Introduction To The Clinical Laboratory

Front 1

WHAT ARE THE COMPONENTS THAT EVERY LAB HAS

Back 1

SINK
STORAGE SPACE
ELECTRICAL SUPPLY
INTERNET ACCESS

Front 2

WHAT IS THE PURPOSE OF THE SINK IN THE LAB

Back 2

RINSE, DRAIN, OR STAIN SPECIMENS AND REAGENTS AND TO DISCARD FLUIDS

Front 3

IN EVERY VETERINARY PRACTICE WHAT SHOULD BE PARAMOUNT

Back 3

CAUTION

Front 4

BEARS LEGAL AND ETHICAL RESPONSIBILITIES THAT HAVE INCREASED SUBSTANTIALLY IN RECENT DECADES

Back 4

HANDLING AND DISPOSING OF HAZARDOUS LABORATORY MATERIALS

Front 5

SHOULD ALL CHEMICALS OR SPECIMENS BE PUT DOWN THE SINK DRAIN

Back 5

NO;
IT COULD BE HAZARDOUS

Front 6

WHY DO YOU NEED ADEQUATE STORAGE IN THE LAB

Back 6

TO AVOID CLUTTER ON THE COUNTER;
NEEDED SUPPLIES ARE LOCATED BY YOU WHERE YOU NEED THEM

Front 7

WHY DO YOU NEED TO PLACE ELECTRICAL EQUIPMENT CAREFULLY

Back 7

YOU DON'T WANT TO OVERLOAD THE CIRCUITS

Front 8

WHY DO YOU NEED INTERNET ACCESS IN THE LAB

Back 8

SO YOU CAN FAX OR E-MAIL CRITICAL RESULTS OF THE SUBMITTED DIAGNOSTIC TESTS

Front 9

WHAT IS THE PURPOSE OF HAVING A DIGITAL CAMERA ATTACHMENT FOR THE COMPOUND MICROSCOPE

Back 9

YOU CAN SEND THE PHOTOGRAPHIC IMAGE OF SCANNED MICROSCOPIC IMAGES OF BLOOD SMEARS OR URINE SEDIMENTS AS AN E-MAIL ATTACHMENT TO AN OUTSIDE REFERENCE LAB FOR DIAGNOSTIC ASSISTANCE

Front 10

WHAT MANDATES SPECIFIC LABORATORY PRACTICES THAT MUST BE INCORPORATED INTO THE LABORATORY SAFETY POLICY

Back 10

OSHA
OCCUPATIONAL SAFETY AND HEALTH ADMINISTRATION

Front 11

WHAT ARE THE 7 EVALUATION CRITERIA FOR INTERNET SOURCES

Back 11

AUTHORITY
AFFILIATION
CURRENCY;
PURPOSE;
AUDIENCE;
COMPARISON;
CONCLUSION

Front 12

WHAT SHOULD BE INCLUDED IN THE SAFETY POLICY

Back 12

PROCEDURES AND PRECAUTIONS FOR USE AND MAINTENANCE OF EQUIPMENT

Front 13

WHAT SAFETY EQUIPMENT AND SUPPLIES MUST BE MADE AVAILABLE

Back 13

EYEWASH STATIONS;
FIRE EXTINGUISHERS;
SPILL CLEAN-UP KITS;
HAZARDOUS AND BIO-HAZARD WASTE DISPOSAL CONTAINERS;
PROTECTIVE GLOVES

Front 14

WHAT IS PROHIBITED IN THE LAB

Back 14

EATING;
DRINKING;
APPLYING;
COSMETICS;
ADJUSTING CONTACT LENSES

Front 15

WHERE SHOULD THE SAFETY POLICIES BE LOCATED

Back 15

WITHIN THE CLINICAL LABORATORY AREA

Front 16

YOU MEASURE THE LENGTH BY WHAT UNIT

Back 16

METER

Front 17

YOU MEASURE MASS BY WHAT UNIT

Back 17

GRAM

Front 18

YOU MEASURE VOLUME BY WHAT UNIT

Back 18

LITER

Front 19

TO PREPARE A 1:10 DILUTION OF A PATIENT SAMPLE WHAT DO YOU COMBINE

Back 19

10 MICROLITERS (UL) OF SAMPLE WITH 90 UL OF DISTILLED WATER

Front 20

WHAT DO USE THE MICROSCOPE FOR

Back 20

EVALUATE BLOOD;
URINE;
SEMEN;EXUDATES;
TRANSUDATES;
OTHER BODY FLUIDS;
FECES;
INTERNAL PARASITES;
EXTERNAL PARASITES; AND
CHARACTERIZE BACTERIA

