BIOMAT Database Logo BIOMAT Database Logo

[Accuracy of measuring nitric oxide by the chemiluminescence: effect of measuring chamber pressure]. 1998

N Sasaki, and Y Tanifuji, and K Miyasaka
Department of Anesthesiology, School of Medicine, Jikei University, Tokyo.

There are two ways of measuring nitric oxide (NO) by chemiluminescence; one reduces pressure in the NO reaction chamber, and the other does not. Devices with a reduced pressure chamber tend to be more accurate, but can be bulky and cumbersome to use. Devices without reduced pressure chamber can be useful because of their smaller size and short warm-up time. We compared the accuracy of two methods by measuring delivered gas concentrations after changing ventilatory parameters. The values of nitric dioxide (NO2) measured varied more widely than those of NO. NO2 measurements were particularly variable with changes in humidity. We consider the accuracy of NO measured by the chemiluminescence devices to be accurate for clinical monitor, but the accuracy of NO2 measurement must be improved to make NO therapy safer.

UI MeSH Term Description Entries
D008163 Luminescent Measurements Techniques used for determining the values of photometric parameters of light resulting from LUMINESCENCE. Bioluminescence Measurements,Bioluminescent Assays,Bioluminescent Measurements,Chemiluminescence Measurements,Chemiluminescent Assays,Chemiluminescent Measurements,Chemoluminescence Measurements,Luminescence Measurements,Luminescent Assays,Luminescent Techniques,Phosphorescence Measurements,Phosphorescent Assays,Phosphorescent Measurements,Assay, Bioluminescent,Assay, Chemiluminescent,Assay, Luminescent,Assay, Phosphorescent,Assays, Bioluminescent,Assays, Chemiluminescent,Assays, Luminescent,Assays, Phosphorescent,Bioluminescence Measurement,Bioluminescent Assay,Bioluminescent Measurement,Chemiluminescence Measurement,Chemiluminescent Assay,Chemiluminescent Measurement,Chemoluminescence Measurement,Luminescence Measurement,Luminescent Assay,Luminescent Measurement,Luminescent Technique,Measurement, Bioluminescence,Measurement, Bioluminescent,Measurement, Chemiluminescence,Measurement, Chemiluminescent,Measurement, Chemoluminescence,Measurement, Luminescence,Measurement, Luminescent,Measurement, Phosphorescence,Measurement, Phosphorescent,Measurements, Bioluminescence,Measurements, Bioluminescent,Measurements, Chemiluminescence,Measurements, Chemiluminescent,Measurements, Chemoluminescence,Measurements, Luminescence,Measurements, Luminescent,Measurements, Phosphorescence,Measurements, Phosphorescent,Phosphorescence Measurement,Phosphorescent Assay,Phosphorescent Measurement,Technique, Luminescent,Techniques, Luminescent
D009569 Nitric Oxide A free radical gas produced endogenously by a variety of mammalian cells, synthesized from ARGININE by NITRIC OXIDE SYNTHASE. Nitric oxide is one of the ENDOTHELIUM-DEPENDENT RELAXING FACTORS released by the vascular endothelium and mediates VASODILATION. It also inhibits platelet aggregation, induces disaggregation of aggregated platelets, and inhibits platelet adhesion to the vascular endothelium. Nitric oxide activates cytosolic GUANYLATE CYCLASE and thus elevates intracellular levels of CYCLIC GMP. Endogenous Nitrate Vasodilator,Mononitrogen Monoxide,Nitric Oxide, Endothelium-Derived,Nitrogen Monoxide,Endothelium-Derived Nitric Oxide,Monoxide, Mononitrogen,Monoxide, Nitrogen,Nitrate Vasodilator, Endogenous,Nitric Oxide, Endothelium Derived,Oxide, Nitric,Vasodilator, Endogenous Nitrate
D012122 Ventilators, Mechanical Mechanical devices used to produce or assist pulmonary ventilation. Mechanical Ventilator,Mechanical Ventilators,Respirators,Ventilators, Pulmonary,Pulmonary Ventilator,Pulmonary Ventilators,Ventilator, Pulmonary,Ventilators,Respirator,Ventilator,Ventilator, Mechanical
D002623 Chemistry Techniques, Analytical Methodologies used for the isolation, identification, detection, and quantitation of chemical substances. Analytical Chemistry Techniques,Analytical Chemistry Methods,Analytical Chemistry Method,Analytical Chemistry Technique,Chemistry Method, Analytical,Chemistry Methods, Analytical,Chemistry Technique, Analytical,Method, Analytical Chemistry,Methods, Analytical Chemistry,Technique, Analytical Chemistry,Techniques, Analytical Chemistry
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D006813 Humidity A measure of the amount of WATER VAPOR in the air. Humidities
D001273 Atmosphere Exposure Chambers Experimental devices used in inhalation studies in which a person or animal is either partially or completely immersed in a chemically controlled atmosphere. Atmosphere Exposure Chamber,Chamber, Atmosphere Exposure,Chambers, Atmosphere Exposure,Exposure Chamber, Atmosphere,Exposure Chambers, Atmosphere
D012680 Sensitivity and Specificity Binary classification measures to assess test results. Sensitivity or recall rate is the proportion of true positives. Specificity is the probability of correctly determining the absence of a condition. (From Last, Dictionary of Epidemiology, 2d ed) Specificity,Sensitivity,Specificity and Sensitivity
D018685 Anesthetics, Inhalation Gases or volatile liquids that vary in the rate at which they induce anesthesia; potency; the degree of circulation, respiratory, or neuromuscular depression they produce; and analgesic effects. Inhalation anesthetics have advantages over intravenous agents in that the depth of anesthesia can be changed rapidly by altering the inhaled concentration. Because of their rapid elimination, any postoperative respiratory depression is of relatively short duration. (From AMA Drug Evaluations Annual, 1994, p173) Inhalation Anesthetic,Inhalation Anesthetics,Anesthetic Gases,Anesthetic, Inhalation,Gases, Anesthetic

