159.0 kg P $yr^{-1}$)에 비해 30배 정도 많았으며, 총질소 부하 중 무기질소 부하량은3.9 ton $yr^{-1}$로 총 질소의 78%였다. 인 임계 부하량은 1.6 g ${\cdot}$ $m^{-2}$${\cdot}$$yr^{-1}$으로 과잉임계부하량을 상회하는 수준 이였다. 본 연구결과 저수지의 유역으로부터 유입되는 많은양의 유입 인 부하는 저수지 수질의 계절적인 변화 뿐 만아니라 부영양화의 가장 큰 원인으로 나타났으며, 중영양상태의 수질을 유지하기 위해서는 총인 유입부하량(159 kg $yr^{-1}$)의 71%가 감소되어야 할 필요성이 제기되었다. 또한 여름철 심층 산소 고갈이 야기되었고, 이 시기에 퇴적물로 용출된 인이 식물플랑크톤 성장에 이용될 수 있기때문에 퇴적물에 대한 관리도 수행될 필요가 있다.

• 한국동물위생학회지
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• 제25권1호
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• pp.53-73
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• 2002

It has been reported that degranulation of mast cells in rats, rabbits and dog was observed after dosing xylazine hydrochloride(Xh) which has been widely used as sedative, analgesic and muscular relaxant. Therefore, this experiment was conducted to examine the relations between Xh and histamine release and to identify the action of ${\alpha}$-adrenoceptors which exists on the suface of mast cells. 1. The content of histamine within serum was measured with HPLC by performing the O-phthalaldehyde(OPA) fluorescent derivation. The pretreatment method had a little modification from the conventional method. The pretreament was carried out in the following method. 0.2$m\ell$ of serum and 1$m\ell$ of butanol were added to mixed together and then the liquid was centrifugally separated at 4$^{\circ}C$ and 2,000 rpm for 3 minutes. 0.4$m\ell$ of 0.1N HCl and 1.6$m\ell$ of heptane were added to 0.8$m\ell$ of supernatant taken from the liquid, and they were mixed together. This mixture was also centrifugally separated at 4$^{\circ}C$ and 2,000 rpm for 5 minutes. The supernatant was thrown away and the OPA fluorescent derivation was carried out with 0.2$m\ell$ of the lower liquid then, 5 minutes after mixing 400${\mu}\ell$ of 0.1N HCl, 120${\mu}\ell$ of 1N NaOH and 40${\mu}\ell$ of 0.1% OPA in the 0.2$m\ell$ of the lower liquid,120${\mu}\ell$ of 3.57N H$_3$PO$_4$ was added to the mixed liquid, and the liquid, was mixed again and syringe-filtered. Then, the measurement was done with HPLC in the 30 : 70(ν/ν) ratio of 0.004M KH$_2$PO$_4$: CH$_3$CN, flow rate of 1.0$m\ell$/min., and a wavelength of λex= 350nm and λem=444nm at the column temperature of 27$^{\circ}C$, using the fluorescence detector. 2. The content of histamine in each laboratory animal appeared to be higher in such an order as rabbit, rat, guinea pig, dog, Korean indigenous goat, swine, Korean indigenous cattle, Holstein, and mouse, of which the individual mean values${\pm}$standard deviation were 2.0668 ${\pm}$ 0.6049. 0.4999 ${\pm}$ 0.2278, 0.4241 ${\pm}$ 0.1974, 0.1054 ${\pm}$ 0.0556, 0.1028 ${\pm}$ 0.0276, 0.0972 ${\pm}$ 0.0513, 0.0872 ${\pm}$ 0.0373, 0.0717 ${\pm}$ 0.0379, and 0.0706 ${\pm}$ 0.0366, respectively. 3. The content of histamine was measured at the moments of 15-, 30-, 60-, 120-minutes after inoamuscular injection of 20mg/100kg Xh into two to 4 years old Holstein weighing 600∼700kg. The result showed that there was a significant increase at the times of 30- and 90-minutes after injection(p<0.05). 