v3 Code System ObservationMethod
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Date2018-08-12T00:00:00+10:00PublisherHL7, IncDescriptionA code that provides additional detail about the means or technique used to ascertain the observation. Examples: Blood pressure measurement method: arterial puncture vs. sphygmomanometer (Riva-Rocci), sitting vs. supine position, etc. OpenIssue: Description copied from Concept Domain of same name. Must be verified. Note that the Domain has a full discussion about use of the attribute and constraining that is not appropriate for the code system description. Needs to be improved.
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Release Date: 2018-08-12
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"div" : "<div xmlns=\"http://www.w3.org/1999/xhtml\">\n <p>Release Date: 2018-08-12</p>\n\n <table class=\"grid\">\n \n <tr>\n <td>\n <b>Level</b>\n </td>\n <td>\n <b>Code</b>\n </td>\n <td>\n <b>Display</b>\n </td>\n <td>\n <b>Definition</b>\n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>\n <span style=\"color: grey\">\n <i>(_DecisionObservationMethod)</i>\n </span> \n <b>\n <i>Abstract</i>\n </b>\n </td>\n <td>\n <a name=\"v3-ObservationMethod-_DecisionObservationMethod\"> </a>\n </td>\n <td>\n Provides codes for decision methods, initially for assessing the causality of events.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> ALGM\n <a name=\"v3-ObservationMethod-ALGM\"> </a>\n </td>\n <td>algorithm</td>\n <td>\n Reaching a decision through the application of an algorithm designed to weigh the different factors involved.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>3</td>\n <td> BYCL\n <a name=\"v3-ObservationMethod-BYCL\"> </a>\n </td>\n <td>bayesian calculation</td>\n <td>\n Reaching a decision through the use of Bayesian statistical analysis.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> GINT\n <a name=\"v3-ObservationMethod-GINT\"> </a>\n </td>\n <td>global introspection</td>\n <td>\n Reaching a decision by consideration of the totality of factors involved in order to reach a judgement.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>\n <span style=\"color: grey\">\n <i>(_GeneticObservationMethod)</i>\n </span> \n <b>\n <i>Abstract</i>\n </b>\n </td>\n <td>\n <a name=\"v3-ObservationMethod-_GeneticObservationMethod\"> </a>\n </td>\n <td>\n A code that provides additional detail about the means or technique used to ascertain the genetic analysis. Example, PCR, Micro Array\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> PCR\n <a name=\"v3-ObservationMethod-PCR\"> </a>\n </td>\n <td>PCR</td>\n <td>\n \n Description: Polymerase Chain Reaction\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>\n <span style=\"color: grey\">\n <i>(_ObservationMethodAggregate)</i>\n </span> \n <b>\n <i>Abstract</i>\n </b>\n </td>\n <td>\n <a name=\"v3-ObservationMethod-_ObservationMethodAggregate\"> </a>\n </td>\n <td>\n Provides additional detail about the aggregation methods used to compute the aggregated values for an observation. This is an abstract code.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> AVERAGE\n <a name=\"v3-ObservationMethod-AVERAGE\"> </a>\n </td>\n <td>average</td>\n <td>\n Average of non-null values in the referenced set of values\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> COUNT\n <a name=\"v3-ObservationMethod-COUNT\"> </a>\n </td>\n <td>count</td>\n <td>\n Count of non-null values in the referenced set of values\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> MAX\n <a name=\"v3-ObservationMethod-MAX\"> </a>\n </td>\n <td>maxima</td>\n <td>\n Largest of all non-null values in the referenced set of values.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> MEDIAN\n <a name=\"v3-ObservationMethod-MEDIAN\"> </a>\n </td>\n <td>median</td>\n <td>\n The median of all non-null values in the referenced set of values.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> MIN\n <a name=\"v3-ObservationMethod-MIN\"> </a>\n </td>\n <td>minima</td>\n <td>\n Smallest of all non-null values in the referenced set of values.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> MODE\n <a name=\"v3-ObservationMethod-MODE\"> </a>\n </td>\n <td>mode</td>\n <td>\n The most common value of all non-null values in the referenced set of values.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> STDEV.P\n <a name=\"v3-ObservationMethod-STDEV.46P\"> </a>\n </td>\n <td>population standard deviation</td>\n <td>\n Standard Deviation of the values in the referenced set of values, computed over the population.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> STDEV.S\n <a name=\"v3-ObservationMethod-STDEV.46S\"> </a>\n </td>\n <td>sample standard deviation</td>\n <td>\n Standard Deviation of the values in the referenced set of values, computed over a sample of the population.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> SUM\n <a name=\"v3-ObservationMethod-SUM\"> </a>\n </td>\n <td>sum</td>\n <td>\n Sum of non-null values in the referenced set of values\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> VARIANCE.P\n <a name=\"v3-ObservationMethod-VARIANCE.46P\"> </a>\n </td>\n <td>population variance</td>\n <td>\n Variance of the values in the referenced set of values, computed over the population.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> VARIANCE.S\n <a name=\"v3-ObservationMethod-VARIANCE.46S\"> </a>\n </td>\n <td>sample variance</td>\n <td>\n Variance of the values in the referenced set of values, computed over a sample of the population.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>\n <span style=\"color: grey\">\n <i>(_VerificationMethod)</i>\n </span> \n <b>\n <i>Abstract</i>\n </b>\n </td>\n <td>\n <a name=\"v3-ObservationMethod-_VerificationMethod\"> </a>\n </td>\n <td/>\n </tr>\n \n <tr>\n <td>2</td>\n <td> VDOC\n <a name=\"v3-ObservationMethod-VDOC\"> </a>\n </td>\n <td>document verification</td>\n <td>\n Verification by means of document.\n <br/>\n\n \n Example: Fax, letter, attachment to e-mail.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> VREG\n <a name=\"v3-ObservationMethod-VREG\"> </a>\n </td>\n <td>registry verification</td>\n <td>\n verification by means of a response to an electronic query\n <br/>\n\n \n Example: query message to a Covered Party registry application or Coverage Administrator.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> VTOKEN\n <a name=\"v3-ObservationMethod-VTOKEN\"> </a>\n </td>\n <td>electronic token verification</td>\n <td>\n Verification by means of electronic token.\n <br/>\n\n \n Example: smartcard, magnetic swipe card, RFID device.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> VVOICE\n <a name=\"v3-ObservationMethod-VVOICE\"> </a>\n </td>\n <td>voice-based verification</td>\n <td>\n Verification by means of voice.