1.Assessing the significance of platelet count to in-vitro hemolytic test by roller pump.
Siwei XU ; Fang CHEN ; Rukun CHEN ; Mingjun DING
Journal of Biomedical Engineering 2002;19(2):297-299
This study was directed at estimating the value of platelet count in the course of in-vitro hemolytic tests by roller pump. Five paired in-vitro tests were conducted using the POLYSTAN pump(group A) and COBE pump(group B). The pumps ran 16 hours. The samples for platelet count and plasma-free hemoglobin were taken before pumping, and every 2 hours after 4 hours of pumping. The 2 groups' platelet count and plasma-free hemoglobin levels were found to be linearly increasing with the hours of pumping and linear regression analysis showed the platelet count and plasma-free hemoglobin were positively correlated. These data suggested that platelet count could be used as an index in evaluating the in-vitro hemolytic properties of blood pumps.
Assisted Circulation
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Hemoglobins
;
analysis
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Hemolysis
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Humans
;
Linear Models
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Platelet Count
4.Meta-analysis of blood system adverse events of Tripterygium wilfordii.
Zhi-xia LI ; Dong-mei MA ; Xing-hua YANG ; Feng SUN ; Kai YU ; Si-yan ZHAN
China Journal of Chinese Materia Medica 2015;40(2):339-345
A systematic review was undertaken, including studies that evaluated the incidence of the blood system adverse events of Tripterygium wilfordii (TWP). Medline, Embase and the Cochrane library were searched for relevant studies, including RCT, cohort studies and case series, of patients treated with TWP published in English and Chinese from inception up until May 25th, 2013 with the keywords including "Tripterygium wilfordii", "toxicity", "reproductive", "side effect", "adverse", "safety" and "tolerability". Relevant information was extracted and the incidence of the blood system adverse events was pooled with MetaAnalyst software. Besides, subgroup and sensitivity analyses were performed based on age, mode of medicine, observation time and disease system. According to inclusion and exclusion criteria, a total of 49 articles were included in the meta-analysis, they were split into 54 researches incorporated in the analysis. There is a large degree of heterogeneity among the studies, so data was analyzed using random-effects model and the summary estimates of incidence of the blood system adverse events was 6.1%. The weighted combined incidence of three major blood system adverse events were white-blood cells decreasing 5.6% (95% CI, 4.3% - 7.3%), hemoglobin decreasing 1.7% (95% CI, 0.5% - 5.0%) and platelet decreasing 1.8% (95% CI, 1.0% - 3.1%), respectively . Sensitivity analyses based on 45 studies with high quality showed the combined value was close to the summary estimate of total 54 studies. The current evidence indicates that the incidence of the blood system adverse events induced by TWP was high; attentions should be paid on to the prevention and treatment of the blood system adverse events.
Blood Cells
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drug effects
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Hemoglobins
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analysis
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Humans
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Tripterygium
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adverse effects
5.Recommendation of a highly sensitive method for measuring hemoglobin in hemolytic test.
Wangping HU ; Yingying HU ; Fuying FENG ; Jinyao HUANG ; Rongsheng ZHANG ; Rongren CHEN ; Changshao ZHOU ; Hailin WANG
Journal of Biomedical Engineering 2007;24(3):664-666
In this paper is recommended a highly sensitive and reagent-safe method to determine plasma heamoglobin (FHb) in viscacha hemolytic test. The 2,4-dichlorophenol method (2,4-DCP) of Trinder reaction has been improved. The performance of 2,4-DCP is verified. The sensitivity of 2,4-DCP is 2.39 times that of phenol method. It is well used with run precision and day-to-day precision. The reaction color is stable. The reference value FHb is 1-36.7 mg/L. Sodium citric is an excellent anticoagulant liquid to keep erythrocyte. The 2,4-DCP method is neither carcinogenic nor poisonous;it is suitable for viscacha hemolytic test in clinical and biomedical engineering.
