Polybrominated diphenyl ethers (PBDEs) and 2,2’,4,4’,5,5’-hexabromobiphenyl (PBB-153) are included in a larger group of chemicals known as brominated flame retardants (BFRs) that are added to products, such as foam padding, textiles, or plastics to prevent accidental ignition and fire development. BFRs are not chemically bound to the flame-retarded material, so they can enter the environment from volatilization, leaching, or degradation of BFR-containing products. PBDEs are generally persistent in the environment and have been measured in aquatic sediments, house dust, and aquatic and terrestrial animals. PBDEs have been shown to bio accumulate in fish. Humans may be exposed though the diet, including breast feeding, and by contact with BFR-treated products and contaminated house dust.
Examined participants aged 12 years and older from a one-third sample were eligible.
Serum samples from NHANES 2009-2010 were stored frozen before analysis. Eleven polybrominated diphenyl ethers (PBDEs) and PBB-153 were measured in serum through the use of automated liquid/liquid extraction and subsequent sample clean-up. Final determination of target analytes was performed by isotope dilution gas chromatography high-resolution mass spectrometry GC/IDHRMS. The analytical method is described in Jones et al, 2012, which is a modification of the method described by Sjodin et al., 2004.
Refer to the Laboratory Method Files for a detailed description of the laboratory methods used.
There were no changes to the lab method, lab equipment, or lab site for this component in the NHANES 2009-2010 cycle.
Polybrominated diphenyl ethers (PBDEs) (September 2017)
Serum samples were processed, stored, and shipped to the Division of Laboratory Sciences, National Center for Environmental Health, Centers for Disease Control and Prevention, Atlanta, GA for analysis.
Detailed instructions on specimen collection and processing are discussed in the NHANES Laboratory Procedures Manual (LPM). Vials are stored under appropriate frozen (-30oC) conditions until they are shipped to the National Center for Environmental Health for testing.
The NHANES quality assurance and quality control (QA/QC) protocols meet the 1988 Clinical Laboratory Improvement Amendments mandates. Detailed QA/QC instructions are discussed in the NHANES LPM.
Mobile Examination Centers (MECs)
Laboratory team performance is monitored using several techniques. NCHS and contract consultants use a structured competency assessment evaluation during visits to evaluate both the quality of the laboratory work and the quality-control procedures. Each laboratory staff member is observed for equipment operation, specimen collection and preparation; testing procedures and constructive feedback are given to each staff member. Formal retraining sessions are conducted annually to ensure that required skill levels were maintained.
Analytical Laboratories
NHANES uses several methods to monitor the quality of the analyses performed by the contract laboratories. In the MEC, these methods include performing blind split samples collected during “dry run” sessions. In addition, contract laboratories randomly perform repeat testing on 2% of all specimens.
NCHS developed and distributed a quality control protocol for all CDC and contract laboratories, which outlined the use of Westgard rules (Westgard, et al. 1981) when running NHANES specimens. Progress reports containing any problems encountered during shipping or receipt of specimens, summary statistics for each control pool, QC graphs, instrument calibration, reagents, and any special considerations are submitted to NCHS quarterly. The reports are reviewed for trends or shifts in the data. The laboratories are required to explain any identified areas of concern.
All QC procedures recommended by the manufacturers were followed. Reported results for all assays meet the Division of Environmental Health Laboratory Sciences’ quality control and quality assurance performance criteria for accuracy and precision, similar to the Westgard rules (Caudill, et al. 2008).
The data were reviewed. Incomplete data or improbable values were sent to the performing lab for confirmation.
Refer to the 2009-2010 Laboratory Data Overview for general information on NHANES laboratory data.
Subsample Weights
BFRs including PBDEs and PBB-153 were measured in a one-third subsample of participants 12 years and older. Special sample weights are required to analyze these data properly. Specific sample weights for this subsample are included in this data file and should be used when analyzing these data.
Samples were pooled in groups of 8 samples per pool within 40 demographic groups. The analysis of NHANES 2009-2010 pooled-sample data must be conducted with the basic demographic variables provided in this data file. This pooled-sample data file cannot be linked to other NHANES 2009-2010 data. Because each sample person does not have an equal probability of selection, sample weighting is needed to produce correct population estimates of means, percentiles, and other descriptive statistics.