Front 21

WHAT IS A COMPOUND LIGHT MICROSCOPE

Back 21

IT GENERATES AN IMAGE BY USING A COMBINATION OF LENSES

Front 22

WHAT IS THE OPTICAL TUBE LENGTH

Back 22

IT IS THE DISTANCE BETWEEN THE OBJECTIVE LENS AND THE EYEPIECE

Front 23

WHAT IS THE USUAL DISTANCE OF THE OPTICAL TUBE LENGTH

Back 23

160MM

Front 24

WHAT IS THE MECHANICAL STAGE

Back 24

HOLDS A GLASS SLIDE TO BE EVALUATED

Front 25

WHAT IS THE COARSE AND FINE FOCUS KNOBS USED FOR

Back 25

TO FOCUS THE IMAGE OF THE OBJECT BEING VIEWED

Front 26

WHAT ARE THE 2 SEPARATE LENS SYSTEMS THAT THE COMPOUND LIGHT MICROSCOPE CONSIST OF

Back 26

OCULAR SYSTEM
AND
OBJECTIVE SYSTEM

Front 27

WHERE ARE THE OCULAR LENSES LOCATED

Back 27

IN THE EYEPIECES

Front 28

WHAT IS THE MAGNIFICATION OF THE OCULAR LENSES

Back 28

10X

Front 29

WHAT DOES 10X MEAN

Back 29

IT M AN OBJECT 10 TIMES

Front 30

HOW MANY EYEPIECES DOES A MONOCULAR MICROSCOPE HAVE

Back 30

1

Front 31

HOW MANY EYEPIECES DOES A BINOCULAR MICROSCOPE HAVE

Back 31

2

Front 32

HOW MANY EYEPIECES DOES A COMPOUND LIGHT MICROSCOPE HAVE

Back 32

3 OR 4

Front 33

WHAT ARE THE MOST COMMON OBJECTIVE LENSES

Back 33

4X;
10X;
40X;
100X

Front 34

THE OBJECTIVE HAS AN OPTIONAL 5TH LENS OF WHAT

Back 34

50X

Front 35

IN THE OBJECTIVE LENS WHAT IS THE 4X LENS

Back 35

SCANNING

Front 36

IN THE OBJECTIVE LENS WHAT IS THE 10X

Back 36

LOW POWER

Front 37

IN THE OBJECTIVE LENS WHAT IS THE 40X

Back 37

HIGH DRY

Front 38

IN THE OBJECTIVE LENS WHAT IS THE 100X

Back 38

OIL IMMERSION

Front 39

IN THE OBJECTIVE LENS WHAT IS THE 50X

Back 39

LOW OIL IMMERSION

Front 40

HOW DO YOU FIGURE OUT TOTAL MAGNIFICATION OF AN OBJECT BEING VIEWED

Back 40

MULTIPLY THE OCULAR MAGNIFICATION POWER AND THE OBJECTIVE MAGNIFICATION POWER;
EX. AN OBJECT VIEWED UNDER THE 40X OBJECTIVE THROUGH A 10X OCULAR LENS, IT IS 400 TIMES LARGER IN DIAMETER THAN THE UNMAGNIFIED OBJECT

