1.A study on the subjective symptoms of the workers exposed to chronic low dose organic solvents.
Sun Min KIM ; Soo Hun CHO ; Hyun Sul LIM ; Heon KIM
Korean Journal of Occupational and Environmental Medicine 1993;5(1):104-113
No abstract available.
Solvents*
2.A study on component analysis of organic solvents and their health effect.
Young Man ROH ; Se Hoon LEE ; Hyun wook KIM ; Kwang Mook LEE ; Chee Kyung CHUNG ; Seung Han LEE
Korean Journal of Occupational and Environmental Medicine 1993;5(1):88-103
No abstract available.
Solvents*
3.The study on the urinary N-acetyl-?glucosaminidase concentrations as a early renal injury index in workers exposed to lead, mercury and organic solvents.
Chul Whan CHA ; Kwang Jong KIM ; Eun Il LEE
Korean Journal of Occupational and Environmental Medicine 1993;5(1):29-44
No abstract available.
Solvents*
4.The relationship between the utilization of health center and exposed amount to solvent by using cumulative exposure index.
Ju Won PARK ; Soon Young LEE ; Jae Yeon JANG ; Kyung Jong LEE ; Ho Grun JEONG
Korean Journal of Preventive Medicine 1998;31(3):404-413
This study was conducted in order to clarify the factors affecting the number of utilization to health center for the shipyard workers who have been work in exposed environment to solvent. At first the tendencies of the number of utilization to health center in accordance with cumulative exposure(CE), lifetime weighted average exposure(LWAE), one's place of duty, work contents, states of using safety apparatus, the degree of the knowledge on handling solvents, exposure year. 1) The increase in the cumulative exposure(CE) was significantly higher in the number of utilization to health center. The group with longer exposure year showed significantly higher number of utilization to health center(p<0.01). Considering the work contents such as power blasting, spray, mixing and touch-up, the group of touch-up showed higher number of utilization to health center and this difference was statistically significant(p<0.001). Those who were not using the safety apparatus, showed higher number of utilization to health center, which was statistically significant(p<0.05). The degree of the knowledge on handling the solvent had no relation with using health center. 2) The results conducted from this study by multiple regression analysis in clarifying the factors affecting the number of utilization to health center, CE, exposure year and using safety apparatus was significant factor in utilization of health center.
Solvents
5.A case of demyelinating lesion in central nervous system due toorganic solvents.
Seong Kyu KANG ; Kyung Yong RHEE ; Ho Keun CHUNG ; Young Jin LEE
Korean Journal of Occupational and Environmental Medicine 1992;4(1):110-117
No abstract available.
Central Nervous System*
;
Solvents*
6.Study on some factors incluencing on the effectiveness of semi-synthesis of fluoroalkyl ethers of dihydroartemisinine
Pharmaceutical Journal 2004;44(1):8-10
The study examined some factors (solvent, catalysis, temperature) affecting to fluoroalkyl ether subsynthesis effects of dihydroartemisinin. TF-DHA and PF-DHA, two fluoroalkylether derivatives of dihydroartermisinin was prepared by treatment of dihydroartermisin with appropriate fluoroalcohol in the presence of boron trifluoride etherate. The dicloromethan solvent is most efficient option for TF-DHA's preparation
Artemisinins
;
Therapeutics
;
Solvents
7.Study on Applicability of Predictive Equations of Subjective Symptoms of Workers Using Organic Solvents in Certain Factory.
Yong Hee CHEON ; Young Hahn MOON ; Dae Kyu OH
Korean Journal of Preventive Medicine 1983;16(1):31-34
For the study of the applicability of predictive equation of subjective symptoms of workers using organic solvents, 67 male workers using organic solvents were selected. The predictive equation was quotated from previous Cheon's study. All the datas of necessary variables were gained. The predictive values and observed values were compared. The results were summarized as below; 1. The difference between predictive values and observed values were characteristically large. The coefficient of determination between the two values was 0.0024. 2. The R2 value of multiple stepwise regression equation derived from present study was 0.2827.
Humans
;
Male
;
Solvents*
8.Toxic encephalopathy in a worker exposed to organic solvents; a case report.
Korean Journal of Occupational and Environmental Medicine 1991;3(2):216-219
No abstract available.
Neurotoxicity Syndromes*
;
Solvents*
9.A study on the chemical recycling method of metal bracket.
Korean Journal of Orthodontics 1990;20(1):103-110
Metal brackets were recycled by variable methods for economic reason. Such recycling methods had a great effect on bracket slot width and bonding strength. Therefore, the recycling methods that don't change the properties of original bracket were suggested. In this study, debonded brackets were recycled with 30 kinds of solvents and bracket surfaces were examined by S.E.M. (Super IlIA, lSI International Scientific Instruments, Japan) and Stero Microscope (Sz-Tr, Olympus Tokyo, Japan) methods. The following results were obtained. 1. Thermosetting resin adhesives (eq. Monolok(R), Concise(R)) were swelled most in sulfuric acid (assays 95%) and slightly in alcohol groups. 2. The solvent was exchanged every 24 hours during the brackets were recycled with sulfuric acid (assays 95%). As the passage of time, the adhesives were removed more clearly, and after 72 hours adhesives were nearly detached from bracket base. 3. Chemical recycled metal bracket surface showed no irregular structure by S.E.M. method.
Adhesives
;
Recycling*
;
Solvents
;
Sulfur
10.Simultaneous Extraction and Separation of Oil and Azadirachtin from Seeds and Leaves of Azadirachta indica using Binary Solvent Extraction
Sheela SUBRAMANIAN ; Aiza Syuhaniz SALLEH ; Robert Thomas BACHMANN ; Md. Sohrab HOSSAIN
Natural Product Sciences 2019;25(2):150-156
Conventional extraction of oil and azadirachtin, a botanical insecticide, from Azadirachta indica involves defatting the seeds and leaves using hexane followed by azadirachtin extraction with a polar solvent. In order to simplify the process while maintaining the yield we explored a binary extraction approach using Soxhlet extraction device and hexane and ethanol as non-polar and polar solvents at various ratios and extraction times. The highest oil and azadirachtin yields were obtained at 6 h extraction time using a 50:50 solvent mixture for both neem leaves (44.7 wt%, 720 mg(Aza)/kg(leaves)) and seeds (53.5 wt%, 1045 mg(Aza)/kg(seeds)), respectively.
Azadirachta
;
Ethanol
;
Limonins
;
Solvents