Related Publications

N Sasaki, and Y Tanifuji, and K Miyasaka
Assessment of nitric oxide signals by triiodide chemiluminescence.
February 2007, Proceedings of the National Academy of Sciences of the United States of America,
N Sasaki, and Y Tanifuji, and K Miyasaka
Effect of hemolyzed plasma on the batch measurement of nitrate by nitric oxide chemiluminescence.
October 2001, Clinical chemistry,
N Sasaki, and Y Tanifuji, and K Miyasaka
NOR-1: a nitric oxide releasing agent for calibrating low levels of nitric oxide by the chemiluminescence method.
March 2002, Blood coagulation & fibrinolysis : an international journal in haemostasis and thrombosis,
N Sasaki, and Y Tanifuji, and K Miyasaka
Measuring Nitrite and Nitrate, Metabolites in the Nitric Oxide Pathway, in Biological Materials using the Chemiluminescence Method.
December 2016, Journal of visualized experiments : JoVE,
N Sasaki, and Y Tanifuji, and K Miyasaka
Evaluation of nitric oxide synthase activity and inhibition kinetics by chemiluminescence.
August 2000, Nitric oxide : biology and chemistry,
N Sasaki, and Y Tanifuji, and K Miyasaka
Comparison of electrochemical nitric oxide detection methods with chemiluminescence for measuring nitrite concentration in food samples.
October 2019, Analytica chimica acta,
N Sasaki, and Y Tanifuji, and K Miyasaka
Methods for measuring the regulation of respiration by nitric oxide.
January 2007, Methods in cell biology,
N Sasaki, and Y Tanifuji, and K Miyasaka
Nitric oxide regulates the chemiluminescence from stimulated human neutrophils.
November 1995, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica,
N Sasaki, and Y Tanifuji, and K Miyasaka
Nitric oxide (NO) measurement accuracy.
July 1997, Journal of clinical monitoring,
N Sasaki, and Y Tanifuji, and K Miyasaka
Pressure dependence of the ac Stark effect in nitric oxide.
May 1989, Physical review. A, General physics,
Copied contents to your clipboard!