\n <br/>\n\n \n Example: By speaking with or calling the Coverage Administrator or Covered Party\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0001\n <a name=\"v3-ObservationMethod-0001\"> </a>\n </td>\n <td>Complement fixation</td>\n <td>\n Complement fixation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0002\n <a name=\"v3-ObservationMethod-0002\"> </a>\n </td>\n <td>Computed axial tomography</td>\n <td>\n Computed axial tomography\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0003\n <a name=\"v3-ObservationMethod-0003\"> </a>\n </td>\n <td>HLAR agar test</td>\n <td>\n Susceptibility, High Level Aminoglycoside Resistance agar test\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0004\n <a name=\"v3-ObservationMethod-0004\"> </a>\n </td>\n <td>Macroscopic observation</td>\n <td>\n Visual, Macroscopic observation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0005\n <a name=\"v3-ObservationMethod-0005\"> </a>\n </td>\n <td>Magnetic resonance</td>\n <td>\n Computed, Magnetic resonance\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0006\n <a name=\"v3-ObservationMethod-0006\"> </a>\n </td>\n <td>Morphometry</td>\n <td>\n Computed, Morphometry\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0007\n <a name=\"v3-ObservationMethod-0007\"> </a>\n </td>\n <td>Positron emission tomography</td>\n <td>\n Computed, Positron emission tomography\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0008\n <a name=\"v3-ObservationMethod-0008\"> </a>\n </td>\n <td>SAMHSA confirmation</td>\n <td>\n SAMHSA drug assay confirmation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0009\n <a name=\"v3-ObservationMethod-0009\"> </a>\n </td>\n <td>SAMHSA screening</td>\n <td>\n SAMHSA drug assay screening\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0010\n <a name=\"v3-ObservationMethod-0010\"> </a>\n </td>\n <td>Serum Neutralization</td>\n <td>\n Serum Neutralization\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0011\n <a name=\"v3-ObservationMethod-0011\"> </a>\n </td>\n <td>Titration</td>\n <td>\n Titration\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0012\n <a name=\"v3-ObservationMethod-0012\"> </a>\n </td>\n <td>Ultrasound</td>\n <td>\n Ultrasound\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0013\n <a name=\"v3-ObservationMethod-0013\"> </a>\n </td>\n <td>X-ray crystallography</td>\n <td>\n X-ray crystallography\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0014\n <a name=\"v3-ObservationMethod-0014\"> </a>\n </td>\n <td>Agglutination</td>\n <td>\n Agglutination\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0015\n <a name=\"v3-ObservationMethod-0015\"> </a>\n </td>\n <td>Buffered acidified plate agglutination</td>\n <td>\n Agglutination, Buffered acidified plate\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0016\n <a name=\"v3-ObservationMethod-0016\"> </a>\n </td>\n <td>Card agglutination</td>\n <td>\n Agglutination, Card\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0017\n <a name=\"v3-ObservationMethod-0017\"> </a>\n </td>\n <td>Hemagglutination</td>\n <td>\n Agglutination, Hemagglutination\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0018\n <a name=\"v3-ObservationMethod-0018\"> </a>\n </td>\n <td>Hemagglutination inhibition</td>\n <td>\n Agglutination, Hemagglutination inhibition\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0019\n <a name=\"v3-ObservationMethod-0019\"> </a>\n </td>\n <td>Latex agglutination</td>\n <td>\n Agglutination, Latex\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0020\n <a name=\"v3-ObservationMethod-0020\"> </a>\n </td>\n <td>Plate agglutination</td>\n <td>\n Agglutination, Plate\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0021\n <a name=\"v3-ObservationMethod-0021\"> </a>\n </td>\n <td>Rapid agglutination</td>\n <td>\n Agglutination, Rapid Plate\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0022\n <a name=\"v3-ObservationMethod-0022\"> </a>\n </td>\n <td>RBC agglutination</td>\n <td>\n Agglutination, RBC\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0023\n <a name=\"v3-ObservationMethod-0023\"> </a>\n </td>\n <td>Rivanol agglutination</td>\n <td>\n Agglutination, Rivanol\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0024\n <a name=\"v3-ObservationMethod-0024\"> </a>\n </td>\n <td>Tube agglutination</td>\n <td>\n Agglutination, Tube\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0025\n <a name=\"v3-ObservationMethod-0025\"> </a>\n </td>\n <td>Bioassay</td>\n <td>\n Bioassay\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0026\n <a name=\"v3-ObservationMethod-0026\"> </a>\n </td>\n <td>Animal Inoculation</td>\n <td>\n Bioassay, Animal Inoculation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0027\n <a name=\"v3-ObservationMethod-0027\"> </a>\n </td>\n <td>Cytotoxicity</td>\n <td>\n Bioassay, Cytotoxicity\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0028\n <a name=\"v3-ObservationMethod-0028\"> </a>\n </td>\n <td>Embryo infective dose 50</td>\n <td>\n Bioassay, Embryo Infective Dose 50\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0029\n <a name=\"v3-ObservationMethod-0029\"> </a>\n </td>\n <td>Embryo lethal dose 50</td>\n <td>\n Bioassay, Embryo Lethal Dose 50\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0030\n <a name=\"v3-ObservationMethod-0030\"> </a>\n </td>\n <td>Mouse intercerebral inoculation</td>\n <td>\n Bioassay, Mouse intercerebral inoculation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0031\n <a name=\"v3-ObservationMethod-0031\"> </a>\n </td>\n <td>Bioassay, qualitative</td>\n <td>\n Bioassay, qualitative\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0032\n <a name=\"v3-ObservationMethod-0032\"> </a>\n </td>\n <td>Bioassay, quantitative</td>\n <td>\n Bioassay, quantitative\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0033\n <a name=\"v3-ObservationMethod-0033\"> </a>\n </td>\n <td>Chemical method</td>\n <td>\n Chemical\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0034\n <a name=\"v3-ObservationMethod-0034\"> </a>\n </td>\n <td>Differential light absorption chemical test</td>\n <td>\n Chemical, Differential light absorption\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0035\n <a name=\"v3-ObservationMethod-0035\"> </a>\n </td>\n <td>Dipstick</td>\n <td>\n Chemical, Dipstick\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0036\n <a name=\"v3-ObservationMethod-0036\"> </a>\n </td>\n <td>Dipstick colorimetric laboratory test</td>\n <td>\n Chemical, Dipstick colorimetric laboratory test\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0037\n <a name=\"v3-ObservationMethod-0037\"> </a>\n </td>\n <td>Test strip</td>\n <td>\n Chemical, Test strip\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0038\n <a name=\"v3-ObservationMethod-0038\"> </a>\n </td>\n <td>Chromatography</td>\n <td>\n Chromatography\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0039\n <a name=\"v3-ObservationMethod-0039\"> </a>\n </td>\n <td>Affinity chromatography</td>\n <td>\n Chromatography, Affinity\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0040\n <a name=\"v3-ObservationMethod-0040\"> </a>\n </td>\n <td>Gas liquid chromatography</td>\n <td>\n Chromatography, Gas liquid\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0041\n <a name=\"v3-ObservationMethod-0041\"> </a>\n </td>\n <td>High performance liquid chromatography</td>\n <td>\n Chromatography, High performance liquid\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0042\n <a name=\"v3-ObservationMethod-0042\"> </a>\n </td>\n <td>Liquid Chromatography</td>\n <td>\n Chromatography, Liquid\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0043\n <a name=\"v3-ObservationMethod-0043\"> </a>\n </td>\n <td>Protein A affinity chromatography</td>\n <td>\n Chromatography, Protein A affinity\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0044\n <a name=\"v3-ObservationMethod-0044\"> </a>\n </td>\n <td>Coagulation</td>\n <td>\n