Table of Contents

Component Description

Second Day Exams

Second day exam data was performed for selected laboratory tests for laboratory 6. See the general documentation on second day laboratory exams. Also, see the documentation for the primary exam data for laboratory 6.

Blood Lead

Lead is a known environmental toxin that has been shown to deleteriously affect the nervous, hematopoietic, endocrine, renal and reproductive systems. In young children, lead exposure is a particular hazard because children more readily absorb lead than do adults, and children’s developing nervous systems also make them more susceptible to the effects of lead. The primary sources of exposure for children are lead-laden paint chips and dust as a result of deteriorating lead-based paint. The risk for lead exposure is disproportionately higher for children who are poor, non-Hispanic black, living in large metropolitan areas, or living in older housing. Among adults, the most common high exposure sources are occupational. Blood lead levels measured in previous NHANES programs have been the cornerstone of lead exposure surveillance in the U.S. The data have been used to document the burden of and dramatic decline of elevated blood lead levels; to promote the reduction of lead use; and to help to redefine national lead poisoning prevention guidelines, standards, and abatement activities.

Blood Cadmium

Cadmium is performed to identify cases of cadmium toxicity. Occupational exposure is the most common cause of elevated cadmium levels.

RBC folate, Serum folate, Vitamin B12, Erythrocyte protoporphyrin, Ferritin,
Lab 6 - Trace Metals, Cotinine, and Nutritional Biochemistries in Serum Page 1 of 9
Homocysteine, and Methylmalonic Acid, Iron, TIBC, Transferrin saturation, Gamma Tocopherol, Retinyl Palmitate, Retinyl Stearate, Vitamin A and Vitamin E

The objectives of this component are: 1) to provide data for monitoring secular trends in measures of nutritional status in the U.S. population; 2) to evaluate the effect of people's habits and behaviors such as physical activity and the use of alcohol, tobacco, and dietary supplements on people's nutritional status; and 3) to evaluate the effect of changes in nutrition and public health policies including welfare reform legislation, food fortification policy, and child nutrition programs on the nutritional status of the U.S. population. These data will be used to estimate deficiencies and toxicities of specific nutrients in the population and subgroups, to provide population reference data, and to estimate the contribution of diet, supplements, and other factors to serum levels of nutrients. Data will be used for research to further define nutrient requirements as well as optimal levels for disease prevention and health promotion.

Cotinine

The specific aims of the component are: 1) to measure the prevalence and extent of tobacco use; 2) to estimate the extent of exposure to environmental tobacco smoke (ETS), and determine trends in exposure to ETS; and 3) to describe the relationship between tobacco use (as well as exposure to ETS) and chronic health conditions, including respiratory and cardiovascular diseases.
The tobacco component for NHANES will include questionnaire items on current and past use of cigarettes, pipes, cigars and smokeless tobacco. Exposure to ETS at home and at work and in-utero ETS exposure among children will also be obtained. ETS exposure will also be assessed for examinees 3 years of age and older through the measurement of serum cotinine, a metabolite of nicotine. In addition, use of nicotine replacement products (e.g., gum and patch) will be collected using questionnaires.

Eligible Sample

Eligible Sample and Component-Specific Exclusions:

Blood Cadmium and Lead, Erythrocyte Protoporphyrin, Iron, Total Iron Binding Capacity (TIBC), Transferrin Saturation, RBC folate, Serum folate, Methylmalonic acid, Vitamin B12, Ferritin, Homocysteine, Cotinine, Gamma Tocopherol, Retinyl Palmitate, Retinyl Stearate, Vitamin A and Vitamin E

Participants aged 16-69 years who do not meet any of the exclusion criteria are eligible.

Description of Laboratory Methodology

Blood Lead and Cadmium

Cadmium and lead are simultaneously measured in whole blood using adaptations of the methods of Miller et al,1 Parsons et al,2 and Stoeppler et al.3 Cadmium and lead quantification is based on the measurement of light absorbed at 228.8 nm and 283.3 nm, respectively, by ground-state atoms of cadmium and lead from either an electrodeless discharge lamp (EDL) or hollow cathode lamp (HCL) source. Human blood (patient or study) samples, bovine blood quality control pools, and aqueous standards are diluted with a matrix modifier (nitric acid, Triton X-100, and ammonium phosphate). The cadmium and lead contents are determined on a PerkinElmer Model SIMAA 6000 simultaneous multi-element atomic absorption spectrometer with Zeeman background correction.

