1.Solitary bronchial papilloma 2 cases: including one case treated using Nd-YAG laser therapy.
Hong Lyeol LEE ; Joon CHANG ; Se Kyu KIM ; Seung Min KWAK ; Sung Kyu KIM ; Won Young LEE ; Dong Won MIN ; Dong Hwan SHIN
Korean Journal of Medicine 1993;45(1):109-117
No abstract available.
Lasers, Solid-State*
;
Papilloma*
2.Experiences with CO2 and Nd-YAG laser in anorectal surgery.
Journal of the Korean Surgical Society 1991;41(5):667-672
No abstract available.
Lasers, Solid-State*
3.Experiences with CO2 and Nd-YAG laser in anorectal surgery.
Journal of the Korean Surgical Society 1991;41(5):667-672
No abstract available.
Lasers, Solid-State*
4.Clinical and Histological Evaluation of Tattoos Treated with Q-Switched Alexandrite Laser.
Weon Jin PARK ; Peob Min KO ; Jae Jung KIM ; Bom Joon HA ; Jae Seung LEE ; Myoung Soo SHIN ; In Chul SONG
Journal of the Korean Society of Aesthetic Plastic Surgery 1998;4(2):316-324
No abstract available.
Lasers, Solid-State*
5.Histometric Evaluation of Rabbit Tibias following Irradiation with an Er: YAG Laser
Jong Woon KIM ; Su Gwan KIM ; Se In CHO ; Hyun Ho KIM ; Mi Sung KIM ; Sang Ho LEE ; Sung Chul LIM
Journal of the Korean Association of Maxillofacial Plastic and Reconstructive Surgeons 2002;24(3):202-210
No abstract available.
Lasers, Solid-State
;
Tibia
6.Nd-YAG laser and CO2 laser application in general surgery.
Bong Hwa LEE ; Seung Won JUNG ; Kyung Sik KIM ; Ze Hong WON ; Heung Kil PARK ; Chan Young LEE
Journal of the Korean Surgical Society 1991;40(1):1-12
No abstract available.
Lasers, Gas*
;
Lasers, Solid-State*
7.A study on the effect of pulsed Nd: YAG laser impacts to the enamel surface and bond strength with composite resin.
Jong Man PARK ; Tae Seong BAE ; Kwang Yeob SONG ; Charn Woon PARK
The Journal of Korean Academy of Prosthodontics 1991;29(2):85-101
No abstract available.
Dental Enamel*
;
Lasers, Solid-State*
8.Some Becker's Nevus Melanocytes Remain Alive after Treatment with Q-Switched Alexandrite Laser.
Han Jin JUNG ; Sun Young MOON ; Mi Yeung SOHN ; Yong Hyun JANG ; Seok Jong LEE ; Do Won KIM ; Weon Ju LEE
Annals of Dermatology 2017;29(3):352-355
No abstract available.
Lasers, Solid-State*
;
Melanocytes*
;
Nevus*
9.An Experimental Study on Renal Tissue Damage of Rabbit According to Neodymium-YAG Laser Energy.
Korean Journal of Urology 1985;26(6):585-589
Neodymium YAG (Nd-YAG) laser is a new instrument for the treatment of various urologic disorders where coagulation is necessary but still limited in cases. It avoids many of the side effects of electrocoagulations. Nd.YAG Iaser is a safe and effective modality, reducing blood loss, shortening operation time and preserving functional integrity on remaining renal tissue. In this experiment, to investigate the Nd-YAG Laser effect to renal tissue and the adaptation to renal surgery were aimed. We made the experimental study on renal tissue damage according to the change of irradiation time and power of NJ-YAG laser. The following results were obtained; After irradiation of Nd-YAG laser, renal tissue damage was noted on 30 Watt, 3 seconds and 5O Watt, 1 second, and the degree of renal tissue damage was increased with in creasing of laser power and time. A 2mm depth injured renal tissue was noted on 150-250 Joules, which coagulates the vessel with several mm diameter. Judging from the results of this experiment it may be believed that Nd-YAG laser can be adaptable to renal surgery in bleeding control without severe renal tissue damage.
Hemorrhage
;
Lasers, Solid-State
;
Neodymium
10.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
;
Solid Phase Microextraction
;
Pyrethrins
Result Analysis
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