Coagulation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0045\n <a name=\"v3-ObservationMethod-0045\"> </a>\n </td>\n <td>Tilt tube coagulation time</td>\n <td>\n Coagulation, Tilt tube\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0046\n <a name=\"v3-ObservationMethod-0046\"> </a>\n </td>\n <td>Tilt tube reptilase induced coagulation</td>\n <td>\n Coagulation, Tilt tube reptilase induced\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0047\n <a name=\"v3-ObservationMethod-0047\"> </a>\n </td>\n <td>Automated count</td>\n <td>\n Count, Automated\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0048\n <a name=\"v3-ObservationMethod-0048\"> </a>\n </td>\n <td>Manual cell count</td>\n <td>\n Count, Manual\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0049\n <a name=\"v3-ObservationMethod-0049\"> </a>\n </td>\n <td>Platelet count, Rees-Ecker</td>\n <td>\n Count, Platelet, Rees-Ecker\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0050\n <a name=\"v3-ObservationMethod-0050\"> </a>\n </td>\n <td>Aerobic Culture</td>\n <td>\n Culture, Aerobic\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0051\n <a name=\"v3-ObservationMethod-0051\"> </a>\n </td>\n <td>Anaerobic Culture</td>\n <td>\n Culture, Anaerobic\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0052\n <a name=\"v3-ObservationMethod-0052\"> </a>\n </td>\n <td>Chicken embryo culture</td>\n <td>\n Culture, Chicken Embryo\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0053\n <a name=\"v3-ObservationMethod-0053\"> </a>\n </td>\n <td>Delayed secondary enrichment</td>\n <td>\n Culture, Delayed secondary enrichment\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0054\n <a name=\"v3-ObservationMethod-0054\"> </a>\n </td>\n <td>Microaerophilic Culture</td>\n <td>\n Culture, Microaerophilic\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0055\n <a name=\"v3-ObservationMethod-0055\"> </a>\n </td>\n <td>Quantitative microbial culture, cup</td>\n <td>\n Culture, Quantitative microbial, cup\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0056\n <a name=\"v3-ObservationMethod-0056\"> </a>\n </td>\n <td>Quantitative microbial culture, droplet</td>\n <td>\n Culture, Quantitative microbial, droplet\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0057\n <a name=\"v3-ObservationMethod-0057\"> </a>\n </td>\n <td>Quantitative microbial culture, filter paper</td>\n <td>\n Culture, Quantitative microbial, filter paper\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0058\n <a name=\"v3-ObservationMethod-0058\"> </a>\n </td>\n <td>Quantitative microbial culture, pad culture</td>\n <td>\n Culture, Quantitative microbial, pad\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0059\n <a name=\"v3-ObservationMethod-0059\"> </a>\n </td>\n <td>Quantitative microbial culture, pour plate</td>\n <td>\n Culture, Quantitative microbial, pour plate\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0060\n <a name=\"v3-ObservationMethod-0060\"> </a>\n </td>\n <td>Quantitative microbial culture, surface streak</td>\n <td>\n Culture, Quantitative microbial, surface streak\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0061\n <a name=\"v3-ObservationMethod-0061\"> </a>\n </td>\n <td>Somatic Cell culture</td>\n <td>\n Culture, Somatic Cell\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0062\n <a name=\"v3-ObservationMethod-0062\"> </a>\n </td>\n <td>Agar diffusion</td>\n <td>\n Diffusion, Agar\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0063\n <a name=\"v3-ObservationMethod-0063\"> </a>\n </td>\n <td>Agar Gel Immunodiffusion</td>\n <td>\n Diffusion, Agar Gel Immunodiffusion\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0064\n <a name=\"v3-ObservationMethod-0064\"> </a>\n </td>\n <td>Electrophoresis</td>\n <td>\n Electrophoresis\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0065\n <a name=\"v3-ObservationMethod-0065\"> </a>\n </td>\n <td>Agaorse gel electrophoresis</td>\n <td>\n Electrophoresis, Agaorse gel\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0066\n <a name=\"v3-ObservationMethod-0066\"> </a>\n </td>\n <td>Electrophoresis, citrate agar</td>\n <td>\n Electrophoresis, citrate agar\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0067\n <a name=\"v3-ObservationMethod-0067\"> </a>\n </td>\n <td>Immunoelectrophoresis</td>\n <td>\n Electrophoresis, Immuno\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0068\n <a name=\"v3-ObservationMethod-0068\"> </a>\n </td>\n <td>Polyacrylamide gel electrophoresis</td>\n <td>\n Electrophoresis, Polyacrylamide gel\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0069\n <a name=\"v3-ObservationMethod-0069\"> </a>\n </td>\n <td>Starch gel electrophoresis</td>\n <td>\n Electrophoresis, Starch gel\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0070\n <a name=\"v3-ObservationMethod-0070\"> </a>\n </td>\n <td>ELISA</td>\n <td>\n ELISA\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0071\n <a name=\"v3-ObservationMethod-0071\"> </a>\n </td>\n <td>ELISA, antigen capture</td>\n <td>\n ELISA, antigen capture\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0072\n <a name=\"v3-ObservationMethod-0072\"> </a>\n </td>\n <td>ELISA, avidin biotin peroxidase complex</td>\n <td>\n ELISA, avidin biotin peroxidase complex\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0073\n <a name=\"v3-ObservationMethod-0073\"> </a>\n </td>\n <td>Kinetic ELISA</td>\n <td>\n ELISA, Kinetic\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0074\n <a name=\"v3-ObservationMethod-0074\"> </a>\n </td>\n <td>ELISA, peroxidase-antiperoxidase</td>\n <td>\n ELISA, peroxidase-antiperoxidase\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0075\n <a name=\"v3-ObservationMethod-0075\"> </a>\n </td>\n <td>API 20 Strep</td>\n <td>\n Identification, API 20 Strep\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0076\n <a name=\"v3-ObservationMethod-0076\"> </a>\n </td>\n <td>API 20A</td>\n <td>\n Identification, API 20A\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0077\n <a name=\"v3-ObservationMethod-0077\"> </a>\n </td>\n <td>API 20C AUX</td>\n <td>\n Identification, API 20C AUX\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0078\n <a name=\"v3-ObservationMethod-0078\"> </a>\n </td>\n <td>API 20E</td>\n <td>\n Identification, API 20E\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0079\n <a name=\"v3-ObservationMethod-0079\"> </a>\n </td>\n <td>API 20NE</td>\n <td>\n Identification, API 20NE\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0080\n <a name=\"v3-ObservationMethod-0080\"> </a>\n </td>\n <td>API 50 CH</td>\n <td>\n Identification, API 50 CH\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0081\n <a name=\"v3-ObservationMethod-0081\"> </a>\n </td>\n <td>API An-IDENT</td>\n <td>\n Identification, API An-IDENT\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0082\n <a name=\"v3-ObservationMethod-0082\"> </a>\n </td>\n <td>API Coryne</td>\n <td>\n Identification, API Coryne\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0083\n <a name=\"v3-ObservationMethod-0083\"> </a>\n </td>\n <td>API Rapid 20E</td>\n <td>\n Identification, API Rapid 20E\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0084\n <a name=\"v3-ObservationMethod-0084\"> </a>\n </td>\n <td>API Staph</td>\n <td>\n Identification, API Staph\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0085\n <a