Chlorophenols
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Coombs Test
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methods
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Hemoglobins
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analysis
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Hemolysis
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Humans
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Sensitivity and Specificity
6.Effect of pre-freezing temperature and lyophilizer shelf temperature on recovery of red blood cells after lyophilization.
Guo-Bo QUAN ; Ying HAN ; Xiu-Zhen LIU ; En-Pu MA ; An LIU ; Peng JIN ; Wei CAO
Journal of Experimental Hematology 2004;12(3):368-371
To study effect of pre-freezing temperature and lyophilizer shelf temperature on recovery of human red blood cells after lyophilization and determine solidifying temperature of this lyophilization system, the protective solution composed of 7% DMSO, 40% polyvinylpyrrolidone (PVP) and isotonic buffer were adopted to lyophilize red blood cells at different pre-freezing temperatures or shelf temperatures. At first, fresh whole blood was centrifugated, washed and equilibrized to prepare concentrated red blood cells. Then concentrated red blood cells were mixed with the protective solution at 1:3 and pre-freezed at different temperature (-20, -35, -45, -80 or -196 degrees C) before lyophilization in lyophilizer. To study effect of shelf temperature on lyophilization of red blood cells, red blood cells were lyophilized at different shelf temperature after pre-freeze at -80 degrees C. After lyophilization, the samples were quickly rehydrated by 37 degrees C rehydration solution. The results showed the recovery rate of red blood cells and hemoglobin after pre-freeze at different temperature and lyophilization were > 85% and > 75%, there was not significant difference among these groups, but the concentration of free hemoglobin in -196 degrees C group was significantly higher than that in other groups (P < 0.01). With decreasing of shelf temperature, the lyophilizing time was also prolonged. When shelf temperature was > or = -25 degrees C, samples were not fully lyophilized; when shelf temperature was < or = -30 degrees C, the recovery rate of red blood cells and hemoglobin after lyophilization and rehydration were above 90%; after washed to isotonic state, the recovery rate of hemoglobin of the four groups was similar to each other. In conclusion, only when pre-freezing temperature is between -20 and -80 degrees C and the lyophilizer shelf temperature is < or = -30 degrees C, the effect of lyophilization is better, but the effect of excessively low pre-freezing temperature may even be worse.
Blood Preservation
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Erythrocytes
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cytology
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Freeze Drying
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Hemoglobins
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analysis
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Humans
;
Temperature
7.Anti-interference hemoglobin analysis system by high performance liquid chromatography.
Yan XU ; Tiantian YAO ; Wenyong HU ; Bo ZHANG ; Xingming GUO
Journal of Biomedical Engineering 2021;38(5):940-950
High performance liquid chromatography (HPLC) is currently the mainstream technology for detecting hemoglobin. Glycated hemoglobin (HbA1c) is a gold indicator for diagnosing diabetes, however, the accuracy of HbA1c test is affected by thalassemia factor hemoglobin F (HbF)/hemoglobin A2 (HbA2) and variant hemoglobin during HPLC analysis. In this study, a new anti-interference hemoglobin analysis system of HPLC is proposed. In this system, the high-pressure three-gradient elution method was improved, and the particle size and sieve plate aperture in the high-pressure chromatography column and the structure of the double-plunger reciprocating series high-pressure pump were optimized. The system could diagnose both HbA1c and thalassemia factor HbF/HbA2 and variant hemoglobin, and the performance of the system was anti-interference and stable. It is expected to achieve industrialization. In this study, the HbA1c and thalassemia factor HbF/HbA2 detection performance was compared between this system and the world's first-line brand products such as Tosoh G8, Bio-Rad Ⅶ and D10 glycosylated hemoglobin analysis system. The results showed that the linear correlation between this system and the world-class system was good. The system is the first domestic hemoglobin analysis system by HPLC for screening of HbA1c and thalassemia factor HbF/HbA2 rapidly and accurately.