Erythrocyte Protoporphyrin

Free erythrocyte protoporphyrin (FEP) is measured by a modification of the method of Sassa et al.4 Protoporphyrin is extracted from EDTA-whole blood into a 2:1 (v/v) mixture of ethyl acetate-acetic acid, then back-extracted into diluted hydrochloric acid. The protoporphyrin in the aqueous phase is measured fluorometrically at excitation and emission wavelengths of 404 and 658 nm, respectively. Calculations are based on a processed protoporphyrin IX (free acid) standard curve. After a correction for the individual hematocrit is made, the final concentration of protoporphyrin in a specimen is expressed as micrograms per deciliter of packed red blood cells (μg/dL RBC).

RBC Folate, Serum Folate, and Vitamin B12

Both serum folate and vitamin B12 are measured by using the Bio-Rad Laboratories "Quantaphase II Folate/vitamin B12" radioassay kit.5 The assay is performed by combining serum or a whole blood hemolysate sample with 125I-folate and 57Co-vitamin B12 in a solution containing dithiothreitol (DTT) and cyanide. The mixture is boiled to inactivate endogenous folate-binding proteins and to convert the various forms of vitamin B12 to cyanocobalamin. The reduced folate and its analogs are stabilized by DTT during the heating. The mixture is cooled and then combined with immobilized affinity-purified porcine intrinsic factor and folate-binding proteins. The addition of these substances adjusts and buffers the pH of the reaction mixture to 9.2. The reaction mixture is then incubated for 1 hour at room temperature.

During incubation, the endogenous and labeled folate and B12 compete for the limited number of binding sites on the basis of their relative concentrations. The reaction mixtures are then centrifuged and decanted. Labeled and unlabeled folate and vitamin B12, binding to immobilized binding proteins, are concentrated in the bottom of the tube in the form of a pellet. The unbound folate and B12 in the supernatant are discarded, and the radioactivity associated with the pellet is counted. Standard curves are prepared by using the pre-calibrated folate/B12 standards in a human serum albumin base. The concentration of the folate and vitamin B12 in the participant’s serum or folate in a participant's whole blood is calculated from the standard curve.

In the erythrocyte folate procedure, the sample is first diluted 1:11 with a solution of 1 g/dL ascorbic acid in water and either incubated for 90 min prior to assay or frozen immediately for later assay. The 90-minute incubation or the freeze-thaw is necessary for hemolysis of the red blood cells; either allows the endogenous folate conjugates to hydrolyze the conjugated pterylpolyglutamates prior to assay. The sample is further diluted 1:2 with a protein diluent (human serum albumin), resulting in a matrix similar to that of the standards and serum samples.

Ferritin

Ferritin is measured by using the Bio-Rad Laboratories' "QuantImune Ferritin IRMA" kit,6 which is a single-incubation two-site immunoradiometric assay (IRMA) based on the general principles of assays as described by Addison et al.7 and Miles8 and modified by Jeong et al.9 In this IRMA, which measures the most basic isoferritin, the highly purified 125I-labeled antibody to ferritin is the tracer, and the ferritin antibodies are immobilized on polyacrylamide beads as the solid phase. Serum or ferritin standards (made from human liver) are mixed with the combined tracer/solid-phase antibody reagent, and the mixture is incubated. During incubation, both the immobilized and the 125I-labeled antibodies bind to the ferritin antigen in the serum or standards, thus creating a "sandwich."

After incubation, the beads are diluted with saline, centrifuged, and decanted. The level of 125I-labeled ferritin found in the pellets is measured by using a gamma counter. There is a direct relationship between the radioactive levels of the pellets and the amount of endogenous ferritin in the serum or standards, rather than the inverse relationship measured by most radioimmunoassays (RIAs).

Homocysteine

The method is a fluorescence polarization immunoassay (FPIA) from Abbott Diagnostics performed on the Abbott IMX analyzer.10 Total homocysteine (tHcy) in plasma is measured by the Abbott Homocysteine assay, a fully automated FPIA method. DTT reduces homocysteine bound to albumin and to other small molecules, homocysteine, and mixed disulfides, to free thiol. S-adenosylhomocysteine (SAH) hydrolase catalyzes conversion of homocysteine to SAH in the presence of added adenosine. The specific monoclonal antibody and the fluoresceinated SAH analog tracer constitute the FPIA detection system.11 Plasma total homocysteine concentrations are calculated by the Abbott IMx Immunoassay Analyzer using a machine-stored calibration curve.

