1.Blood carboxyhemoglobin levels and clinical symptoms of furnace-repairing workers.
Heon KIM ; Hyun Sul LIM ; Soo Hun CHO ; Dork Ro YUN
Korean Journal of Occupational and Environmental Medicine 1993;5(1):152-162
No abstract available.
Carboxyhemoglobin*
2.Preliminary results of carboxyhemoglobin examination in blood of normal persons
Journal of Preventive Medicine 2002;12(4):45-47
This study was carried out in 72 healthy adults of working age, non-smoking, and non-exposure to occupational carbon monooxide. The results showed that substances coming from factories did not pollute their indoor environment at home. The hemoglobin (Hb) contents of examined persons was within the normal range of 122-165 g/l. Average CarboxyHemoglobin (HbCO) was 0.789+/-0.382%, ranging 0.000 to 1.500%.
Blood
;
carboxyhemoglobin
3.Measurement of Carboxyhemoglobin in the Newborns with ABO Incompatible Hyperbilirubinemia.
Jung Ae SHIN ; Son Moon SHIN ; Jeong Ok HAH ; Chun Dong KIM
Journal of the Korean Pediatric Society 1990;33(9):1188-1193
No abstract available.
Carboxyhemoglobin*
;
Humans
;
Hyperbilirubinemia*
;
Infant, Newborn*
4.Carboxyhemoglobin Levels during High and Minimal Flow Anesthesia.
Han Mok YOU ; Hyun Soo JANG ; So Young JEAN ; Sang Ha LEE
Korean Journal of Anesthesiology 1999;37(5):776-780
BACKGROUND: Minimal flow anesthesia preserves the moisture content of CO2 absorbents and seems to be a factor inhibiting carbon monoxide generation. In order to assess the safety of minimal flow anesthesia, we studied carboxyhemoglobin (COHb) level in minimal flow anesthesia. METHODS: Forty women, ASA physical status I or II, undergoing total abdominal hysterectomy were randomly allocated to one of two groups with N2O-enflurane anesthesia. Anesthesia was maintained with O2 2 l/min and N2O 2 l/min (group 1) or O2 0.3 l/min and N2O 0.2 l/min (group 2). The arterial COHb levels were measured immediately after induction (T1), 45 min after induction (T2), 75 min after induction (T3), and after recovery from anesthesia (T4). RESULTS: Although there was no statistically significant change in both groups, the COHb level at T3 and T4 increased more than that at T1 in group 1, and that at T3 and T4 decreased more than that at T1 in group 2. There was a significant difference in the COHb level at T4 between group 1 (0.93 0.31%) and 2 (0.68 0.36%) (P <0.05). CONCLUSIONS: These results show that minimal flow anesthesia does not increase the COHb level and may be performed safely.
Anesthesia*
;
Carbon Monoxide
;
Carboxyhemoglobin*
;
Female
;
Humans
;
Hysterectomy
5.Production and Accumulation of Plasma Carboxyhemoglobin in Minimal Flow Anesthesia.
Tae Hyun HAN ; Moon Seok CHANG ; Young Cheol PARK
Korean Journal of Anesthesiology 2000;38(6):954-958
BACKGROUND: Minimal flow anesthesia (total inflow rate 0.5 L/min) has been known to increase carbon monoxide production and accumulation in the breathing circuit. We tried to investigate the differences that minimal flow anesthesia shows in the production and elimination of plasma carboxyhemoglobin as compared with high-flow anesthesia. METHODS: Fifty patients were divided into smokers and non-smokers. The smokers were allocated into two groups; high flow (Hs, n = 10) or minimal flow (Ms, n = 13). Non-smoker were also allocated the same way; high flow (Hns, n = 12) or minimal flow (Mns, n = 15). The values (%) of COHb were measured at the preanesthetic baseline, 50 min (30 min after reducing inflow rate in minimal flow), 80 min and 140 min. All values along the time were compared with their baseline within a group. RESULTS: Non-smokers showed a COHb level that didn't change at each time interval as compared with the baseline in group Mns (p = 0.91) and group Hns (p = 0.365). Smokers showed a decreased COHb level at 50 min which increased at 80, 140 min compared with the baseline in group Ms (p = 0.004), but decreased at 50, 80 and 140 min as compared with baseline in group Hs (p < 0.001). CONCLUSIONS: Minimal flow anesthesia does not produce plasma COHb more than high flow anesthesia, but an increase of COHb would be expected in risky groups such as heavy smokers because elimination of carbon monoxide in the breathing circuit was slower than with high flow anesthesia.