Front 41

WHAT DOES THE MICROSCOPE HEAD SUPPORT

Back 41

OCULAR LENS

Front 42

WHICH HEAD IS NEEDED FOR NEARLY ALL ROUTINE LABORATORY EVALUATIONS

Back 42

BINOCULAR

Front 43

WHICH HEAD ARE USED FOR TRAINING PURPOSES OR CLIENT EDUCATION

Back 43

TRINOCULAR

Front 44

WHICH OCULARS ARE BEST FOR PEOPLE WHO PREFER TO WEAR THEIR GLASSES WHILE USING THE MICROSCOPE

Back 44

HIGH EYEPOINT

Front 45

WHICH OBJECTIVES PROVIDE A LARGER VISUAL FIELD AREA THAN THE STANDARD TYPE

Back 45

WIDE-FIELD

Front 46

WHAT IS THE MOST IMPORTANT COMPONENT OF THE MICROSCOPE

Back 46

OBJECTIVE LENSES

Front 47

WHAT ARE THE 3 TYPES OF OBJECTIVE LENSES

Back 47

ACHROMATIC;
SEMIAPOCHROMATIC;
APOCHROMATIC

Front 48

WHICH OBJECTIVE LENSES ARE USED FOR RESEARCH AND PHOTOMICROGRAPHY

Back 48

SEMIAPOCHROMATIC
AND
APOCHROMATIC

Front 49

WHICH OBJECTIVE LENS IS ALSO KNOWN AS FLAT FIELD

Back 49

ACHROMATIC LENS

Front 50

WHICH OBJECTIVE LENS PROVIDES A MORE UNIFORM FIELD OF FOCUS FROM THE CENTER TO THE PERIPHERY OF THE MICROSCOPIC IMAGE

Back 50

ACHROMATIC

Front 51

WHAT IS THE RESOLVING POWER OF THE MICROSCOPE THAT IS AN INDICATOR OF IMAGE QUALITY

Back 51

NUMERICAL APERTURE (NA)

Front 52

WHAT IS THE MOST COMMON TYPE OF CONDENSER

Back 52

TWO-LENS ABBE

Front 53

SHOULD THE NA OF THE CONDENSER BE LESS THAN THE NA OF THE HIGHEST POWER

Back 53

NO, IT SHOULD BE EQUAL TO OR GREATER THAN THE NA OF THE HIGHEST POWER OBJECTIVE

Front 54

HOW MANY LENSES DOES THE SUBSTAGE CONDENSER CONSIST OF

Back 54

2

Front 55

IF YOU DIDN'T HAVE A SUBSTAGE CONDENSER WHAT WOULD APPEAR AROUND THE OBJECT

Back 55

HALOES AND FUZZY RINGS

Front 56

WHAT KIND OF LIGHT SOURCE ARE FOUND ON THE COMPOUND LIGHT MICROSCOPE

Back 56

LOW-VOLTAGE TUNGSTEN LAMPS OR HIGHER QUALITY QUARTZ-HALOGEN LAMPS

Front 57

WHAT SHOULD THE LIGHT SOURCE HAVE TO ADJUST INTENSITY

Back 57

RHEOSTAT

Front 58

EXCESS OIL MAY REQUIRE THE USE OF WHAT FOR CLEANING

Back 58

XYLENE

Front 59

IT MAY DISOLVE SOME OF THE ADHESIVES USED TO SECURE THE OBJECTIVE LENSES AND MUST BE USE SPARINGLY

Back 59

XYLENE

Front 60

THEY ARE FLAMMABLE AND TOXIC

Back 60

XYLENE AND METHANOL

Front 61

WHAT IS A MICROSCOPE SLIDE ETCHED WITH A 2-MM LINE MARKED IN 0.01-MM
(10-M) DIVISIONS

Back 61

STAGE MICROMETER

Front 62

WHAT IS THE GLASS DISK THAT FITS INTO 1 OFTHE MICROSCOPE EYEPIECES

Back 62

OCULAR MICROMETER

Front 63

THE OCULAR MICROMETER IS SOMETIMES REFERRED TO WHAT

Back 63

RETICLE

Front 64

WHAT IS THE CENTRIFUGE USED FOR

Back 64

TO SEPARATE SUBSTANCES OF DIFFERENT DENSITIES THAT ARE IN A SOLUTION

Front 65

IF SOLID AND LIQUID COMPONENTS ARE PRESENT IN THE SAMPLE, WHAT IS THE LIQUID PORTION REFERRED TO AS

Back 65

SUPERNATANT

Front 66

WHEN SOLID AND LIQUID COMPONENTS ARE PRESENT IN THE SAMPLE, WHAT IS THE SOLID PORTION REFERRED TO AS

Back 66

SEDIMENT

Front 67

CAN THE SUPERNATANT, SUCH AS PLASMA OR SERUM FROM A BLOOD SAMPLE BE REMOVED FROM THE SEDIMENT AND STORED, SHIPPED, OR ANALYZED