4. Intramuscular injection of 3mg/10kg Xh was given to crossbred pug dogs weighing 2.5∼4.3kg. The content of histamine was measured at the times of 30-, 60-, 90- and 120-minutes after injection. The result revealed that there was a significant increase at the times of 60-and 90-minutes after injection(p<0.05). 5. Intramuscular injection of 10mg/$m\ell$∼25mg/$m\ell$ Xh in concentration of 0.1$m\ell$ was applied to Korean indigenous goat over 5 months old. Then, the content of histamine was measured at the times of 15-, 30-, 60- and 90-minutes after injection. A significant increase was shown at the times of 30- and 60-minutes after injection(p<0.05). 6. The content of histamine was measured at the moments of 30- and 60-minutes after intramuscular injection of 0.1-0.2$m\ell$ Xh (20mg/$m\ell$) into male rabbits weighting 2.5-4kg. A significant increase was found at the moment of 60 minutes after injection(p<0.001). 7. After administering Xh to the mast cell taken from the abdominal cavity of mouse, the content of histamine was measured. The result showed that the higher the concentration, the more significantly the content of histamine was increased(p<0.05). 8. Compound 48/80 was administered in concentration of 5$\mu\textrm{g}$/$m\ell$ and 10$\mu\textrm{g}$/$m\ell$ to the mast cell picked from the abdominal cavity of mouse. The result showed that there was a significant increase in the content of histamine in case of the concentration of 10$\mu\textrm{g}$/$m\ell$(p<0.05). It was found to be about 10,000 to 500,000 times stronger than the Xh. 9. After premedication of 1mg/kg of yohimbine hydrochloride as ${\alpha}$$_2$-adrenergic antagonist to rabbits, the Xh was administered to them. The result was that the value of histamine within serum was decreased significantly(p<0.001). 10. After premeditation of 1mg/kg of prazosin hydrochloride as ${\alpha}$$_1$-adrenergic antagonist to rabbits, the Xh was administered to them. It was found that the value of histamine within serum was decreased significantly(p<0.005). 11, Prazosin hydrochloride and yohimbine hydrochloride as ${\alpha}$$_1$-adrenergic antagonist, respectively, and ${\alpha}$$_2$-adrenergic antagonist were administerd. In this case, the value of histamine within serum was decreased significantly(p<0.0001). As the results, when the Xh is administered to various kinds of animals, the amount of histamine release within serum is increased. In view of the results so far achieved, it is concluded that Xh acted on both a$_1$-adrenoreceptor and ${\alpha}$$_2$-adrenoreceptor induces the degranulation of mast cell.

• 대한약리학회지
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• 제16권2호
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• pp.55-70
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• 1980

The pharmacological and microbiological studies of Cefoperazone (T-1551, Toyama Chemical Co., Japan) were conducted in vitro and in vivo. The studies included stability and physicochemical characteristics, antimicrobial activity, animal and human pharmacokinetics, animal pharmacodynamics and safety evaluation of Cefoperazone sodium for injection. 