As part of ongoing methods comparisons studies, an international round robin12 was conducted in 1998. Results obtained using the FPIA method described earlier were compared to results obtained using high performance liquid chromatography (HPLC) with fluorometric detection at 385 nm excitation and 515 nm emission.13 The international round robin demonstrated that the FPIA method was fully equivalent to other frequently used methods (i.e., HPLC-FD, HPLC-ED, and GC/MS). Thus, the Abbott Homocysteine assay was used as the primary method for determination of plasma total homocysteine in NHANES 1999–2000. The HPLC assay was used as a reference method and was performed on a subset of NHANES 1999–2000 specimens for continuing method comparison studies.

Methylmalonic Acid

Methylmalonic acid (MMA) is extracted from plasma or serum along with an added internal standard using a commercially available strong anion exchange resin.14 The extracted acid is then derivatized with cyclohexanol to form a dicyclohexyl ester. The derivatized samples are injected onto a gas chromatograph for separation from other constituents. The effluent from the gas chromatograph is monitored with a mass selective detector using selected ion monitoring. Results are quantitated by internal calibration using peak area ratios of MMA and the internal standard (d3MMA).

Cotinine

Cotinine is a major metabolite of nicotine that may be used as a marker for both active smoking, and as an index to Environmental Tobacco Smoke (ETS) exposure, or "passive smoking". Cotinine is generally preferred over nicotine for such assessments because of its substantially longer half-life. The half-life of cotinine in plasma has been estimated to be about 15–20 hrs;15–17 by contrast, the half-life of nicotine is only 0.5–3 hrs.18–20 Cotinine may be measured in serum, urine or saliva – the half-life of cotinine in all three fluids is essentially the same. Cotinine concentrations tend to be higher (3–8×) in urine than in serum; however, for studies requiring a quantitative assessment of exposure, plasma or serum is regarded as the fluid of choice.15 Therefore, serum was chosen for NHANES cotinine analyses.

Serum cotinine is measured by an isotope dilution-high performance liquid chromatography / atmospheric pressure chemical ionization tandem mass spectrometry (ID HPLC-APCI MS/MS). Briefly, the serum sample is spiked with methyl-D3 cotinine as an internal standard, and after an equilibration period, the sample is applied to a basified solid-phase extraction column. Cotinine is extracted off the column with methylene chloride, the organic extract is concentrated, and the residue is injected onto a short, C18 HPLC column. The eluant from these injections is monitored by APCI-MS/MS, and the m/z 80 daughter ion from the m/z 177 quasi-molecular ion is quantitated, along with additional ions for the internal standard, external standard, and for confirmation. Cotinine concentrations are derived from the ratio of native to labeled cotinine in the sample by comparisons to a standard curve.

Iron, TIBC and Transferrin saturation

Serum iron and total iron-binding capacity (TIBC) are measured by a modification of the automated AAII-25 colorimetric method, which is based on the procedures of Giovaniello et al. (1) and of Ramsey (2). The method has been modified further to be performed on an Alpkem Flow Solutions IV (rapid-flow analysis) system. Iron is quantitated by measuring the intensity of the violet complex formed in the reaction between ferrozine and Fe++ in acetate buffer at 562 nm. Thiourea is added to complex Cu++, which can also bind with ferrozine and yield falsely elevated iron values. In TIBC tests, serum is mixed with 400 μg/dL iron solution to saturate the iron-binding sites of the serum transferrin molecules. Magnesium carbonate is used to remove excess iron. Centrifugation is used to precipitate the magnesium carbonate, and the supernatant is measured for iron content.

Serum iron and TIBC assays can be used together with ferritin assays to aid in the diagnosis of iron deficiency or overload. In cases of iron deficiency, decreased serum iron levels and increased TIBC may be observed. Conversely, in cases of iron overload (which can be genetic as idiopathic hereditary hemochromatosis, or can be caused by hemolytic anemia, liver damage, excessive absorption of iron, and iron therapy) increased serum iron levels and decreased TIBC may be observed. In cases of infection, inflammation, and malignancy, both serum iron levels and TIBC may be decreased (3).

The transferrin saturation value was calculated as (iron/TIBC) × 100%. The iron variable name is LBXIRN, the TIBC variable name is LBXTIB, and the transferrin saturation is LBDPCT.