Back 67

YES

Front 68

WHAT DOES THE MICROHEMATOCRIT CENTRIFUGE DESIGNED TO HOLD

Back 68

CAPILLARY TUBES

Front 69

WHAT DOES A CLINICAL CENTRIFUGE ACCOMODATE

Back 69

TEST TUBES OF VARYING SIZES

Front 70

WHAT ARE THE 2 TYPES OF CLINICAL CENTRIFUGES

Back 70

HORIZONTAL HEAD
OR
ANGLED CENTRIFUGE HEAD

Front 71

WHAT DEGREES IS THE TUBES INSERTED IN THE ANGLED CENTRIFUGE

Back 71

52

Front 72

THESE TYPE OF CENTRIFUGES THAT ARE A TYPE OF ANGLED CENTRIFUGE

Back 72

MICROHEMATOCRIT

Front 73

WHAT KIND OF TUBES DO THE MICROHEMATOCRIT CENTRIFUGE IS CONFIGURED TO ACCOMMODATE

Back 73

CAPILLARY

Front 74

MOST CENTRIFUGES HAVE SPEED DIALS CALIBRATED IN __________ PER MINUTE (RPM) TIMES 1000

Back 74

REVOLUTIONS

Front 75

TO CALCULATION FOR RCF REQUIRES MEASUREMENT OF THE RADIUS OF ____________, MEASURED FROM THE CENTER TO THE AXIS OF ROTATION

Back 75

CENTRIFUGE HEAD (R)