1) Stability and physicochemical characteristics. Sodium salt of cefoperazone for injection had a general appearance of white crystalline powder which contained 0.5% water, and of which melting point was $187.2^{\circ}C$. The pH's of 10% and 25% aqueous solutions were 5.03 ana 5.16 at $25^{\circ}C$. The preparations of cefoperazone did not contain any pyrogenic substances and did not liberate histamine in cats. The drug was highly compatible with common infusion solutions including 5% Dextrose solution and no significant potency decrease was observed in 5 hours after mixing. Powdered cefoperazone sodium contained in hermetically sealed and ligt-shielded container was highly stable at $4^circ}C{\sim}37^{\circ}C$ for 12 weeks. When stored at $4^{\circ}C$ the potency was retained almost completely for up to one year. 2) Antimicrobial activity against clinical isolates. Among the 230 clinical isolates included, Salmonella typhi was the most susceptible to cefoperazone, with 100% inhibition at MIC of ${\leq}0.5{\mu}g/ml$. Cefoperazone was also highly active against Streptococcus pyogenes(group A), Kletsiella pneumoniae, Staphylococcus aureus and Shigella flexneri, with 100% inhibition at $16{\mu}g/ml$ or less. More than 80% of Escherichia coli, Enterobacter aerogenes and Salmonella paratyphi was inhibited at ${\leq}16{\mu}/ml$, while Enterobacter cloaceae, Serratia marcescens and Pseudomonas aerogenosa were somewhat less sensitive to cefoperagone, with inhibitions of 60%, 55% and 35% respectively at the same MIC. 3) Animal pharmacokinetics Serum concentration, organ distritution and excretion of cefoperazone in rats were observed after single intramuscular injections at doses of 20 mg/kg and 50 mg/kg. The extent of protein binding to human plasma protein was also measured in vitro br equilibrium dialysis method. The mean Peak serum concentrations of $7.4{\mu}g/ml$ and $16.4{\mu}/ml$ were obtained at 30 min. after administration of cefoperazone at doses of 20 mg/kg and 50 mg/kg respectively. The tissue concentrations of cefoperazone measured at 30 and 60 min. were highest in kidney. And the concentrations of the drug in kidney, liver and small intestine were much higher than in blood. Urinary and fecal excretion over 24 hours after injetcion ranged form 12.5% to 15.0% in urine and from 19.6% to 25.0% in feces, indicating that the gastrointestinal system is more important than renal system for the excretion of cefoperazone. The extent of binding to human plasma protein measured by equilibrium dialysis was $76.3%{\sim}76.9%$, which was somewhat lower than the others utilizing centrifugal ultrafiltration method. 4) Animal pharmacodynamics Central nervous system : Effects of cefoperazone on the spontaneous movement and general behavioral patterns of rats, the pentobarbital sleeping time in mice and the body temperature in rabbits were observed. Single intraperitoneal injections at doses of $500{\sim}2,000mg/kg$ in rats did not affect the spontaneous movement ana the general behavioral patterns of the animal. Doses of $125{\sim}500mg/kg$ of cefoperazone injected intraperitonealy in mice neither increased nor decreased the pentobarbital-induced sleeping time. In rabbits the normal body temperature was maintained following the single intravenous injections of $125{\sim}2,000mg/kg$ dose. Respiratory and circulatory system: Respiration rate, blood pressure, heart rate and ECG of anesthetized rabbits were monitored for 3 hours following single intravenous