Gamma Tocopherol, Retinyl Palmitate, Retinyl Stearate, Vitamin A and Vitamin E

Serum concentrations of vitamins A (retinol) and E (α- and γ-tocopherol), and two retinyl esters were measured using high performance liquid chromatography (HPLC) with photodiode array detection. A small volume (100 μL) of serum is mixed with an ethanol solution containing two internal standards- retinyl butyrate and nonapreno-β-carotene (C45). The micronutrients are extracted from the aqueous phase into hexane and dried under vacuum. The extract is redissolved in ethanol and acetonitrile and is filtered to remove any insoluble material. An aliquot of the filtrate is injected onto a C18 reversed phase column and isocratically eluted with a mobile phase consisting of equal parts of ethanol and acetonitrile. Absorbance of these substances in solution is linearly proportional to concentration (within limits), thus spectrophotometric methods are used for quantitative analysis. Three wavelengths, approximately corresponding to absorption maxima, namely, 300, 325, and 450 nm, are simultaneously monitored and chromatograms are recorded. Quantitation is accomplished by comparing the peak height of the analyte in the unknown with the peak height of a known amount of the same analyte in a calibrator solution. Calculations are corrected based on the peak height of the internal standard in the unknown compared with the peak height of the internal standard in the calibrator solution. Retinol and the retinyl esters are compared with retinyl butyrate at 325 nm, α- and γ-tocopherol are compared with retinyl butyrate at 300 nm, and the carotenoids are compared with C45 at 450 nm.

Worldwide, vitamin A deficiency is the leading cause of preventable blindness. Although vitamin A deficiency is uncommon in the US, it is associated with excess morbidity and mortality from infectious disease in developing countries. Toxicity related to excess consumption of vitamin A can lead to permanent liver damage and death. Serum retinyl esters are of interest generally only in fasting specimens and are used to indicate potential hepatotoxicity in subjects with elevated serum retinol concentrations.
Vitamin E has low potential for toxicity. Elevated serum vitamin E concentrations are only of concern in people receiving anticoagulant therapy. Low serum concentrations are rarely observed, except in those with malabsorption syndromes.

A physiological need for the carotenoids, except as vitamin A precursors, has not been established. Excess consumption of carotenoids may cause red or orange discoloration of the skin as a result of carotenoid deposits in subcutaneous fat. Several xanthophylls are found in the macular pigment in the eye where they may protect against macular degeneration.

Data Processing and Editing

Automated data collection procedures for the survey were introduced in NHANES 1999. In the mobile examination centers (MECs) and analytical laboratories, data for the laboratory component is recorded directly onto a computerized data collection form. The system is centrally integrated and it allows for ongoing monitoring of much of the data. Although the complete blood count and pregnancy analyses are performed in the MEC laboratory, most analyses are conducted elsewhere by approximately 28 laboratories across the United States.

Guidelines have been developed that provide standards for naming variables, filling missing values, and handling missing records. NCHS staff, assisted by contract staff, have developed data-editing specifications that check data sets for valid codes, ranges, and skip pattern consistencies and examine the consistency of values between interrelated variables. Comments have been reviewed and recoded. NCHS staff verifies extremely high and low values whenever possible, and numerous consistency checks are performed. Nonetheless, users should examine the range and frequency of values before analyzing data.

For laboratory tests with a lower detection limit, results below the lower detection limit are replaced with a value equal to the detection limit divided by the square root of two. This value has been created to help the user distinguish a nondetectable laboratory test result from a measured laboratory test result.

Laboratory Quality Assurance and Monitoring

Serum and urine specimens are processed, stored, and shipped to the Division of 
Environmental Health Laboratory Sciences, National Center for Environmental Health, Centers for Disease Control and Prevention for analysis.

Detailed specimen collection and processing instructions are discussed in the NHANES Laboratory/Medical Technologists Procedures Manual (LPM). Vials are stored under appropriate frozen (–20°C) conditions until they are shipped to National Center for Environmental Health for testing.

Analytic Notes

The second day exam data was a convenience sample and thus did not have sample weights. The analysis of NHANES 1999–2001 laboratory data must be conducted with the key survey design and basic demographic variables. The NHANES 1999–2001 Household Questionnaire Data Files contain demographic data, health indicators, and other related information collected during household interviews. The Household Questionnaire Data Files also contain all survey design variables required to analyze these data. The Phlebotomy Examination file includes auxiliary information on duration of fasting, the time of day of the venipuncture, and the conditions precluding venipuncture. The Household Questionnaire and Phlebotomy Exam files may be linked to the laboratory data file using the unique survey participant identifier SEQN.

Data Access

All data are available through the NCHS Research Data Center.