name=\"v3-ObservationMethod-0085\"> </a>\n </td>\n <td>API ZYM</td>\n <td>\n Identification, API ZYM\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0086\n <a name=\"v3-ObservationMethod-0086\"> </a>\n </td>\n <td>Bacterial identification</td>\n <td>\n Identification, Bacterial\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0087\n <a name=\"v3-ObservationMethod-0087\"> </a>\n </td>\n <td>mini VIDAS</td>\n <td>\n Identification, mini VIDAS\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0088\n <a name=\"v3-ObservationMethod-0088\"> </a>\n </td>\n <td>Phage susceptibility typing</td>\n <td>\n Identification, Phage susceptibility typing\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0089\n <a name=\"v3-ObservationMethod-0089\"> </a>\n </td>\n <td>Quad-FERM+</td>\n <td>\n Identification, Quad-FERM+\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0090\n <a name=\"v3-ObservationMethod-0090\"> </a>\n </td>\n <td>RAPIDEC Staph</td>\n <td>\n Identification, RAPIDEC Staph\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0091\n <a name=\"v3-ObservationMethod-0091\"> </a>\n </td>\n <td>Staphaurex</td>\n <td>\n Identification, Staphaurex\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0092\n <a name=\"v3-ObservationMethod-0092\"> </a>\n </td>\n <td>VIDAS</td>\n <td>\n Identification, VIDAS\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0093\n <a name=\"v3-ObservationMethod-0093\"> </a>\n </td>\n <td>Vitek</td>\n <td>\n Identification, Vitek\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0094\n <a name=\"v3-ObservationMethod-0094\"> </a>\n </td>\n <td>VITEK 2</td>\n <td>\n Identification, VITEK 2\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0095\n <a name=\"v3-ObservationMethod-0095\"> </a>\n </td>\n <td>Immune stain</td>\n <td>\n Immune stain\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0096\n <a name=\"v3-ObservationMethod-0096\"> </a>\n </td>\n <td>Immunofluorescent antibody, direct</td>\n <td>\n Immune stain, Immunofluorescent antibody, direct\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0097\n <a name=\"v3-ObservationMethod-0097\"> </a>\n </td>\n <td>Immunofluorescent antibody, indirect</td>\n <td>\n Immune stain, Immunofluorescent antibody, indirect\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0098\n <a name=\"v3-ObservationMethod-0098\"> </a>\n </td>\n <td>Immunoperoxidase, Avidin-Biotin Complex</td>\n <td>\n Immune stain, Immunoperoxidase, Avidin-Biotin Complex\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0099\n <a name=\"v3-ObservationMethod-0099\"> </a>\n </td>\n <td>Immunoperoxidase, Peroxidase anti-peroxidase complex</td>\n <td>\n Immune stain, Immunoperoxidase, Peroxidase anti-peroxidase complex\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0100\n <a name=\"v3-ObservationMethod-0100\"> </a>\n </td>\n <td>Immunoperoxidase, Protein A-peroxidase complex</td>\n <td>\n Immune stain, Immunoperoxidase, Protein A-peroxidase complex\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0101\n <a name=\"v3-ObservationMethod-0101\"> </a>\n </td>\n <td>Immunoassay</td>\n <td>\n Immunoassay\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0102\n <a name=\"v3-ObservationMethod-0102\"> </a>\n </td>\n <td>Immunoassay, qualitative, multiple step</td>\n <td>\n Immunoassay, qualitative, multiple step\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0103\n <a name=\"v3-ObservationMethod-0103\"> </a>\n </td>\n <td>Immunoassay, qualitative, single step</td>\n <td>\n Immunoassay, qualitative, single step\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0104\n <a name=\"v3-ObservationMethod-0104\"> </a>\n </td>\n <td>Radioimmunoassay</td>\n <td>\n Immunoassay, Radioimmunoassay\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0105\n <a name=\"v3-ObservationMethod-0105\"> </a>\n </td>\n <td>Immunoassay, semi-quantitative, multiple step</td>\n <td>\n Immunoassay, semi-quantitative, multiple step\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0106\n <a name=\"v3-ObservationMethod-0106\"> </a>\n </td>\n <td>Immunoassay, semi-quantitative, single step</td>\n <td>\n Immunoassay, semi-quantitative, single step\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0107\n <a name=\"v3-ObservationMethod-0107\"> </a>\n </td>\n <td>Microscopy</td>\n <td>\n Microscopy\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0108\n <a name=\"v3-ObservationMethod-0108\"> </a>\n </td>\n <td>Darkfield microscopy</td>\n <td>\n Microscopy, Darkfield\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0109\n <a name=\"v3-ObservationMethod-0109\"> </a>\n </td>\n <td>Electron microscopy</td>\n <td>\n Microscopy, Electron\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0110\n <a name=\"v3-ObservationMethod-0110\"> </a>\n </td>\n <td>Electron microscopy tomography</td>\n <td>\n Microscopy, Electron microscopy tomography\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0111\n <a name=\"v3-ObservationMethod-0111\"> </a>\n </td>\n <td>Electron microscopy, negative stain</td>\n <td>\n Microscopy, Electron, negative stain\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0112\n <a name=\"v3-ObservationMethod-0112\"> </a>\n </td>\n <td>Electron microscopy, thick section</td>\n <td>\n Microscopy, Electron, thick section transmission\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0113\n <a name=\"v3-ObservationMethod-0113\"> </a>\n </td>\n <td>Electron microscopy, thin section</td>\n <td>\n Microscopy, Electron, thin section transmission\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0114\n <a name=\"v3-ObservationMethod-0114\"> </a>\n </td>\n <td>Microscopy, Light</td>\n <td>\n Microscopy, Light\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0115\n <a name=\"v3-ObservationMethod-0115\"> </a>\n </td>\n <td>Polarizing light microscopy</td>\n <td>\n Microscopy, Polarized light\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0116\n <a name=\"v3-ObservationMethod-0116\"> </a>\n </td>\n <td>Scanning electron microscopy</td>\n <td>\n Microscopy, Scanning electron\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0117\n <a name=\"v3-ObservationMethod-0117\"> </a>\n </td>\n <td>Transmission electron microscopy</td>\n <td>\n Microscopy, Transmission electron\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0118\n <a name=\"v3-ObservationMethod-0118\"> </a>\n </td>\n <td>Transparent tape direct examination</td>\n <td>\n Microscopy, Transparent tape direct examination\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0119\n <a name=\"v3-ObservationMethod-0119\"> </a>\n </td>\n <td>3 Self-Sustaining Sequence Replication</td>\n <td>\n Molecular, 3 Self-Sustaining Sequence Replication\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0120\n <a name=\"v3-ObservationMethod-0120\"> </a>\n </td>\n <td>Branched Chain DNA</td>\n <td>\n Molecular, Branched Chain DNA\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0121\n <a name=\"v3-ObservationMethod-0121\"> </a>\n </td>\n <td>Hybridization Protection Assay</td>\n <td>\n Molecular, Hybridization Protection Assay\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0122\n <a name=\"v3-ObservationMethod-0122\"> </a>\n </td>\n <td>Immune blot</td>\n <td>\n Molecular, Immune blot\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0123\n <a name=\"v3-ObservationMethod-0123\"> </a>\n </td>\n <td>In-situ hybridization</td>\n <td>\n Molecular, In-situ hybridization\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0124\n <a name=\"v3-ObservationMethod-0124\"> </a>\n </td>\n <td>Ligase Chain Reaction</td>\n <td>\n Molecular, Ligase Chain Reaction\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0125\n <a name=\"v3-ObservationMethod-0125\"> </a>\n </td>\n <td>Ligation Activated Transcription</td>\n <td>\n Molecular, Ligation Activated Transcription\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0126\n <a name=\"v3-ObservationMethod-0126\"> </a>\n </td>\n <td>Nucleic Acid Probe</td>\n <td>\n Molecular, Nucleic Acid Probe\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0128\n <a name=\"v3-ObservationMethod-0128\"> </a>\n </td>\n <td>Nucleic acid probe with amplification</td>\n <td>\n Molecular, Nucleic acid probe with amplification\n <br/>\n\n \n <br/>\n\n Rationale: Duplicate of code 0126. Use code 0126 instead.