Front 76

HOW IS THE RCF IS CALCULATED

Back 76

RCF= 1.18 X 10^-5 X R X RPM^2

Front 77

IF THE CENTRIFUGE RUNS TOO FAST OR TOO LONG WHAT HAPPENS TO THE CELLS

Back 77

IT RUPTURES THE CELLS AND DESTROYS THE MORPHOLOGIC FEATURES OF CELLS IN THE SEDIMENT

Front 78

IF THE CENTRIFUGE RUNS TOO SLOW FOR LESS THAN THE PROPER TIME WHAT HAPPENS

Back 78

IT MAY NOT COMPLETELY SEPARATE THE SPECIMEN OR CONCENTRATE THE SEDIMENT

Front 79

WHAT IS USED TO MEASURE THE REFRACTIVE INDEX OF A SOLUTION

Back 79

REFRACTOMETER;
OR TOTAL SOLIDS METER

Front 80

WHAT IS THE BENDING OF LIGHT RAYS AS THEY PASS FROM MEDIUM INTO ANOTHER MEDIUM WITH A DIFFERENT OPTICAL DENSITY

Back 80

REFRACTION

Front 81

WHAT DO YOU USE THE REFRACTOMETER FOR

Back 81

DETERMINING THE SPECIFIC GRAVITY OF URINE OR OTHER FLUIDS AND PROTEIN CONCENTRATION OF PLASMA OR OTHER FLUIDS

Front 82

WHAT MEASURES THE AMOUNT OF LIGHT TRANSMITTED THROUGH A SOLUTION

Back 82

SPECTROPHOTOMETER

Front 83

WHAT ARE THE BASIC COMPONENTS OF SPECTROPHOTOMETERS

Back 83

A LIGHT SOURCE;
PRISM;
WAVELENGTH SELECTOR;
PHOTODETECTOR;
READOUT DEVICE

Front 84

WHAT ARE THE TYPICAL LIGHT SOURCES OF THE SPECTROPHOTOMETER

Back 84

TUNGSTEN; OR
HALOGEN LAMP

Front 85

WHAT IS THE FUNCTION OF THE PRISM IN THE SPECTROPHOTOMETER

Back 85

FRAGMENT THE LIGHT INTO ITS COMPONENT WAVELENGTH SEGMENTS

Front 86

A TYPE OF PHOTOMETER THAT USES A FILTER TO SELECT THE WAVELENGTH

Back 86

COLORIMETER

Front 87

A TYPE OF PHOTOMETER THAT DETECTS LIGHT REFLECTED OFF A TEST SUBSTANCE RATHER THAN TRANSMITTED LIGHT

Back 87

REFLECTOMETER

Front 88

IN ORDER TO MEASURE A SOLUTION WITH SPECTROPHOTOMETRY, WHAT PRINCIPLE DOES THE SOLUTION HAVE TO ADHERE TO

Back 88

BEER'S LAW;
ALSO KNOWN AS
BEER-LAMBERT'S LAW

Front 89

THIS PRINCIPLE STATES THAT A DIRECT LINEAR RELATIONSHIP EXISTS BETWEEN THE CONCENTRATION OF ANALYTE AND LIGHT ABSORPTION WHEN MONOCHROMATIC LIGHT (LIGHT OF A SINGLE WAVELENGTH) IS PASSED THROUGH THE SAMPLE

