1.Laboratory diagnosis of tuberculosis using non-immunological tools.
Tuberculosis and Respiratory Diseases 1991;38(3):217-221
No abstract available.
Clinical Laboratory Techniques*
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Tuberculosis*
2.The manpower and the demand for training in basic microbiology technique of centres for preventive medicine in North provinces and cities.
Hieu Van Nguyen ; Anh Duc Dang ; Ly Minh Ho ; Hanh Thuy Tran
Journal of Preventive Medicine 2007;17(5):47-51
Background: In the past decades, preventive medicine had achieved significant success by promoting the effective prevention. However, we were facing with the rising again of dangerous infectious diseases that had been controlled. Ministry of Health had approved the development support project for preventive medicine system to strengthen early detection and control diseases in time. Objectives: To survey the manpower and the demand for training in basic microbiology technique of Centres for preventive medicine. Subjects and method: Technicians of 29 centres for preventive medicine in North provinces were surveyed and the results were studied by the described cross method. Results: Number of technicians graduated difference, fluctuated from 3 to 14 person per unit. The women were 80.4%; men were 19.6%. The staff who have degrees of postgraduate was 5.3%; University graduated was 41.2%; middle-ranking was 53.6%. Their specialities were very different: medicine doctor was 15.2%; biologists were 8.8%. The rest were nurse, technicians convalesce nurse, Medical Public Health...(34.4%). Among the demand for obtain the train in Microbiology, basic and advance labiratory techniques, 19.4% were the requests for training in basic microbiology; 16.4% were for molecular technology; 21.4% were for bacterium isolate technology and 19.4% were for virus technology. Conclusion: The results were the basis of creating a appropriate technical training strategy to contribute to the success of the project.
Clinical Laboratory Techniques
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Education
4.Laboratory Diagnosis of Mycoplasma Infection.
Pediatric Allergy and Respiratory Disease 2006;16(1):23-25
No abstract available.
Clinical Laboratory Techniques*
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Mycoplasma Infections*
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Mycoplasma*
5.A Proposal for Laboratory Workflow Changes for Efficient Tuberculosis Control.
Chang Ki KIM ; Heungsup SUNG ; Yeon Joon PARK ; Chulhun L CHANG
Annals of Clinical Microbiology 2013;16(2):61-68
There are several problems in mycobacterial detection and drug susceptibility testing. One problem is that some test results are unnecessarily delayed because the tests are postponed until patients revisit clinics and pay the cost of the tests. Another problem is that critical and important tests are not requested because patients do not agree with their necessity. These inefficient practices may be due to the fee-for-service policy that the Korean medical insurance system is adopting and because many test methods used for mycobacterial infection have each test codes. Therefore, we propose a new test code encompassing several test items necessary for laboratory diagnosis of mycobacterial infection. This new code enables all necessary tests to be performed sequentially without delay and also prevents performance of unnecessary tests. These changes will help control tuberculosis without any further medical insurance financial input.
Clinical Laboratory Techniques
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Humans
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Insurance
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Tuberculosis
6.An analysis on the clinical applications of in-vitro diagnostic devices from the results of a blind research, and some suggestions.
Ze WANG ; Wei-gang HUANG ; Xin LIU
Chinese Journal of Medical Instrumentation 2006;30(6):446-450
Based on a blind research of in-vitro diagnostic devices in use,this paper analyses the error rates of clinical laboratory items in hospitals of different levels, and gives some advies and suggestions for clinical laboratory administration.
Clinical Laboratory Techniques
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instrumentation
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standards
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utilization
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Humans
8.The development of techniques for liquid level detection in auto clinical laboratory analyzers.
Xianfeng ZHU ; Kuo ZHANG ; Sisi ZENG ; Tao SUN ; Wenhao ZHAO ; Mingshi WANG
Journal of Biomedical Engineering 2010;27(4):949-952
Liquid level detection (LLD) is necessary for eliminating carry-over of needle's outside by limiting the depth the needle probes into liquid in auto clinical laboratory analyzers. This paper listed various demands of liquid-handling system under different situations; reviewed various LLD techniques, such as capacitive, air pressure, mechanical vibration, ultrasound, light reflection, CCD imaging etc.; briefly introduced the working principles, features, and limitation of the LLDs; and recapitulated the characteristics of contact and non-contact LLDs. Lastly, the next generation technique of LLD is prospected.
Automation
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Clinical Laboratory Techniques
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instrumentation
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methods
10.Hypertriglyceridemia: a case report from diagnostic laboratory, Barasat, West Bengal, India.
Utpal Kumar BISWAS ; Arun KUMAR
Asian Pacific Journal of Tropical Biomedicine 2011;1(4):328-329
Hypertriglyceridemia is defined as an abnormal concentration of triglyceride in the blood and has been associated with atherosclerosis, even in the absence of hypercholesterolemia. This case report is of 40-year-old man diagnosed to have hypertriglyceridemia who attended for routine screening in our diagnostic laboratory at Barasat. He was nonsmoker, non-alcoholic, had a reasonable diet with abundant fruits and vegetables, and was on regular exercise. He was not taking any lipid lowering medications. He hailed from Barasat, and was employed in Government sector in Barasat and policeman by profession. His father died at the age of 57 years in a heart attack; but his mother is healthy and now almost 62 years of age, and he has two brothers one elder and another younger to him, both are healthy. His blood pressure was normal, his body-mass index was 27, and his waist circumference was 96 cm and hip circumference was 103. His waist/hip ratio was 0.932. The Biochemical analyses were as follows- Fasting Glucose: 186 mg/dL, Total Cholesterol: 90 mg/dL, Triglycerides: 372 mg/dL, High-density cholesterol: 3.80 mg/dL, Low-density cholesterol: 2.90 mg/dL, VLDL: 83.20 mg/dL, Cholesterol/HDL-C ratio: 23.6:1, LDL-C/HDL-C: 0.07:1. This study revealed the increased prevalence of dyslipidemia to be more prevalent in 31-40 year males, suggesting that this group is at an increased risk of developing CAD leading to young infarcts. Combination lifestyle therapies i.e., enhanced physical activity and dietary modification and therapeutic intervention would help us in the treatment and management of dyslipidemia.
Adult
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Clinical Laboratory Techniques
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Humans
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Hypertriglyceridemia
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diagnosis
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India
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Male