The pooled-sample weights required to produce estimates from these data are included in this data file. The analysis of pooled-samples from survey data is a relatively new field of study, and there is currently no established method to produce design effect adjusted variance estimates for these pooled results. These data cannot be analyzed using software designed for complex surveys because design features are not available.
Rationale and Methods Used to Create Pooled Results
The Centers for Disease Control and Prevention (CDC) provides an ongoing assessment of the US population's exposure to environmental chemicals by using biomonitoring in conjunction with CDC's National Health and Nutrition Examination Survey (NHANES). Characterizing the distributions of concentrations of environmental compounds or their metabolites in the US population is a primary objective of CDC's biomonitoring program. Historically, this characterization has been based on individual measurements of these compounds in body fluid or tissue from representative samples of the population. Pooling samples allows for larger sample volumes which can result in lower limits of detection and reduces the number of measurements and costs. In NHANES 2009-2010, a weighted pooled-sample design was implemented to facilitate pooling samples before making analytical measurements. Table 1 lists the International Union of Pure and Applied Chemistry (IUPAC) names, common abbreviation, and NHANES variable name for the analytes included in this data file.
Pools were prepared from serum collected from a random one-third subset of the NHANES 2009-2010 participants aged 12 years and older. Samples were pooled based on gender, race and Hispanic origin, and age. To implement the pooled-sample design, each participant sample was identified as belonging to one of 40 demographic groups based on race and Hispanic origin (Mexican American: MA, Other Hispanic: OH, non-Hispanic white: NHW, non-Hispanic black: NHB, Other race including multiracial: OTHER), gender (Male, Female), and age group (12-19, 20-39, 40-59, and 60+ years of age and older). Eight (8) samples were included in each pool. The number of pools created for each of the 40 demographic groups varied depending on the total number of individual samples available in a demographic group. The one-third subset of NHANES 2009-2010 represents 2524 individual samples, but because the pooled-sample design requires that all samples be of sufficient volume and that there be the same number of samples in each pool, 2322 samples were available to create 301 pools with 8 samples per pool (Exceptions are in Table 2). The variable SAMPLEID denotes the identification number for each pool and ranges from 1 through 303, excluding the numbers 265 and 266. Please refer to the Pooled-Sample Technical Support file (POOLTF_F) for detailed information on individual participants included in each pool.
In order to incorporate sample weighting into the pooled-sample design it was necessary to use a different volume of material from each sample contributing to a pool. The volume chosen for each sample in a pool was based on the ratio of its sampling weight to the sum of the sampling weights of all samples in the pool. To physically accomplish the pooling in the laboratory required that the ratio of the largest to the smallest sampling weight of samples in the same pool be no larger than about 4 or 5. The individual samples were sorted/stratified by sampling weight within each of the 40 demographic groups and pools were formed using samples with sampling weights adjacent to one another in the sorted list. The number of samples in the one-third subset, number of samples available, the number of these samples that were usable, and the number of pools formed in each demographic group are presented in Table 2. Once the pools were created, summed sampling weights were further adjusted to account for the unused samples. These adjusted summed sampling weights are represented by the variable named WTSMSMPA.
Detection Limits
In the dataset, the whole-weight detection limit (pg/g serum) is a variable and dependent on the available sample size; however, the variation in sample size was low. Lipid adjusted detection limits are variable (ng/g lipid) due to differences of the lipid levels measured in individual pools/specimens. In cases where the result was below the limit of detection, the value for that variable is the detection limit divided by the square root of 2.
Table 1. NHANES Variable name, common abbreviation and International Union of Pure and Applied Chemistry (IUPAC) name for each analyte reported and maximum limit of detection (MLOD).