Back 89

BEER-LAMBERT'S LAW

Front 90

WHICH TYPE OF READINGS DO PHOTOMETRIC ANALYSIS USE

Back 90

END POINT READINGS

Front 91

REACTION THAT OCCURS BETWEEN THE SAMPLE AND REAGENT REACHES A STABLE END

Back 91

END POINT READING

Front 92

USED FOR ENZYME ASSAYS OR WHEN THE REAGENT IS ENZYME BASED

Back 92

KINETIC METHOD

Front 93

THEY ARE PROTEINS THAT MAY BE DENATURED BY TEMPERATURE AND pH EXTREMES OR BY ORGANIC SOLVENTS

Back 93

ENZYME

Front 94

HOW ARE ENZYME CONCENTRATIONS MEASURED

Back 94

UNITS OF ACTIVITY

Front 95

ONE GROUP OF ENZYMES WITH SIMILAR CATALYTIC ACTIVITIES BUT DIFFERENT PHYSICAL PROPERTIES

Back 95

ISOENZYME

Front 96

THIS METHOD IS USED FOR EVALUATION OF ELECTROLYTES AND OTHER IONIC COMPONENTS

Back 96

ELECTROCHEMICAL

Front 97

WHICH TYPE OF PIPETTES ARE USED WHEN CRITICAL VOLUME MEASUREMENTS ARE NOT NEEDED

Back 97

TRANSFER

Front 98

WHICH PIPETTES CONTAIN A SINGLE VOLUME DESIGNATION OR HAVE MULTIPLE GRADATIONS

Back 98

GRADUATED

Front 99

WHAT ARE THE PIPETTES WITH SINGLE GRADATIONS THAT ARE REFERRED TO AS

Back 99

VOLUMETRIC PIPETTES

Front 100

WHAT ARE THE PIPETTES THAT HAVE LARGER VOLUMETRIC PIPETTES

Back 100

TD;
WHICH MEANS TO DELIVER

Front 101

VOLUMETRIC PIPETTES DESIGNED TO DELIVER MICROLITER VOLUMES ARE DESIGNATED WHAT

Back 101

TC;
WHICH MEANS TO CONTAIN

Front 102

TERMS THAT ARE FREQUENTLY USED TO DESCRIBE QUALITY CONTROL

Back 102

ACCURACY;
PRECISION;
RELIABILITY

Front 103

IS HOW CLOSELY RESULTS AGREE WITH THE TRUE QUANTITATIVE VALUE OF THE CONSTITUENT

Back 103

ACCURACY

Front 104

THE MAGNITUDE OF RANDOM ERRORS AND THE REPRODUCIBILITY OF MEASUREMENTS

Back 104

PRECISION

Front 105

ABILITY OF A METHOD TO BE ACCURATE AND PRECISE

Back 105

RELIABILITY

Front 106

WHAT ARE THE FACTORS BESIDES DISEASE THAT INFLUENCE THE RESULTS OF LABORATORY TESTS

Back 106

PREANALYTICAL;
ANALYTICAL;
POSTANALYTICAL

Front 107

PREANALYTICAL FACTORS MAY BE ______________ OR _______________

Back 107

BIOLOGIC;
NON-BIOLOGIC

Front 108

FACTORS THAT ARE INHERENT TO THE PATIENT

Back 108

BIOLOGIC VARIABLES

Front 109

FACTORS THAT ARE RELATED TO CLERICAL ERRORS AND SAMPLE COLLECTION

Back 109

NON-BIOLOGIC VARIABLES

Front 110

AFFECT THE PROCEDURE BY WHICH THE ANALYTE IS MEASURED BY THE INSTRUMENT

Back 110

ANALYTICAL VARIABLES

Front 111

WHICH FACTOR IS PRIMARILY RELATED TO DATA ENTRY AND RECORD KEEPING

Back 111

POSTANALYTICAL

Front 112

HOW ARE LABORATORY RECORDS DIVIDED

Back 112

INTERNAL;
EXTERNAL

Front 113

WHAT DOES THE MSDS FORMS INCLUDE

Back 113

INFORMATION ON STORAGE REQUIREMENTS;
PERSONAL PROTECTIVE EQUIPMENT REQUIREMENTS;
EMERGENCY PROCEDURES FOR A PARTICULAR CHEMICAL

