1.Microlipoinjection for Soft Tissue Augmentation.
Sung Yul AHN ; Masanari ICHIDA
Journal of the Korean Society of Aesthetic Plastic Surgery 1999;5(1):47-56
No abstract available.
Syringes
3.Evaluation of clot formation in blood-contrast agent mixture: experimental study on ionic/nonionic contrast agents and plastic/ glass syringes.
Hyung Jin SHIM ; Jong Beum LEE ; Yong Chul LEE ; Kwan Seh LEE ; Kun Sang KIM
Journal of the Korean Radiological Society 1991;27(1):27-32
No abstract available.
Contrast Media*
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Glass*
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Syringes*
4.Accuracy assessment of a PION TCI pump based on international standards
Il DOH ; Seok Hwan LEE ; Yong Hun LEE ; Bokyoung JEON ; Byung Moon CHOI ; Gyu Jeong NOH
Anesthesia and Pain Medicine 2019;14(4):407-411
BACKGROUND: Inaccuracies associated with target-controlled infusion (TCI) delivery systems are attributable to both software and hardware issues, as well as pharmacokinetic variability. However, little is known about the inaccuracy of the syringe pump operating in TCI mode. This study aimed to evaluate the accuracy of the TCI pump based on international standards.METHODS: A test apparatus for accuracy evaluation of a syringe pump (PION TCI®, Bionet Co. Ltd.) was designed to apply the gravimetric method. Pump accuracy was evaluated in terms of deviation defined by the following equation: infusion rate deviation (%) = (Rate(mea) − Rate(est)) / Rate(est) × 100, where Rate(mea) is the infusion rate (ml/h) as measured by the gravimetric system, and Rate(est) is the infusion rate (ml/h) as estimated by the pump. An infusion rate representing TCI mode was determined from previous clinical trial data which evaluated the predictive performance of the pharmacokinetic model. The PION TCI pump used in that clinical trial was used to evaluate accuracy of the syringe pump. The distribution of infusion rates obtained from the clinical trial was calculated, and the median value of the distribution was determined as the representative value.RESULTS: The representative infusion rate representing TCI mode was 31 ml/h, at which the infusion rate deviation was 4.5 ± 1.6%.CONCLUSIONS: The inaccuracy of the syringe pump contributing to TCI system inaccuracy is insignificant.
Mesons
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Methods
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Syringes
5.Impact of priming the infusion system on the performance of target-controlled infusion of remifentanil.
Jong Yeop KIM ; Bong Ki MOON ; Jong Hyuk LEE ; Youn Yi JO ; Sang Kee MIN
Korean Journal of Anesthesiology 2013;64(5):407-413
BACKGROUND: The start-up behavior of syringe and syringe pump is known to be one of the causes of inaccurate intravenous infusion. This study evaluated the method of priming the infusion system (PRIMING), and its impact on the target-controlled infusion (TCI) of two remifentanil diluents. METHODS: PRIMING was performed using an evacuation of 2.0 ml to the atmosphere prior to TCI. Forty-eight TCI, using 50 microg/ml (Remi50) or 20 microg/ml (Remi20) of diluents, were performed targeting 4.0 ng/ml of effect-site concentration (Ceff), with PRIMING or not. The gravimetrical measurements of the delivered infusates reproduced actual Ceff. The bolus amount and time to reach 95% target were compared. RESULTS: Without PRIMING, Remi50 infused less bolus (43 +/- 23 %) than Remi20 (19 +/- 9 %) (P = 0.003), and showed more delayed increase of Ceff (11.2 +/- 4.0 min) than Remi20 (7.4 +/- 0.4 min) (P = 0.028). However, PRIMING significantly decreased the deficit of the bolus (2 +/- 1%), as well as the delay of the increase of Ceff in Remi50 (1.2 +/- 0.2 min) (both P < 0.001). In addition, with PRIMING, the start-up bolus showed minimal difference to the nominal bolus (1 and 2%), and Ceff were increased to 4.0 +/- 0.1 ng/ml at the expected time of peak effect, irrespective of the diluents. CONCLUSIONS: Proper operation of the syringe pump used in the priming of the syringe may be helpful in reduction of the inaccuracy of TCI, particularly during the early phase of infusion, or the infusion of a more concentrated diluent.
Atmosphere
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Infusions, Intravenous
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Piperidines
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Syringes
6.Proof production of manual syringes to be used in solid-phase microextraction (SPME) for analysing some pyrethroid compounds
Journal of Malaria and parasite diseases Control 2003;0(4):59-65
The study was carried in Chemistry Department of University of Sciences and Entomology Department of National Institute of Malariology - Parasitology - Entomology during the period of 2001-2002. A manual syringe for SPME was made by using a fused silica fiber from optical cable, one of the end of the fiber is passed through the hole of a needle of 5mL medical syringe and is attached to a piston in a protective holder of 1mL medical syringe, and the other end is coated by liquid phase polyacrylate (the fiber end in a 0.1g/mL solution of polyacrylate in dichloromethane). Then the liquid sample to adsort analytes during 30-45 minutes. At the end, the 2 needle is inserted into the GC/ECD injector port is desorbed the analytes on to the column
Syringes
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Solid Phase Microextraction
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Pyrethrins
7.The comparison of the micro-syringe with clinical usage.
Junyan PENG ; Jianguo QIAN ; Lei ZHANG
Chinese Journal of Medical Instrumentation 2014;38(4):305-307
Micro-syringe as a result of the high frequency of clinical use, direct contact with patients, the failure of its equipment will have a direct impact on the patient's disease status. Researchers in this paper, by simulating the test fluid, electrical safety testing and analysis of statistical methods such as maintenance records, consider six kinds of common injection pump, in terms of performance, safety and the failure rate of three performance. Compared the performance analysis, summarized the various types of injection pump characteristics, researchers make suggestions to clinical departments, equipment procurement and equipment management departments for usage and improvement.
Equipment Failure
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Equipment Safety
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Syringes
8.Research on influence of different syringe types on quality control of syringe pump.
Hongyun LIU ; Hao HUANG ; Weidong WANG
Journal of Biomedical Engineering 2014;31(6):1316-1324
To evaluate the influence of different brands of syringes on performance parameters and application quality of syringe pump, we carried out matching experiment of infusion/syringe pump analyzer Rigel Multi-Flo, made by ALK Co. in Sweden, for 3 different types of syringes to measure the flow rate, occlusion alarm pressure, occlusion time and bolus volume of 26 syringe pumps. Data of quality control were analyzed with statistical method. The results demonstrated that there were significant differences in the flow rate, occlusion alarm pressure, occlusion time and bolus volume (P<0. 01) between those of common syringes and original syringes. This study points out that the health care providers should select compatible syringes for syringe pumps, which provides evidence and guidance to assure the reasonable and safe application of syringe pumps in clinical practice.
Infusion Pumps
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Quality Control
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Syringes
9.A new solution for performance test of disposable syringe and other transfusion apparatus.
Chinese Journal of Medical Instrumentation 2012;36(3):210-212
The method and process for main performance test of regular medical apparatus is proposed based on test standards for medical package. This provides a comprehensive testing solution for the quality supervision, drug administration and major enterprises in medical industry.
Blood Transfusion
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instrumentation
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Solutions
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Syringes