Anesthesia*
;
Carbon Monoxide
;
Carboxyhemoglobin*
;
Humans
;
Plasma*
;
Respiration
6.Evaluation of the Blood Gas Analyzer GEM Premier 4000.
Hee Young CHUNG ; Hee Jung CHUNG ; Sail CHUN ; Woochang LEE ; Won Ki MIN
Journal of Laboratory Medicine and Quality Assurance 2009;31(1):207-214
BACKGROUND: We evaluated the performance of the GEM Premier 4000 (Instrumentation Laboratory, USA), a new blood gas/electrolytes/co-oximetry analyzer, according to the Clinical and Laboratory Standard Institute (CLSI) guidelines. METHODS: Within-run precision, total-run precision, linearity and sample-related carryover were analyzed using quality control materials at three different concentration levels for each analytes. Correlation was compared with the routinely used NOVA CCX2 (Nova Biomedical, USA) with patients' whole blood samples. RESULTS: The within-run and the total-run precisions of the GEM Premier 4000 showed very low CV of 0.04~4.40% and 0.06~4.11%, respectively, in all parameters except the lactate, which had CV of 5.58% in Level 1 QC material. The system showed a good linearity (r2=0.997~1.000, systemic error=0.00~0.20%) for all items. Sample-related carryover was -4.35%~0.15%. In comparison with the NOVA CCX2 instrument, correlation was high in all parameters with the r value ranging from 0.983-0.999 except for carboxyhemoglobin (r=0.804) and methemoglobin (r=0.010) whose concentrations were in the lower level. CONCLUSIONS: GEM Premier 4000 showed good analytical performance required for blood gas analyzer in its precision, linearity, sample-related carryover, and close correlation with NOVA CCX2. It fulfills most of the requirements for both point-of-care and laboratory use.
Carboxyhemoglobin
;
Lactic Acid
;
Methemoglobin
;
Quality Control
7.A Study on Relation between Carboxyhemoglobin in Smoking and Ischemic Heart Disease.
Young Hak PARK ; Se Jin PARK ; Eun Mi PARK ; Choong Keun LEE ; Myung Ho HONG
Korean Circulation Journal 1985;15(2):233-239
The present study was undertaken to investigate serum carboxyhemoglobin levels in smokers according to the amount of cigarrettes. many studies have shown definite and consistent relations between smoking and ischemic heart disease. The purpose of this study is to show that COHb levels can be used to discriminate between persons having certain ischemic heart disease and persons without these disease more accurately than is possible by using smoking history alone, and thus to suggest that this may be a good indicators of risk. The results of this study are as follow : 1) The incidence of ischemic heart disease in smoker is higher than that in non-smoker. 2) For a given COHb level there is no clear increasing trend in the population of affected subjects with increasing cigarette consumption and there is no significant change cigarette consumption under duration of 10 year's smoking history. 3) For a moderate and a heavy smoking categories there is a consistent effect of an increasing proportion of affected subjects as the COHb level rises and there is a significant change with COHb level under duration of 10 year's smoking history. 4) The same results are as over duration of 10 year's history. 5) There were no significant interaction between under duration of 10 year's smoking history and over duration of 10 year's smoking history. In conclusion, it seemed that cigarette smoking may play an important factor in development of ischemic heart disease by increasing serum carboxyhemoglobin level.
Carboxyhemoglobin*
;
Humans
;
Incidence
;
Myocardial Ischemia*
;
Smoke*
;
Smoking*
;
Tobacco Products
8.Carboxyhemoglobin Dissociation Pattern by Age in the Rat.