Front 114

ARE USED TO PREPARE URINE SAMPLES FOR CLINICAL TESTING AND TO CONCENTRATE FLUID CYTOLOGY SAMPLES

Back 114

CENTRIFUGES

Front 115

USED TO DETERMINE THE SPECIFIC GRAVITY OF URINE SAMPLES

Back 115

REFRACTOMETER

Front 116

USED TO DETERMINE THE TOTAL PROTEIN CONTENT OF FLUID CYTOLOGY SAMPLES AND SERUM SAMPLES

Back 116

REFRACTOMETER

Front 117

USED TO MEASURE CONCENTRATIONS OF SPECIFIC BLOOD COMPONENTS

Back 117

BLOOD CHEMISTRY ANALYZERS

Front 118

3 TYPES OF HEMATOLOGY ANALYZERS

Back 118

IMPEDANCE;
LASER-BASED;
BUFFY COAT

Front 119

WHICH TYPE OF ANALYZER COUNTS CELLS BASED ON THE SIZE AND DENSITY OF THE CELLS

Back 119

LASER-BASED ANALYZER

Front 120

MOST COMMON TYPE OF HEMATOLOGY ANALYZER

Back 120

IMPEDANCE ANALYZER

Front 121

THIS TYPE OF ANALYZER PROVIDES ONLY AN ESTIMATE OF THE CELL COUNT AND USES METHODS BASED ON DIFFERENTIAL CENTRIFUGATION

Back 121

BUFFY COAT ANALYZERS

Front 122

REFERS TO THE ABILITY OF A TEST TO APPROXIMATE THE ACTUAL VALUE

Back 122

ACCURACY

Front 123

REFERS TO THE REPRODUCIBILITY OF A TEST RESULT

Back 123

PRECISION

Front 124

WHEN YOU CALIBRATE AN REFRACTOMETER WHAT IS USED

Back 124

DISTILLED WATER

Front 125

WHAT READING SHOULD BE ON THE REFRACTOMETER SCALE WHEN IT IS CALIBRATED

Back 125

0

Front 126

NONBIOLOGICAL MATERIALS USED TO CALIBRATE EQUIPMENT

Back 126

STANDARDS

Front 127

THE __________ OF THE MICROSCOPE CONTAINS 2 LENSES AND FOCUSES LIGHT FROM THE LIGHT SOURCE

Back 127

SUBSTAGE CONDENSER

Front 128

WHAT SEPARATES SUBSTANCES OF DIFFERENT DENSITIES THAT ARE IN A SOLUTION

Back 128

CENTRIFUGE

Front 129

HOW MANY METERS ARE IN A KILOMETER

Back 129

1,000

Front 130

WHAT IS THE TOTAL MAGNIFICATION OF AN OBJECT VIEWED THROUGH A MICROSCOPE HAVING A 10x OCULAR LENS AND 40x OBJECTIVE LENS

Back 130

400x

Front 131

IF A STANDARD SOLUTION OF 80 mg/dl IS DILUTED 1:5, 1:10, AND 1:20, WHAT IS THE CONCENTRATION IN EACH OF THE DILUTIONS

Back 131

1:5= 16 mg/dl;
1:10= 8 mg/dl;
1:20= 4 mg/dl

Front 132

WHICH TYPE OF ANALYZER COUNTS CELLS BASED ON THEIR SIZE

Back 132

IMPEDANCE

Front 133

WHICH TYPE OF ANALYZER COUNTS CELLS BASED ON THEIR SIZE AND DENSITY

Back 133

LASER-BASED

Front 134

WHICH TYPE OF ANALYZER USED SPECIFIC ELECTRODES THAT ARE CONFIGURED TO INTERACT WITH JUST ONE TYPE OF ION

Back 134

ELECTROCHEMICAL

Front 135

WHICH TYPE OF ANALYZER PROVIDES AN ESTIMATE OF CELL COUNTS

Back 135

BUFFY COAT

Front 136

WHICH OF THE FOLLOWING IS A SPECIAL MICROSCOPE SLIDE CONTAINING ETCHED DIVISIONS OF 0.1 mm THAT ARE USED TO CALIBRATE A MICROSCOPE

Back 136

STAGE MICROMETER

Front 137

THE ABILITY TO OBTAIN TEST RESULTS THAT APPROXIMATE THE TRUE VALUE OF A PATIENT SAMPLE IS REFERRED TO AS

Back 137

ACCURACY

Front 138

GLASS DIS THAT FITS WITHIN THE MICROSCOPE EYEPIECE AND IS USED TO CALIBRATE A MICROSCOPE

Back 138

RETICLE

Front 139

WHAT SOLUTION IS USED TO CALIBRATE A REFRACTOMETER

Back 139

DISTILLED WATER

Front 140

THE ABILITY TO OBTAIN THE SAME RESULT WITH REPEATED TESTING OF THE SAME SAMPLE IS REFERRED TO AS

Back 140

PRECISION

Front 141

MOST SPECTROPHOTOMETERS USE TESTS THAT EVALUATE THE SAMPLE IN THE ____________ PORTION OF THE LIGHT SPECTRUM

Back 141

VISIBLE

Front 142

WHAT IS THE BASE METRIC UNIT FOR VOLUME

Back 142

LITER

Front 143

WHICH TYPE OF ASSAY MEASURES THE RATE OF FORMATION OF THE PRODUCT OF A REACTION

Back 143

KINETIC

Front 144

THE AMOUNT OF ENZYME THAT CAN CATALZE THE REACTION OF 1 MICROMOLE OF SUBSTRATE PER MINUTE UNDER SPECIFIC CONDITIONS IS AN ________________ UNIT

Back 144

INTERNATIONAL

Front 145

GROUPS OF ENZYMES WITH SIMILAR CATALYTIC ACTIVITIES BUT DIFFERENT PHYSICAL PROPERTIES ARE KNOW AS

Back 145

ISOENZYMES

Front 146

WHEN VIEWED THROUGH A COMPOUND LIGHT MICROSCOPE, HOW WILL THE OBJECT APPEAR

Back 146

UPSIDE DOWN AND BACKWARD

Front 147

IF 1.0 ml OF SERUM IS MIXED WITH 9 ml OF DISTILLED WATER, TEST RESULTS MUST BE MULTIPLIED BY __________ TO OBTAIN THE UNDILUTED SAMPLE CONCENTRATIONS

Back 147

10

Front 148

WHAT INSTRUMENT CAN BE USED TO DETERMINE THE SPECIFIC GRAVITY OF URINE AND THE TOTAL PROTEIN OF BLOOD SERUM

Back 148

REFRACTOMETER

Front 149

WHICH TYPE OF MICROSCOPES HAVE 2 SETS OF LENSES

Back 149

BINOCULAR MICROSCOPE

Front 150

CHEMISTRY ASSAYS MAY USE WHAT 2 METHODS

Back 150

END POINT;
KINETIC