References

Codebook and Frequencies

SEQN - Respondent sequence number

Variable Name:
SEQN
SAS Label:
Respondent sequence number
English Text:
Respondent sequence number.
Target:
Both males and females 16 YEARS - 69 YEARS

LB2DAY - Days between first and second exams

Variable Name:
LB2DAY
SAS Label:
Days between first and second exams
English Text:
The number of days between the first and second collections
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
6 to 51 Range of Values 302 302
. Missing 0 302

LB2BCD - Cadmium (ug/L)

Variable Name:
LB2BCD
SAS Label:
Cadmium (ug/L)
English Text:
Cadmium (ug/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.2 to 5 Range of Values 302 302
. Missing 0 302

LB2BCDSI - Cadmium (umol/L)

Variable Name:
LB2BCDSI
SAS Label:
Cadmium (umol/L)
English Text:
Cadmium (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
1.78 to 44.49 Range of Values 302 302
. Missing 0 302

LB2BPB - Lead (ug/dL)

Variable Name:
LB2BPB
SAS Label:
Lead (ug/dL)
English Text:
Lead (ug/dL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.2 to 33.5 Range of Values 302 302
. Missing 0 302

LB2BPBSI - Lead (umol/L)

Variable Name:
LB2BPBSI
SAS Label:
Lead (umol/L)
English Text:
Lead (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.01 to 1.618 Range of Values 302 302
. Missing 0 302

LB2EPP - Erythrocyte protoporphyrin (ug/dL RBC)

Variable Name:
LB2EPP
SAS Label:
Erythrocyte protoporphyrin (ug/dL RBC)
English Text:
Erythrocyte protoporphyrin (ug/dL RBC)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
26 to 137 Range of Values 302 302
. Missing 0 302

LB2EPPSI - Erythrocyte protoporphyrin (umol/L RBC)

Variable Name:
LB2EPPSI
SAS Label:
Erythrocyte protoporphyrin (umol/L RBC)
English Text:
Erythrocyte protoporphyrin (umol/L RBC)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.46 to 2.42 Range of Values 302 302
. Missing 0 302

LB2RBF - Folate (ng/mL RBC)

Variable Name:
LB2RBF
SAS Label:
Folate (ng/mL RBC)
English Text:
Folate (ng/mL RBC)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
97 to 1446 Range of Values 301 301
. Missing 1 302

LB2RBFSI - Folate (nmol/L RBC)

Variable Name:
LB2RBFSI
SAS Label:
Folate (nmol/L RBC)
English Text:
Folate (nmol/L RBC)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
219.7 to 3275.2 Range of Values 301 301
. Missing 1 302

LB2HCY - Homocysteine (umol/L)

Variable Name:
LB2HCY
SAS Label:
Homocysteine (umol/L)
English Text:
Homocysteine (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
2.62 to 25.37 Range of Values 302 302
. Missing 0 302

LB2MMA - Methylmalonic acid (umol/L)

Variable Name:
LB2MMA
SAS Label:
Methylmalonic acid (umol/L)
English Text:
Methylmalonic acid (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0 to 1.27 Range of Values 302 302
. Missing 0 302

LB2IRN - Iron (ug/dL)

Variable Name:
LB2IRN
SAS Label:
Iron (ug/dL)
English Text:
Iron (ug/dL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
20 to 258 Range of Values 301 301
. Missing 1 302

LB2IRNSI - Iron (umol/L)

Variable Name:
LB2IRNSI
SAS Label:
Iron (umol/L)
English Text:
Iron (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
3.58 to 46.18 Range of Values 301 301
. Missing 1 302

LB2TIB - TIBC (ug/dL)

Variable Name:
LB2TIB
SAS Label:
TIBC (ug/dL)
English Text:
TIBC (ug/dL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
223 to 688 Range of Values 298 298
. Missing 4 302

LB2TIBSI - TIBC (umol/L)

Variable Name:
LB2TIBSI
SAS Label:
TIBC (umol/L)
English Text:
TIBC (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
39.92 to 123.15 Range of Values 298 298
. Missing 4 302

LB2PCT - Transferrin saturation (%)

Variable Name:
LB2PCT
SAS Label:
Transferrin saturation (%)
English Text:
Transferrin saturation (%)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
4 to 62.8 Range of Values 298 298
. Missing 4 302

LB2FER - Ferritin (ng/mL)

Variable Name:
LB2FER
SAS Label:
Ferritin (ng/mL)
English Text:
Ferritin (ng/mL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
3 to 1176 Range of Values 301 301
. Missing 1 302

LB2FERSI - Ferritin (ug/L)