Sun Min KIM ; Heon KIM ; Soo Hum CHO
Korean Journal of Preventive Medicine 1991;24(4):507-515
One, two, six and ten week old Sprague-Dawley rats were exposed to carbon monoxide at 3,700 ppm for 30 minutes, and carboxyhemoglobin was measured immediateley, 5, 30, 60, 90, 120 minutes after the exposure. In each time after the exposure, the means of the carboxyhemoglobin levels were "compared among the week age groups. The regression analysis was done using the natural logarithm. of the carboxyhemoglobin concentration as a dependent variable and the time after the exposure. as an independent vaiable. From the regression equation, the half lives of the carboxyhemoglobin were calculated. The one week old rats showed significantly higher carboxyhemoglobin level than other week age rats in the entire time after the exposure. The corrected carboxyhemoglobin concentration calculated by subtracting the normal carboxyhemoglobin level from the me cured carboxyhemoglobin at each age group, showed no uniform differences.
Animals
;
Carbon Monoxide
;
Carboxyhemoglobin*
;
Humans
;
Rats*
;
Rats, Sprague-Dawley
9.Investigation of relationship between inhalation injury assessment and prognosis in burn patients.
Hyeong Tae YANG ; Haejun YIM ; Young Suk CHO ; Dohern KIM ; Jun HUR ; Wook CHUN ; Jong Hyun KIM ; So Young JUNG ; Byung Chun KIM ; Jae Jung LEE
Journal of the Korean Surgical Society 2011;81(1):1-9
PURPOSE: Inhalation injury is one of the most severe morbidity and mortality factors in burn patients. The purpose of this study is to analyze the impact of inhalation injury to the prognosis of burn patients and to investigate the relationship between the inhalation injury assessment and the prognosis of patients. METHODS: Bronchoscopy was performed in 170 patients who had the suspicion of inhalation injury and the patients were reviewed retrospectively from January 2008 to December 2009. Mortality was compared between the factors of brochoscopic findings, age, total body surface area (TBSA) burned, carboxyhemoglobin (COHb) level, PaO2/FiO2 (P/F) ratio. RESULTS: Of 170 patients, 28 patients had no inhalation bronchoscopic finding. 109 patients had mild inhalation, 31 patients had moderate inhalation, only 2 patients had severe inhalation findings. The patients of moderate and severe inhalation findings had higher mortality (48.5%) than mild inhalation patients (31.1%). The larger total burnsurface area in inhalation patients, the greater the mortality. When compared to total admitted burn patients during the same period, inhalation patients showed higher mortality in the patients between 10 to 40% total burn surface area. Inhalation patients whose P/F ratio was below 300 showed higher mortality than above 300. But inhalation patients whose COHb level was below 1.5 had no difference in mortality with patients above 1.5. The COHb level and P/F ratio was the statistically different factors between inhalation patients and non-inhalation group in the mortality. CONCLUSION: Bronchoscopic findings, age, TBSA burned, P/F ratio were related with mortality in inhalation patients. When the international standardization of bronchoscopic classification developed, it can be possible to assess the inhalation patients more objectively and that will lead to the advancement in inhalation treatment and research.
Body Surface Area
;
Bronchoscopy
;
Burns
;
Carboxyhemoglobin
;
Humans
;
Inhalation
;
Prognosis
;
Retrospective Studies
10.Factors affecting the determination of the percent carboxyhemoglobin saturation of blood.
Yan JIANG ; Yong-hong YE ; Yi-fan ZHANG
Journal of Forensic Medicine 2003;19(2):88-91
OBJECTIVE:
To investigate factors affecting the determination of the percent carboxyhemoglobin saturation (HbCO%) of blood in an attempt to offer further data for results interpretation and sample storage requirement.
METHODS:
The HbCO% of blood samples stored in various conditions were detected by three spectrophotometries during the succeeding 30 days.
RESULTS:
The data detected by reductive double-wavelength spectrophotometry and double-wavelength spectrophotometry were more stable than mono-wavelength spectrophotometry. The HbCO% of blood was significantly related with the storage conditions which include temperature, time and the degree of exposure to air.
CONCLUSION
Determinations of HbCO% are reliable which performed by reductive double-wavelength spectrophotometry and double-wavelength spectrophotometry, combine with spectral scans. During 30 days, blood stored at 4 degrees C exposed to a limited volume of air does not influence the determination of HbCO%.
Carbon Monoxide Poisoning/diagnosis*
;
Carboxyhemoglobin/analysis*
;
Forensic Medicine
;
Humans
;
Spectrophotometry/methods*
;
Temperature