Chromatography, High Pressure Liquid
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Fetal Hemoglobin/analysis*
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Glycated Hemoglobin A/analysis*
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Hemoglobin A2/analysis*
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Hemoglobins
8.Hemoglobin Camperdown β104Arg→Ser Detection During Hemoglobin A(1c) Measurement via Capillary Electrophoresis.
Valéry BRUNEL ; Patrick CANEIRO ; Agnès LAHARY ; Guy HUE ; Christian THUILLEZ
Annals of Laboratory Medicine 2016;36(4):375-376
No abstract available.
Aged
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Diabetes Mellitus, Type 2/pathology
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*Electrophoresis, Capillary
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Hemoglobin A, Glycosylated/*analysis
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Hemoglobins, Abnormal/*analysis
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Humans
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Male
9.Development of a Novel Quality Improvement Indicator Based on the Hemolysis Index.
Eun Jin LEE ; Miyoung KIM ; Han Sung KIM ; Min Jeong PARK ; Young Kyung LEE ; Hee Jung KANG
Annals of Laboratory Medicine 2016;36(6):599-602
Hemolysis frequently causes preanalytical errors in laboratory measurements. We aimed to develop a quality improvement indicator for evaluating the extent of inappropriate procedures causing hemolysis in clinical samples collected in medical care units. We defined the threshold value of the hemolysis index (H index) causing significant interference with analyte measurement and analyzed the H index values of clinical samples in relation to the threshold. The H index threshold value causing a 10% bias in the measurement of lactate dehydrogenase was found to be 25. The monthly mean H index and monthly frequency of samples with an H index >25 were significantly different among the types of ward (P=0.001, respectively), and significantly decreased after replacement of a laboratory centrifuge lacking temperature control (20.6±0.58 vs 23.30±1.08, P=0.01; 23.4±1.69% vs 32.6±1.78%, P=0.01). The monthly mean H index and the monthly frequency of samples with an H index above a threshold value may be useful quality improvement indicators for detection of inappropriate procedures in the acquisition and handling of blood samples in medical care units.
Hemoglobins/analysis
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Hemolysis
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Humans
;
L-Lactate Dehydrogenase/analysis
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Laboratories, Hospital/*standards
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Quality Improvement/*standards
;
Specimen Handling
10.Study of N-methylcarbamoylated hemoglobin in blood of being an exposure biomarker of N, N-dimethylformamide.
Weiguo CHEN ; Zheng RUAN ; Chengmin XU ; Yaling QIAN
Chinese Journal of Industrial Hygiene and Occupational Diseases 2014;32(5):361-364
OBJECTIVETo assess the value of blood N-methylcarbamoylated haemoglobin (NMHb) as a biomarker of N, N-dimethylformamide (DMF) exposure.
METHODSSeventy-two DMF processing workers in a synthetic leather factory were included in the DMF exposure group, and 12 workers in a food factory without exposure to DMF were included in the control group. Long-time individual sampling in workplace was performed among 45 workers in the exposure group, accompanied by a questionnaire survey. Blood and urine were collected for the determination of urinary N-methylformamide (NMF), urinary creatinine, and blood NMHb. Air DMF and urinary NMF were determined by gas chromatography. NMHb in blood was degraded to 3-methyl-5-isopropylhydantoin by Edman degradation before it could be determined by gas chromatography/mass spectrometry.
RESULTSAir DMF in workplace and NMF in post-shift urine were both correlated with NMHb in blood, and the respective regression equations were LgNMHb (nmol/g globin) = 0.32×LgDMF (mg/m(3))+1.8 (r = 0.60, P < 0.005), and LgNMHb (nmol/g globin) = 0.47×LgNMF (mg/g Cr) + 1.4 (r = 0.56, P < 0.005).
CONCLUSIONNMHb can be used as a biomarker of long-term exposure to DMF.
Adult ; Biomarkers ; blood ; Dimethylformamide ; analysis ; Hemoglobins ; analysis ; Humans ; Middle Aged ; Occupational Exposure ; Workplace ; Young Adult