injections of cefoperazone at doses of $125{\sim}2,000mg/kg$. The respiration rate decreased by $3{\sim}l7%$ at all the doses of cefoperazone administered. Blood pressure did not show any changes but slight decrease from 130/113 to 125/107 by the highest dose(2,000 mg/kg) injected in this experiment. The dosages of 1,000 and 2,000 mg/kg seemed to slightly decrease the heart rate, but it was not significantly different from the normal control. All the doses of cefoperazone injected were not associated with any abnormal changes in ECG findings throughout the monitering period. Autonomic nervous system and smooth muscle: Effects of cefoperazone on the automatic movement of rabbit isolated small intestine, large intestine, stomach and uterus were observed in vitro. The autonomic movement and tonus of intestinal smooth muscle increased at dose of $40{\mu}g/ml$ in small intestine and at 0.4 mg/ml in large intestine. However, in stomach and uterine smooth muscle the autonomic movement was slightly increased by the much higher doses of 5-10 mg/ml. Blood: In vitro osmotic fragility of rabbit RBC suspension was not affected by cefoperazone of $1{\sim}10mg/ml$. Doses of 7.5 and 10 mg/ml were associated with 11.8% and 15.3% prolongation of whole blood coagulation time. Liver and kidney function: When measured at 3 hours after single intravenous injections of cefoperaonze in rabbits, the values of serum GOT, GPT, Bilirubin, TTT, BUN and creatine were not significantly different from the normal control. 5) Safety evaluation Acute toxicity: The acute toxicity of cefoperazone was studied following intraperitoneal and intravenous injections to mice(A strain, 4 week old) and rats(Sprague-Dawler, 6 week old). The LD_(50)'s of intraperitonealy injected cefoperazone were 9.7g/kg in male mice, 9.6g/kg in female mice and over 15g/kg in both male and female rats. And when administered intravenously in rats, LD_(50)'s were 5.1g/kg in male and 5.0g/kg in female. Administrations of the high doses of the drug were associated with slight inhibition of spontaneous movement and convulsion. Atdominal transudate and intestinal hyperemia were observed in animals administered intraperitonealy. In rats receiving high doses of the drug intravenously rhinorrhea and pulmonary congestion and edema were also observed. Renal proximal tubular epithelial degeneration was found in animals dosing in high concentrations of cefoperazone. Subacute toxicity: Rats(Sprague-Dawley, 6 week old) dosing 0.5, 1.0 and 2.0 g/kg/day of cefoperazone intraperitonealy were observed for one month and sacrificed at 24 hours after the last dose. In animals with a high dose, slight inhibition of spontaneous movement was observed during the experimental period. Soft stool or diarrhea appeared at first or second week of the administration in rats receiving 2.0g/kg. Daily food consumption and weekly weight gain were similar to control during the administration. Urinalysis, blood chemistry and hematology after one month administration were not different from control either. Cecal enlargement, which is an expected effect of broad spectrum antibiotic altering the normal intestinal microbial flora, was observed. Intestinal or peritoneal congestion and peritonitis were found. These