Variable |
Common |
IUPAC Name |
MLODa |
|
Name |
Abbrev. |
(pg/g serum) |
(ng/g lipid) |
|
LBCBR1 |
PBDE17 |
2,2´,4- Tribromodiphenyl ether |
2.5 |
0.59 |
LBCBR2 |
PBDE28 |
2,4,4´-Tribromodiphenyl ether |
2.8 |
0.66 |
LBCBR3 |
PBDE47 |
2,2´,4,4´-Tetrabromodiphenyl ether |
2.8 |
0.64 |
LBCBR66 |
PBDE66 |
2,3´,4´,4-Tetrabromodiphenyl ether |
1.9 |
0.44 |
LBCBR4 |
PBDE85 |
2,2´,3,4,4´-Tentabromodiphenyl ether |
1.9 |
0.44 |
LBCBR5 |
PBDE99 |
2,2´,4,4´,5-Pentabromodiphenyl ether |
2.4 |
0.56 |
LBCBR6 |
PBDE100 |
2,2´,4,4´,6-Pentabromodiphenyl ether |
1.9 |
0.44 |
LBCBR7 |
PBDE153 |
2,2´,4,4´,5,5´-Hexabromodiphenyl ether |
2.5 |
0.6 |
LBCBR8 |
PBDE154 |
2,2´,4,4´,5,6´-Hexabromodiphenyl ether |
2.5 |
0.58 |
LBCBR9 |
PBDE183 |
2,2´,3,4,4´,5´,6-Heptabromodiphenyl ether |
2.1 |
0.49 |
LBCBR11 |
PBDE209 |
Decabromodiphenyl ether |
9.2 |
2.19 |
LBCBB1 |
PBB153 |
2,2´,4,4´,5,5´-Hexabromobiphenyl |
3.8 |
0.92 |
aThe values given in the tables are the maximum limit of detection (MLOD) divided by the square root of 2 and are expressed as pg/g serum and ng/g lipid.
Table 2. Number of subjects in the one-third subsample, number of individual serum samples available, number of usable samples, and number of pools formed from NHANES 2009-2010 participants per demographic group
Race/ Ethnicity |
Gender |
Number of subjects in the one-third subsample/ Number of Samples Available/Number of Usable Samples (Number of Pools) |
|||
12–19 years (RIDAGEYR=1)1 |
20–39 years (RIDAGEYR=2) |
40–59 years (RIDAGEYR=3) |
60+ years (RIDAGEYR=4) |
||
Mexican American (RIDRETH1=1) 1 |
Male (RIAGENDR=1) 1 |
65/61/602 (8) |
67/65/64 (8) |
70/65/64 (8) |
43/40/40 (5) |
Female (RIAGENDR=2) |
57/52/523 (7) |
80/76/764 (10) |
73/72/72 (9) |
51/49/48 (6) |
|
Other Hispanics (RIDRETH1=2) |
Male (RIAGENDR=1) |
22/20/205 (3) |
35/34/346 (5) |
40/39/397 (5) |
26/24/24 (3) |
Female (RIAGENDR=2) |
22/20/205 (3) |
38/33/32 (4) |
39/34/348 (5) |
38/35/359 (5) |
|
Non-Hispanic White (RIDRETH1=3) |
Male (RIAGENDR=1) |
91/79/7910 (10) |
139/135/13511 (17) |
146/142/136 (17) |
182/175/168 (21) |
Female (RIAGENDR=2) |
76/65/6312 (8) |
164/151/15013 (19) |
149/138/136 (17) |
188/178/176 (22) |
|
Non-Hispanic Black (RIDRETH1=4) |
Male (RIAGENDR=1) |
45/43/4314 (6) |
56/52/523 (7) |
60/54/5415 (7) |
72/67/6716 (9) |
Female (RIAGENDR=2) |
53/48/48 (6) |
63/57/56 (7) |
60/53/5317 (7) |
58/52/523 (7) |
|
Other Race including Multiracial (RIDRETH1=5) |
Male (RIAGENDR=1) |
13/11/1118 (2) |
21/19/1819 (3) |
18/18/16 (2) |
16/15/1520 (2) |
Female (RIAGENDR=2) |
18/17/16 (2) |
31/30/3021 (4) |
23/21/2122 (3) |
16/15/1323 (2) |
1 Value of this categorical variable in the data set
2 60 Usable samples: seven 8 sample and one 4 sample pool were created
3 52 Usable samples: six 8 sample and one 4 sample pool
4 76 Usable samples: nine 8 sample and one 4 sample pool
5 20 Usable samples: two 8 sample and one 4 sample pool
6 34 Usable samples: three 8 sample and two 5 sample pools
7 39 Usable samples: four 8 sample and one 7 sample pool
8 34 Usable samples: four 8 sample and one 2 sample pool
9 35 Usable samples: four 8 sample and one 3 sample pool
10 79 Usable samples: nine 8 sample and one 7 sample pool
11 135 Usable samples: sixteen 8 sample and one 7 sample pool
12 63 Usable samples: seven 8 sample and one 7 sample pool
13 150 Usable samples: eighteen 8 sample and one 6 sample pool
14 34 Usable samples: five 8 sample and one 3 sample pool
15 54 Usable samples: six 8 sample and one 6 sample pool
16 67 Usable samples: eight 8 sample and one 3 sample pool
17 53 Usable samples: six 8 sample and one 5 sample pool
18 11 Usable samples: one 6 sample and one 5 sample pool
19 18 Usable samples: one 8 sample, one 6 sample, and one 4 sample pool
20 15 Usable samples: one 8 sample and one 7 sample pool
21 30 Usable samples: three 8 sample and one 6 sample pool
22 21 Usable samples: two 8 sample and one 5 sample pool
23 13 usable samples: one 8 sample and one 5 sample pool.