Variable Name:
LB2FERSI
SAS Label:
Ferritin (ug/L)
English Text:
Ferritin (ug/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
3 to 1176 Range of Values 301 301
. Missing 1 302

LB2B12 - Vitamin B12, serum (pg/mL)

Variable Name:
LB2B12
SAS Label:
Vitamin B12, serum (pg/mL)
English Text:
Vitamin B12, serum (pg/mL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
145 to 59960 Range of Values 301 301
. Missing 1 302

LB2B12SI - Vitamin B12, serum (pmol/L)

Variable Name:
LB2B12SI
SAS Label:
Vitamin B12, serum (pmol/L)
English Text:
Vitamin B12, serum (pmol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
107.01 to 44250.48 Range of Values 301 301
. Missing 1 302

LB2FOL - Folate, serum (ng/mL)

Variable Name:
LB2FOL
SAS Label:
Folate, serum (ng/mL)
English Text:
Folate, serum (ng/mL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
2.6 to 100.2 Range of Values 301 301
. Missing 1 302

LB2FOLSI - Folate, serum (nmol/L)

Variable Name:
LB2FOLSI
SAS Label:
Folate, serum (nmol/L)
English Text:
Folate, serum (nmol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
5.9 to 227 Range of Values 301 301
. Missing 1 302

LB2COT - Cotinine (ng/mL)

Variable Name:
LB2COT
SAS Label:
Cotinine (ng/mL)
English Text:
Cotinine (ng/mL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.035 to 690.71 Range of Values 286 286
. Missing 16 302

LB2COTSI - Cotinine (nmol/L)

Variable Name:
LB2COTSI
SAS Label:
Cotinine (nmol/L)
English Text:
Cotinine (nmol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.199 to 3923.233 Range of Values 286 286
. Missing 16 302

LB2GTC - Gamma tocopherol (ug/dL)

Variable Name:
LB2GTC
SAS Label:
Gamma tocopherol (ug/dL)
English Text:
Gamma tocopherol (ug/dL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
25.5 to 987 Range of Values 275 275
. Missing 27 302

LB2GTCSI - Gamma tocopherol (umol/L)

Variable Name:
LB2GTCSI
SAS Label:
Gamma tocopherol (umol/L)
English Text:
Gamma tocopherol (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.61 to 23.69 Range of Values 275 275
. Missing 27 302

LB2RPL - Retinyl palmitate (ug/dL)

Variable Name:
LB2RPL
SAS Label:
Retinyl palmitate (ug/dL)
English Text:
Retinyl palmitate (ug/dL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.14 to 18.7 Range of Values 269 269
. Missing 33 302

LB2RPLSI - Retinyl palmitate (umol/L)

Variable Name:
LB2RPLSI
SAS Label:
Retinyl palmitate (umol/L)
English Text:
Retinyl palmitate (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0 to 0.65 Range of Values 269 269
. Missing 33 302

LB2RST - Retinyl stearate (ug/dL)

Variable Name:
LB2RST
SAS Label:
Retinyl stearate (ug/dL)
English Text:
Retinyl stearate (ug/dL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.35 to 7.1 Range of Values 255 255
. Missing 47 302

LB2RSTSI - Retinyl stearate (umol/L)

Variable Name:
LB2RSTSI
SAS Label:
Retinyl stearate (umol/L)
English Text:
Retinyl stearate (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.01 to 0.25 Range of Values 255 255
. Missing 47 302

LB2VIA - Vitamin A (ug/dL)

Variable Name:
LB2VIA
SAS Label:
Vitamin A (ug/dL)
English Text:
Vitamin A (ug/dL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
22.1 to 232.3 Range of Values 300 300
. Missing 2 302

LB2VIASI - Vitamin A (umol/L)

Variable Name:
LB2VIASI
SAS Label:
Vitamin A (umol/L)
English Text:
Vitamin A (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
0.77 to 8.11 Range of Values 300 300
. Missing 2 302

LB2VIE - Vitamin E (ug/dL)

Variable Name:
LB2VIE
SAS Label:
Vitamin E (ug/dL)
English Text:
Vitamin E (ug/dL)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
413.7 to 4235.6 Range of Values 300 300
. Missing 2 302

LB2VIESI - Vitamin E (umol/L)

Variable Name:
LB2VIESI
SAS Label:
Vitamin E (umol/L)
English Text:
Vitamin E (umol/L)
Target:
Both males and females 16 YEARS - 69 YEARS
Code or Value Value Description Count Cumulative Skip to Item
9.61 to 98.35 Range of Values 300 300
. Missing 2 302