findings seemed to be attributed to the local irritation following prolonged intraperitoneal injections of hypertonic and acidic cefoperazone solution. Among the histopathologic findings renal proximal tubular epithelial degeneration was characteristic in rats receiving 1 and 2g/kg/day, which were 10 and 20 times higher than the maximal clinical dose (100 mg/kg) of the drug. 6) Human pharmacokinetics Serum concentrations and urinary excretion were determined following a single intravenous injection of 1g cefoperazone in eight healthy, male volunteers. Mean serum concentrations of 89.3, 61.3, 26.6, 12.3, 2.3, and $1.8{\mu}g/ml$ occured at 1,2,4,6,8 and 12 hours after injection respectively, and the biological half-life was 108 minutes. Urinary excretion over 24 hours after injection was up to 43.5% of administered dose.

• 자원환경지질
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• 제5권4호
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• pp.187-209
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• 1972

발파(發破)에 있어서 천공배치(穿孔配置)는 발파효과에 영향(影響)을 미치는 가장 중요(重要)한 요소중(要素中)의 하나다. Burn-cut 의 폭발(爆發)의 여러 요소(要素)에 관(關)한 연구(硏究)는 Brown, Cook에 의(依)해 발표(發表)된 바 있으나 본연구(本硏究)에 있어서는 Burn-cut 와 Pyramid-cut의 천공배치(穿孔配置)의 대비(對比)와 폭원(爆源)과 자유면(自由面)사이의 역학적(力學的) 응력해석(應力解析)에 중점(重點)을 두어 이등교수(伊藤敎授)가 전개(展開)한 이론(理論)에서 다루지 않은 주정천공배치(週正穿孔配置)에 의(依)한 Burn-cut의 효과을 연결(連結)시켰다. 종래(從來)의 이론(理論)에 의(衣)하면 단일자유면발파(單一自由面發破)에 있어서는 압축응력외(壓縮應力外)에 자유면(自由面)에서 반사(反射)되는 인장응력(引張應力)의 영향(影響)을 추가(追加)로 받는다. 본(本) 신천공(新穿孔) 배치(配置)에 의(依)한 Burn-cut는 자유면수(自由面數)의 증가(增加)와 거리(距離)의 축소(縮少)를 꾀하므로서 이효과(效果)는 더욱 증대(增大)된다. 이와 같은 효과를 위(爲)해서는 다음 두가지 점(點)을 고려해야 한다. 첫째 심기공(心技孔)의 무장약공(無裝藥孔)은 보조응력(補助應力)을 크게 하기위(爲)해 가능(可能)한 대구경(大口徑)으로 깊게 천공(穿孔)해야 한다. 둘째 각 심기공간(心技孔間)의 거리(距離)를 접근(接近)시켜 완전(完全) 발파(發破)를 기(期)해야 한다. 그 까닭은 구경(口徑)이 증가(增加)됨에 따라 2차(次) 자유면(自由面)은 넓어지고 거리가 가까울수록 장약공(裝藥孔)과 무장약공(無裝藥孔)사이의 인장응력(引張應力)은 더욱 발달(發達)되기 때문이다. 선진국(先進國)에서는 심기공(心技孔)사이의 거리(距離)를 4"로 함이 이상적(理想的)이라고 알려지고 있으나 본실험(本實驗)에 의(依)하면 더 욱 근접(近接)될수록 파괴암석(破壞岩石)이 증가(增加)되고 굴진장(掘進長)도 깊어짐이 밝혀졌다. 나아가서는 굴진장(掘進長)을 더욱 증대(增大)시키기 위(爲)해 Burn-cut로 부터 Large hole Burn-cut를 개발(開發)하여 발파회수(發破回數) max 7회(回)/일(日)로서 1발파당(發破當) 3.1m까지 시도(試圖)함으로서 고속도굴진(高速度掘進)의 기원(起源)을 마련했다. 또한 대구경(大口徑) Burn-cut에서는 큰 저항(抵抗)을 극복하기 위해 금속초유폭약(金屬硝油爆藥)을 사용(使用)함이 더욱 효과적(效果的)임이 입증(立證)됐다. 최근(最近)에 와서 저렴(低廉)한 가격(價格)과 취급안전(取扱安全)으르 각광을 받고있는 AN-FO는 비료용 또는 공업용(工業用) 초안(硝安)에 연료유(燃料油)를 혼합(混合)한 것으로서 외관(雷管)만으로는 순감(純感)하여 폭발(爆發)하지 않으나 Gelatin Dynamite등(等)의 폭발성(爆發性) 예감제(銳感劑)에 의(依)해 발파공내(發破孔內)에서 일단 기폭(起爆)되면 종래(從來)의 초안폭약(硝安爆藥)에 상당(相當)한 위력(威力)을 발휘(發揮)케 한다. AN-FO 폭제(爆劑)의 성능(性能)에 관(關)해서는 많은 보고(報告)가 있었으나 본(本) 실험(實驗)에 의(依)하면 초유혼합비(硝油混合比)는 분상(粉狀)은 93.5:6.5, prill상(狀)은 94:6이 최적(最適)이며 분상(粉狀) AN-FO는 prill상(狀) AN-FO보다 항상(恒常) 폭속(爆速)이 높다. 또한 기폭감도(起爆感度), 충격감도(衝擊感度), 진거감도(塵據感度) 등(等) 제감도(諸感度)는 타화약(他火藥)에 비(比)해 몹시 경감(鏡感)하며 전폭성(傳爆性)은 prill상(狀)이 분상(粉狀)보다 우수(優秀)함을 얻었다. 발파후(發破後) Gas도 양호(良好)하며 AN-FO는 제조후(製造後) 7일(日) 전후(前後)가 최대효과를 갖는다. 종래(從來) AN-FO는 지난 여러해 동안 로천굴(露天掘)에만 사용(使用)하여 왔으나 필자(筆者)는 AN-FO의 기초성능시험(基礎性能試驗)을 토대(土臺)로 이를 이용(利用)한 신종폭제(新種爆劑)로서 금속초유폭약(金屬硝油爆藥)과 수중폭약(水中爆藥)을 발전(發展)시켰다. 금속초유(金屬硝油)의 폭약(爆藥)은 AN-FO와 Al 금속분말의 혼합물(混合物)이며 수중폭약(水中爆藥)은 종래폭약(從來爆藥)과 AN-FO로 제조(製造)한 바 이에 관(關)해서는 다른 논문(論文)에 기술(記述)했다. 본(本) 연구(硏究)에 있어서는 단일자유면(單一自由面) 발파(發破)에 있어서 격유폭약류(隔油爆藥類)를 사용(使用)한바 그 효과(效果)가 매우 양호(良好)하였음을 확인(確認)하였다.