Methodological approaches for analysis
There are a few pooled-sample methodological publications which address approaches related to the following topics:
Variance estimation and bias correction when pooling samples from log-normally distributed populations (Caudill, 2010a; Caudill, 2010b; Caudill et al., 2007; Li et al., 2014);
Models that incorporate measurement error when analyzing pooled-samples from normally or log-normally distributed populations (Caudill, 2010a);
Incorporation of sample weighting into a pooled-sample design (Caudill, 2012; Caudill, 2010a);
Estimation of standard errors and confidence limits for point estimates from pooled-samples (Caudill, 2012; Caudill, 2010a).
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
1 | Mexican American | 61 | 61 | |
2 | Other Hispanic | 33 | 94 | |
3 | Non-Hispanic White | 131 | 225 | |
4 | Non-Hispanic Black | 56 | 281 | |
5 | Other Race, Including Multiracial | 20 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
1 | 12-19 years | 55 | 55 | |
2 | 20-39 years | 84 | 139 | |
3 | 40-59 years | 80 | 219 | |
4 | 60+ years | 82 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
1 | Male | 148 | 148 | |
2 | Female | 153 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
2 to 8 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
49070.542891 to 2980185.9468 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
1.414 to 375.1 | Range of Values | 300 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.2546 to 52.14 | Range of Values | 300 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 262 | 262 | |
1 | Below lower detection limit | 38 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.9192 to 4.473 | Range of Values | 299 | 299 | |
. | Missing | 2 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.09899 to 0.8604 | Range of Values | 299 | 299 | |
. | Missing | 2 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 18 | 18 | |
1 | Below lower detection limit | 281 | 299 | |
. | Missing | 2 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
3.536 to 715.9 | Range of Values | 300 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.7071 to 120.1 | Range of Values | 300 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 289 | 289 | |
1 | Below lower detection limit | 11 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
1.807 to 30.21 | Range of Values | 300 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.2551 to 5.206 | Range of Values | 300 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 294 | 294 | |
1 | Below lower detection limit | 6 | 300 | |
. | Missing | 1 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
32.8 to 962.1 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
4.67 to 184.6 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 301 | 301 | |
1 | Below lower detection limit | 0 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.7 to 29.81 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.09899 to 5.719 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 267 | 267 | |
1 | Below lower detection limit | 34 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
4.097 to 432.4 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.5834 to 82.95 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 301 | 301 | |
1 | Below lower detection limit | 0 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
6.192 to 184.8 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.8979 to 30.42 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 301 | 301 | |
1 | Below lower detection limit | 0 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.693 to 9.638 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.08485 to 1.849 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 148 | 148 | |
1 | Below lower detection limit | 153 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
12.87 to 493.8 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
1.832 to 74.84 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 301 | 301 | |
1 | Below lower detection limit | 0 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.9192 to 28.66 | Range of Values | 299 | 299 | |
. | Missing | 2 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.1131 to 5.498 | Range of Values | 299 | 299 | |
. | Missing | 2 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 240 | 240 | |
1 | Below lower detection limit | 59 | 299 | |
. | Missing | 2 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.7778 to 9.862 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0.09192 to 1.386 | Range of Values | 301 | 301 | |
. | Missing | 0 | 301 |
Code or Value | Value Description | Count | Cumulative | Skip to Item |
---|---|---|---|---|
0 | At or above the detection limit | 179 | 179 | |
1 | Below lower detection limit | 122 | 301 | |
. | Missing | 0 | 301 |