\n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0129\n <a name=\"v3-ObservationMethod-0129\"> </a>\n </td>\n <td>Nucleic acid probe with target amplification</td>\n <td>\n Molecular, Nucleic acid probe with target amplification\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0130\n <a name=\"v3-ObservationMethod-0130\"> </a>\n </td>\n <td>Nucleic acid reverse transcription</td>\n <td>\n Molecular, Nucleic acid reverse transcription\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0131\n <a name=\"v3-ObservationMethod-0131\"> </a>\n </td>\n <td>Nucleic Acid Sequence Based Analysis</td>\n <td>\n Molecular, Nucleic Acid Sequence Based Analysis\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0132\n <a name=\"v3-ObservationMethod-0132\"> </a>\n </td>\n <td>Polymerase chain reaction</td>\n <td>\n Molecular, Polymerase chain reaction\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0133\n <a name=\"v3-ObservationMethod-0133\"> </a>\n </td>\n <td>Q-Beta Replicase or probe amplification category method</td>\n <td>\n Molecular, Q-Beta Replicase or probe amplification category method\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0134\n <a name=\"v3-ObservationMethod-0134\"> </a>\n </td>\n <td>Restriction Fragment Length Polymorphism</td>\n <td>\n Molecular, Restriction Fragment Length Polymorphism\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0135\n <a name=\"v3-ObservationMethod-0135\"> </a>\n </td>\n <td>Southern Blot</td>\n <td>\n Molecular, Southern Blot\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0136\n <a name=\"v3-ObservationMethod-0136\"> </a>\n </td>\n <td>Strand Displacement Amplification</td>\n <td>\n Molecular, Strand Displacement Amplification\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0137\n <a name=\"v3-ObservationMethod-0137\"> </a>\n </td>\n <td>Transcription Mediated Amplification</td>\n <td>\n Molecular, Transcription Mediated Amplification\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0138\n <a name=\"v3-ObservationMethod-0138\"> </a>\n </td>\n <td>Western Blot</td>\n <td>\n Molecular, Western Blot\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0139\n <a name=\"v3-ObservationMethod-0139\"> </a>\n </td>\n <td>Flocculation</td>\n <td>\n Precipitation, Flocculation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0140\n <a name=\"v3-ObservationMethod-0140\"> </a>\n </td>\n <td>Immune precipitation</td>\n <td>\n Precipitation, Immune precipitation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0141\n <a name=\"v3-ObservationMethod-0141\"> </a>\n </td>\n <td>Milk ring test</td>\n <td>\n Precipitation, Milk ring test\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0142\n <a name=\"v3-ObservationMethod-0142\"> </a>\n </td>\n <td>Precipitin</td>\n <td>\n Precipitation, Precipitin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0143\n <a name=\"v3-ObservationMethod-0143\"> </a>\n </td>\n <td>Acid fast stain</td>\n <td>\n Stain, Acid fast\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0144\n <a name=\"v3-ObservationMethod-0144\"> </a>\n </td>\n <td>Acid fast stain, fluorochrome</td>\n <td>\n Stain, Acid fast, fluorochrome\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0145\n <a name=\"v3-ObservationMethod-0145\"> </a>\n </td>\n <td>Acid fast stain, Kinyoun's cold carbolfuchsin</td>\n <td>\n Stain, Acid fast, Kinyoun's cold carbolfuchsin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0146\n <a name=\"v3-ObservationMethod-0146\"> </a>\n </td>\n <td>Acid fast stain, Ziehl-Neelsen</td>\n <td>\n Stain, Acid fast, Ziehl-Neelsen\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0147\n <a name=\"v3-ObservationMethod-0147\"> </a>\n </td>\n <td>Acid phosphatase stain</td>\n <td>\n Stain, Acid phosphatase\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0148\n <a name=\"v3-ObservationMethod-0148\"> </a>\n </td>\n <td>Acridine orange stain</td>\n <td>\n Stain, Acridine orange\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0149\n <a name=\"v3-ObservationMethod-0149\"> </a>\n </td>\n <td>Active brilliant orange KH stain</td>\n <td>\n Stain, Active brilliant orange KH\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0150\n <a name=\"v3-ObservationMethod-0150\"> </a>\n </td>\n <td>Alazarin red S stain</td>\n <td>\n Stain, Alazarin red S\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0151\n <a name=\"v3-ObservationMethod-0151\"> </a>\n </td>\n <td>Alcian blue stain</td>\n <td>\n Stain, Alcian blue\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0152\n <a name=\"v3-ObservationMethod-0152\"> </a>\n </td>\n <td>Alcian blue with Periodic acid Schiff stain</td>\n <td>\n Stain, Alcian blue with Periodic acid Schiff\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0153\n <a name=\"v3-ObservationMethod-0153\"> </a>\n </td>\n <td>Argentaffin stain</td>\n <td>\n Stain, Argentaffin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0154\n <a name=\"v3-ObservationMethod-0154\"> </a>\n </td>\n <td>Argentaffin silver stain</td>\n <td>\n Stain, Argentaffin silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0155\n <a name=\"v3-ObservationMethod-0155\"> </a>\n </td>\n <td>Azure-eosin stain</td>\n <td>\n Stain, Azure-eosin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0156\n <a name=\"v3-ObservationMethod-0156\"> </a>\n </td>\n <td>Basic Fuschin stain</td>\n <td>\n Stain, Basic Fuschin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0157\n <a name=\"v3-ObservationMethod-0157\"> </a>\n </td>\n <td>Bennhold stain</td>\n <td>\n Stain, Bennhold\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0158\n <a name=\"v3-ObservationMethod-0158\"> </a>\n </td>\n <td>Bennhold's Congo red stain</td>\n <td>\n Stain, Bennhold's Congo red\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0159\n <a name=\"v3-ObservationMethod-0159\"> </a>\n </td>\n <td>Bielschowsky stain</td>\n <td>\n Stain, Bielschowsky\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0160\n <a name=\"v3-ObservationMethod-0160\"> </a>\n </td>\n <td>Bielschowsky's silver stain</td>\n <td>\n Stain, Bielschowsky's silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0161\n <a name=\"v3-ObservationMethod-0161\"> </a>\n </td>\n <td>Bleach stain</td>\n <td>\n Stain, Bleach\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0162\n <a name=\"v3-ObservationMethod-0162\"> </a>\n </td>\n <td>Bodian stain</td>\n <td>\n Stain, Bodian\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0163\n <a name=\"v3-ObservationMethod-0163\"> </a>\n </td>\n <td>Brown-Brenn stain</td>\n <td>\n Stain, Brown-Brenn\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0164\n <a name=\"v3-ObservationMethod-0164\"> </a>\n </td>\n <td>Butyrate-esterase stain</td>\n <td>\n Stain, Butyrate-esterase\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0165\n <a name=\"v3-ObservationMethod-0165\"> </a>\n </td>\n <td>Calcofluor white fluorescent stain</td>\n <td>\n Stain, Calcofluor white fluorescent\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0166\n <a name=\"v3-ObservationMethod-0166\"> </a>\n </td>\n <td>Carbol-fuchsin stain</td>\n <td>\n Stain, Carbol-fuchsin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0167\n <a name=\"v3-ObservationMethod-0167\"> </a>\n </td>\n <td>Carmine stain</td>\n <td>\n Stain, Carmine\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0168\n <a name=\"v3-ObservationMethod-0168\"> </a>\n </td>\n <td>Churukian-Schenk stain</td>\n <td>\n Stain, Churukian-Schenk\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0169\n <a name=\"v3-ObservationMethod-0169\"> </a>\n </td>\n <td>Congo red stain</td>\n <td>\n Stain, Congo red\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0170\n <a name=\"v3-ObservationMethod-0170\"> </a>\n </td>\n <td>Cresyl echt violet stain</td>\n <td>\n Stain, Cresyl echt violet\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0171\n <a name=\"v3-ObservationMethod-0171\"> </a>\n </td>\n <td>Crystal violet stain</td>\n <td>\n Stain, Crystal violet\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0172\n <a name=\"v3-ObservationMethod-0172\"> </a>\n </td>\n <td>De Galantha stain</td>\n <td>\n Stain, De Galantha\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0173\n <a name=\"v3-ObservationMethod-0173\"> </a>\n </td>\n <td>Dieterle silver impregnation stain</td>\n <td>\n Stain, Dieterle silver impregnation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0174\n <a name=\"v3-ObservationMethod-0174\"> </a>\n </td>\n <td>Fite-Farco stain</td>\n <td>\n Stain, Fite-Farco\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0175\n <a name=\"v3-ObservationMethod-0175\"> </a>\n </td>\n <td>Fontana-Masson silver stain</td>\n <td>\n Stain, Fontana-Masson silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0176\n <a name=\"v3-ObservationMethod-0176\"> </a>\n </td>\n <td>Fouchet stain</td>\n <td>\n Stain, Fouchet\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0177\n <a name=\"v3-ObservationMethod-0177\"> </a>\n </td>\n <td>Gomori stain</td>\n <td>\n Stain, Gomori\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0178\n <a name=\"v3-ObservationMethod-0178\"> </a>\n </td>\n <td>Gomori methenamine silver stain</td>\n <td>\n Stain, Gomori methenamine silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0179\n <a name=\"v3-ObservationMethod-0179\"> </a>\n </td>\n <td>Gomori-Wheatly trichrome stain</td>\n <td>\n Stain, Gomori-Wheatly trichrome\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0180\n <a name=\"v3-ObservationMethod-0180\"> </a>\n </td>\n <td>Gridley stain</td>\n <td>\n Stain, Gridley\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0181\n <a name=\"v3-ObservationMethod-0181\"> </a>\n </td>\n <td>Grimelius silver stain</td>\n <td>\n Stain, Grimelius silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0182\n <a name=\"v3-ObservationMethod-0182\"> </a>\n </td>\n <td>Grocott stain</td>\n <td>\n Stain, Grocott\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0183\n <a name=\"v3-ObservationMethod-0183\"> </a>\n </td>\n <td>Grocott methenamine silver stain</td>\n <td>\n Stain, Grocott methenamine silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0184\n <a name=\"v3-ObservationMethod-0184\"> </a>\n </td>\n <td>Hale's colloidal ferric oxide stain</td>\n <td>\n Stain, Hale's colloidal ferric oxide\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0185\n <a name=\"v3-ObservationMethod-0185\"> </a>\n </td>\n <td>Hale's colloidal iron stain</td>\n <td>\n Stain, Hale's colloidal iron\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0186\n <a name=\"v3-ObservationMethod-0186\"> </a>\n </td>\n <td>Hansel stain</td>\n <td>\n Stain, Hansel\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0187\n <a name=\"v3-ObservationMethod-0187\"> </a>\n </td>\n <td>Harris regressive hematoxylin and eosin stain</td>\n <td>\n Stain, Harris regressive hematoxylin and eosin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0188\n <a name=\"v3-ObservationMethod-0188\"> </a>\n </td>\n <td>Hematoxylin and eosin stain</td>\n <td>\n Stain, Hematoxylin and eosin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0189\n <a name=\"v3-ObservationMethod-0189\"> </a>\n </td>\n <td>Highman stain</td>\n <td>\n Stain, Highman\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0190\n <a name=\"v3-ObservationMethod-0190\"> </a>\n </td>\n <td>Holzer stain</td>\n <td>\n Stain, Holzer\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0191\n <a name=\"v3-ObservationMethod-0191\"> </a>\n </td>\n <td>Iron hematoxylin stain</td>\n <td>\n Stain, Iron hematoxylin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0192\n <a name=\"v3-ObservationMethod-0192\"> </a>\n </td>\n <td>Jones stain</td>\n <td>\n Stain, Jones\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0193\n <a name=\"v3-ObservationMethod-0193\"> </a>\n </td>\n <td>Jones methenamine silver stain</td>\n <td>\n Stain, Jones methenamine silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0194\n <a name=\"v3-ObservationMethod-0194\"> </a>\n </td>\n <td>Kossa stain</td>\n <td>\n Stain, Kossa\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0195\n <a name=\"v3-ObservationMethod-0195\"> </a>\n </td>\n <td>Lawson-Van Gieson stain</td>\n <td>\n Stain, Lawson-Van Gieson\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0196\n <a name=\"v3-ObservationMethod-0196\"> </a>\n </td>\n <td>Loeffler methylene blue stain</td>\n <td>\n Stain, Loeffler methylene blue\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0197\n <a name=\"v3-ObservationMethod-0197\"> </a>\n </td>\n <td>Luxol fast blue with cresyl violet stain</td>\n <td>\n Stain, Luxol fast blue with cresyl violet\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0198\n <a name=\"v3-ObservationMethod-0198\"> </a>\n </td>\n <td>Luxol fast blue with Periodic acid-Schiff stain</td>\n <td>\n Stain, Luxol fast blue with Periodic acid-Schiff\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0199\n <a name=\"v3-ObservationMethod-0199\"> </a>\n </td>\n <td>MacNeal's tetrachrome blood stain</td>\n <td>\n Stain, MacNeal's tetrachrome blood\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0200\n <a name=\"v3-ObservationMethod-0200\"> </a>\n </td>\n <td>Mallory-Heidenhain stain</td>\n <td>\n Stain, Mallory-Heidenhain\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0201\n <a name=\"v3-ObservationMethod-0201\"> </a>\n </td>\n <td>Masson trichrome stain</td>\n <td>\n Stain, Masson trichrome\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0202\n <a name=\"v3-ObservationMethod-0202\"> </a>\n </td>\n <td>Mayer mucicarmine stain</td>\n <td>\n Stain, Mayer mucicarmine\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0203\n <a name=\"v3-ObservationMethod-0203\"> </a>\n </td>\n <td>Mayers progressive hematoxylin and eosin stain</td>\n <td>\n Stain, Mayers progressive hematoxylin and eosin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0204\n <a name=\"v3-ObservationMethod-0204\"> </a>\n </td>\n <td>May-Grunwald Giemsa stain</td>\n <td>\n Stain, May-Grunwald Giemsa\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0205\n <a name=\"v3-ObservationMethod-0205\"> </a>\n </td>\n <td>Methyl green stain</td>\n <td>\n Stain, Methyl green\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0206\n <a name=\"v3-ObservationMethod-0206\"> </a>\n </td>\n <td>Methyl green pyronin stain</td>\n <td>\n Stain, Methyl green pyronin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0207\n <a name=\"v3-ObservationMethod-0207\"> </a>\n </td>\n <td>Modified Gomori-Wheatly trichrome stain</td>\n <td>\n Stain, Modified Gomori-Wheatly trichrome\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0208\n <a name=\"v3-ObservationMethod-0208\"> </a>\n </td>\n <td>Modified Masson trichrome stain</td>\n <td>\n Stain, Modified Masson trichrome\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0209\n <a name=\"v3-ObservationMethod-0209\"> </a>\n </td>\n <td>Modified trichrome stain</td>\n <td>\n Stain, Modified trichrome\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0210\n <a name=\"v3-ObservationMethod-0210\"> </a>\n </td>\n <td>Movat pentachrome stain</td>\n <td>\n Stain, Movat pentachrome\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0211\n <a name=\"v3-ObservationMethod-0211\"> </a>\n </td>\n <td>Mucicarmine stain</td>\n <td>\n Stain, Mucicarmine\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0212\n <a name=\"v3-ObservationMethod-0212\"> </a>\n </td>\n <td>Neutral red stain</td>\n <td>\n Stain, Neutral red\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0213\n <a name=\"v3-ObservationMethod-0213\"> </a>\n </td>\n <td>Night blue stain</td>\n <td>\n Stain, Night blue\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0214\n <a name=\"v3-ObservationMethod-0214\"> </a>\n </td>\n <td>Non-specific esterase stain</td>\n <td>\n Stain, Non-specific esterase\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0215\n <a name=\"v3-ObservationMethod-0215\"> </a>\n </td>\n <td>Oil red-O stain</td>\n <td>\n Stain, Oil red-O\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0216\n <a name=\"v3-ObservationMethod-0216\"> </a>\n </td>\n <td>Orcein stain</td>\n <td>\n Stain, Orcein\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0217\n <a name=\"v3-ObservationMethod-0217\"> </a>\n </td>\n <td>Perls' stain</td>\n <td>\n Stain, Perls'\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0218\n <a name=\"v3-ObservationMethod-0218\"> </a>\n </td>\n <td>Phosphotungstic acid-hematoxylin stain</td>\n <td>\n Stain, Phosphotungstic acid-hematoxylin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0219\n <a name=\"v3-ObservationMethod-0219\"> </a>\n </td>\n <td>Potassium ferrocyanide stain</td>\n <td>\n Stain, Potassium ferrocyanide\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0220\n <a name=\"v3-ObservationMethod-0220\"> </a>\n </td>\n <td>Prussian blue stain</td>\n <td>\n Stain, Prussian blue\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0221\n <a name=\"v3-ObservationMethod-0221\"> </a>\n </td>\n <td>Putchler modified Bennhold stain</td>\n <td>\n Stain, Putchler modified Bennhold\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0222\n <a name=\"v3-ObservationMethod-0222\"> </a>\n </td>\n <td>Quinacrine fluorescent stain</td>\n <td>\n Stain, Quinacrine fluorescent\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0223\n <a name=\"v3-ObservationMethod-0223\"> </a>\n </td>\n <td>Reticulin stain</td>\n <td>\n Stain, Reticulin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0224\n <a name=\"v3-ObservationMethod-0224\"> </a>\n </td>\n <td>Rhodamine stain</td>\n <td>\n Stain, Rhodamine\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0225\n <a name=\"v3-ObservationMethod-0225\"> </a>\n </td>\n <td>Safranin stain</td>\n <td>\n Stain, Safranin\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0226\n <a name=\"v3-ObservationMethod-0226\"> </a>\n </td>\n <td>Schmorl stain</td>\n <td>\n Stain, Schmorl\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0227\n <a name=\"v3-ObservationMethod-0227\"> </a>\n </td>\n <td>Seiver-Munger stain</td>\n <td>\n Stain, Seiver-Munger\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0228\n <a name=\"v3-ObservationMethod-0228\"> </a>\n </td>\n <td>Silver stain</td>\n <td>\n Stain, Silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0229\n <a name=\"v3-ObservationMethod-0229\"> </a>\n </td>\n <td>Specific esterase stain</td>\n <td>\n Stain, Specific esterase\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0230\n <a name=\"v3-ObservationMethod-0230\"> </a>\n </td>\n <td>Steiner silver stain</td>\n <td>\n Stain, Steiner silver\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0231\n <a name=\"v3-ObservationMethod-0231\"> </a>\n </td>\n <td>Sudan III stain</td>\n <td>\n Stain, Sudan III\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0232\n <a name=\"v3-ObservationMethod-0232\"> </a>\n </td>\n <td>Sudan IVI stain</td>\n <td>\n Stain, Sudan IVI\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0233\n <a name=\"v3-ObservationMethod-0233\"> </a>\n </td>\n <td>Sulfated alcian blue stain</td>\n <td>\n Stain, Sulfated alcian blue\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0234\n <a name=\"v3-ObservationMethod-0234\"> </a>\n </td>\n <td>Supravital stain</td>\n <td>\n Stain, Supravital\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0235\n <a name=\"v3-ObservationMethod-0235\"> </a>\n </td>\n <td>Thioflavine-S stain</td>\n <td>\n Stain, Thioflavine-S\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0236\n <a name=\"v3-ObservationMethod-0236\"> </a>\n </td>\n <td>Three micron Giemsa stain</td>\n <td>\n Stain, Three micron Giemsa\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0237\n <a name=\"v3-ObservationMethod-0237\"> </a>\n </td>\n <td>Vassar-Culling stain</td>\n <td>\n Stain, Vassar-Culling\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0238\n <a name=\"v3-ObservationMethod-0238\"> </a>\n </td>\n <td>Vital Stain</td>\n <td>\n Stain, Vital\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0239\n <a name=\"v3-ObservationMethod-0239\"> </a>\n </td>\n <td>von Kossa stain</td>\n <td>\n Stain, von Kossa\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0243\n <a name=\"v3-ObservationMethod-0243\"> </a>\n </td>\n <td>Minimum bactericidal concentration test, macrodilution</td>\n <td>\n Susceptibility, Minimum bactericidal concentration, macrodilution\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0244\n <a name=\"v3-ObservationMethod-0244\"> </a>\n </td>\n <td>Minimum bactericidal concentration test, microdilution</td>\n <td>\n Susceptibility, Minimum bactericidal concentration, microdilution\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0247\n <a name=\"v3-ObservationMethod-0247\"> </a>\n </td>\n <td>Turbidometric</td>\n <td>\n Turbidometric\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0248\n <a name=\"v3-ObservationMethod-0248\"> </a>\n </td>\n <td>Refractometric</td>\n <td>\n Turbidometric, Refractometric\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0249\n <a name=\"v3-ObservationMethod-0249\"> </a>\n </td>\n <td>Thin layer chromatography (TLC)</td>\n <td>\n Chromatography, Thin Layer\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0250\n <a name=\"v3-ObservationMethod-0250\"> </a>\n </td>\n <td>EMIT</td>\n <td>\n Immunoassay, enzyme-multiplied technique (EMIT)\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0251\n <a name=\"v3-ObservationMethod-0251\"> </a>\n </td>\n <td>Flow cytometry (FC)</td>\n <td>\n Flow Cytometry\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0252\n <a name=\"v3-ObservationMethod-0252\"> </a>\n </td>\n <td>Radial immunodiffusion (RID)</td>\n <td>\n Radial Immunodiffusion\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0253\n <a name=\"v3-ObservationMethod-0253\"> </a>\n </td>\n <td>Fluorescence polarization immunoassay (FPIA)</td>\n <td>\n Immunoassay, Fluorescence Polarization\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0254\n <a name=\"v3-ObservationMethod-0254\"> </a>\n </td>\n <td>Immunofixation electrophoresis (IFE)</td>\n <td>\n Electrophoresis, Immunofixation\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0255\n <a name=\"v3-ObservationMethod-0255\"> </a>\n </td>\n <td>Equilibrium dialysis</td>\n <td>\n Dialysis, Direct Equilibrium\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0256\n <a name=\"v3-ObservationMethod-0256\"> </a>\n </td>\n <td>Kleihauer-Betke acid elution</td>\n <td>\n Acid Elution, Kleihauer-Betke Method\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0257\n <a name=\"v3-ObservationMethod-0257\"> </a>\n </td>\n <td>Anti-complement immunofluorescence (ACIF)</td>\n <td>\n Immunofluorescence, Anti-Complement\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0258\n <a name=\"v3-ObservationMethod-0258\"> </a>\n </td>\n <td>GC/MS</td>\n <td>\n Gas Chromatography/Mass Spectroscopy\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0259\n <a name=\"v3-ObservationMethod-0259\"> </a>\n </td>\n <td>Nephelometry</td>\n <td>\n Light Scatter, Nephelometry\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0260\n <a name=\"v3-ObservationMethod-0260\"> </a>\n </td>\n <td>IgE immunoassay antibody</td>\n <td>\n Immunoassay, IgE Antibody Test\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0261\n <a name=\"v3-ObservationMethod-0261\"> </a>\n </td>\n <td>Lymphocyte Microcytotoxicity Assay</td>\n <td>\n Lymphocyte Microcytotoxicity Assay\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0262\n <a name=\"v3-ObservationMethod-0262\"> </a>\n </td>\n <td>Spectrophotometry</td>\n <td>\n Spectrophotometry\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0263\n <a name=\"v3-ObservationMethod-0263\"> </a>\n </td>\n <td>Atomic absorption spectrophotometry (AAS)</td>\n <td>\n Spectrophotometry, Atomic Absorption\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0264\n <a name=\"v3-ObservationMethod-0264\"> </a>\n </td>\n <td>Ion selective electrode (ISE)</td>\n <td>\n Electrochemical, Ion Selective Electrode\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0265\n <a name=\"v3-ObservationMethod-0265\"> </a>\n </td>\n <td>Gas chromatography (GC)</td>\n <td>\n Chromatography, Gas\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0266\n <a name=\"v3-ObservationMethod-0266\"> </a>\n </td>\n <td>Isoelectric focusing (IEF)</td>\n <td>\n Isoelectric Focusing\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0267\n <a name=\"v3-ObservationMethod-0267\"> </a>\n </td>\n <td>Immunochemiluminescence</td>\n <td>\n Immunoassay, Chemiluminescent\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0268\n <a name=\"v3-ObservationMethod-0268\"> </a>\n </td>\n <td>Microparticle enzyme immunoassay (MEIA)</td>\n <td>\n Immunoassay, Microparticle Enzyme\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0269\n <a name=\"v3-ObservationMethod-0269\"> </a>\n </td>\n <td>ICP/MS</td>\n <td>\n Inductively-Coupled Plasma/Mass Spectrometry\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0270\n <a name=\"v3-ObservationMethod-0270\"> </a>\n </td>\n <td>Immunoradiometric assay (IRMA)</td>\n <td>\n Immunoassay, Immunoradiometric Assay\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0271\n <a name=\"v3-ObservationMethod-0271\"> </a>\n </td>\n <td>Photo optical clot detection</td>\n <td>\n Coagulation, Photo Optical Clot Detection\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0280\n <a name=\"v3-ObservationMethod-0280\"> </a>\n </td>\n <td>Susceptibility Testing</td>\n <td>\n Test methods designed to determine a microorganismaTMs susceptibility to being killed by an antibiotic.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0240\n <a name=\"v3-ObservationMethod-0240\"> </a>\n </td>\n <td>Antibiotic sensitivity, disk</td>\n <td>\n Susceptibility, Antibiotic sensitivity, disk\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0241\n <a name=\"v3-ObservationMethod-0241\"> </a>\n </td>\n <td>BACTEC susceptibility test</td>\n <td>\n Susceptibility, BACTEC susceptibility test\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0242\n <a name=\"v3-ObservationMethod-0242\"> </a>\n </td>\n <td>Disk dilution</td>\n <td>\n Susceptibility, Disk dilution\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0272\n <a name=\"v3-ObservationMethod-0272\"> </a>\n </td>\n <td>Minimum Inhibitory Concentration</td>\n <td>\n Testing to measure the minimum concentration of the antibacterial agent in a given culture medium below which bacterial growth is not inhibited.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>3</td>\n <td> 0245\n <a name=\"v3-ObservationMethod-0245\"> </a>\n </td>\n <td>Minimum Inhibitory Concentration, macrodilution</td>\n <td>\n Susceptibility, Minimum Inhibitory concentration, macrodilution\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>3</td>\n <td> 0246\n <a name=\"v3-ObservationMethod-0246\"> </a>\n </td>\n <td>Minimum Inhibitory Concentration, microdilution</td>\n <td>\n Susceptibility, Minimum Inhibitory concentration, microdilution\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0273\n <a name=\"v3-ObservationMethod-0273\"> </a>\n </td>\n <td>Viral Genotype Susceptibility</td>\n <td/>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0274\n <a name=\"v3-ObservationMethod-0274\"> </a>\n </td>\n <td>Viral Phenotype Susceptibility</td>\n <td/>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0275\n <a name=\"v3-ObservationMethod-0275\"> </a>\n </td>\n <td>Gradient Strip</td>\n <td/>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0275a\n <a name=\"v3-ObservationMethod-0275a\"> </a>\n </td>\n <td>Minimum Lethal Concentration (MLC)</td>\n <td/>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0276\n <a name=\"v3-ObservationMethod-0276\"> </a>\n </td>\n <td>Slow Mycobacteria Susceptibility</td>\n <td>\n Testing to measure the minimum concentration of the antibacterial agent in a given culture medium below which bacterial growth is not inhibited.\n <br/>\n\n \n </td>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0277\n <a name=\"v3-ObservationMethod-0277\"> </a>\n </td>\n <td>Serum bactericidal titer</td>\n <td/>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0278\n <a name=\"v3-ObservationMethod-0278\"> </a>\n </td>\n <td>Agar screen</td>\n <td/>\n </tr>\n \n <tr>\n <td>2</td>\n <td> 0279\n <a name=\"v3-ObservationMethod-0279\"> </a>\n </td>\n <td>Disk induction</td>\n <td/>\n </tr>\n \n <tr>\n <td>1</td>\n <td>0127\n <a name=\"v3-ObservationMethod-0127\"> </a>\n </td>\n <td>Nucleic acid probe</td>\n <td>\n Molecular, Nucleic acid probe\n <br/>\n\n \n </td>\n </tr>\n\n </table>\n\n </div>",
"status" : "generated"
}
}