Last data update: May 20, 2024. (Total: 46824 publications since 2009)
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Query Trace: Chen TC[original query] |
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Differences in hypertension and stage II hypertension by demographic and risk factors, obtained by two different protocols in US adults: National Health and Nutrition Examination Survey, 2017-2018
Ostchega Y , Hughes JP , Kit B , Chen TC , Nwankwo T , Commodore-Mensah Y , Graber JE , Nguyen DT . Am J Hypertens 2022 35 (7) 619-626 OBJECTIVE: To compare prevalence of hypertension and stage II hypertension assessed by two blood pressure observation protocols. METHODS: Participants aged 18 years and older (n = 4,689) in the National Health and Nutrition Examination Survey (NHANES 2017-2018) had their blood pressure (BP) measured following two protocols: the legacy auscultation protocol [AP] and oscillometric protocol [OP]. The order of protocols was randomly assigned. Prevalence estimates for hypertension (BP 130/80 mm Hg or use of medication for hypertension) and stage II hypertension (BP 140/90 mm Hg) were determined overall, by demographics, and by risk factors for each protocol. Ratios (OP% AP%) and Kappa statistics were calculated. RESULTS: Age-adjusted hypertension prevalence was 44.5% (95% CI: 41.1%-48.0%) using OP and 45.1% (95%CI: 41.5%-48.7%) using AP, prevalence ratio=0.99, (95% CI=0.94-1.04)). Age-adjusted Stage II hypertension prevalence was 15.8% (95% CI: 13.6%-18.2%) using AP and 17.1% (95% CI: 14.7%-19.7%) using OP, prevalence ratio=0.92, (95% CI=0.81-1.04)). For both hypertension and Stage II hypertension, the prevalence ratios by demographics and by risk factors all included unity in their 95% CI, except for Stage II hypertension in adults 60+ years (ratio: 0.88 (95% CI: 0.78-0.98)). Kappa for agreement between protocols for hypertension and stage II hypertension were 0.75 (95% CI=0.71-0.79) and 0.67 (95% CI=0.61-0.72), respectively. CONCLUSIONS: In adults and for nearly all subcategories there were no significant differences in prevalence of hypertension and stage II hypertension between protocols, indicating that protocol change may not affect the national prevalence estimates of hypertension and stage II hypertension. |
Association of usual 24-h sodium excretion with measures of adiposity among adults in the United States: NHANES, 2014
Zhao L , Cogswell ME , Yang Q , Zhang Z , Onufrak S , Jackson SL , Chen TC , Loria CM , Wang CY , Wright JD , Terry AL , Merritt R , Ogden CL . Am J Clin Nutr 2019 109 (1) 139-147 Background: Both excessive sodium intake and obesity are risk factors for hypertension and cardiovascular disease. The association between sodium intake and obesity is unclear, with few studies assessing sodium intake using 24-h urine collection. Objectives: Our objective was to assess the association between usual 24-h sodium excretion and measures of adiposity among US adults. Methods: Cross-sectional data were analyzed from a sample of 730 nonpregnant participants aged 20-69 y who provided up to 2 complete 24-h urine specimens in the NHANES 2014 and had data on overweight or obesity [body mass index (kg/m2) >/=25] and central adiposity [waist circumference (WC): >88 cm for women, >102 cm for men]. Measurement error models were used to estimate usual sodium excretion, and multiple linear and logistic regression models were used to assess its associations with measures of adiposity, adjusting for sociodemographic, health, and dietary variables [i.e., energy intake or sugar-sweetened beverage (SSB) intake]. All analyses accounted for the complex survey sample design. Results: Unadjusted mean +/- SE usual sodium excretion was 3727 +/- 43.5 mg/d and 3145 +/- 55.0 mg/d among participants with and without overweight/obesity and 3653 +/- 58.1 mg/d and 3443 +/- 35.3 mg/d among participants with or without central adiposity, respectively. A 1000-mg/d higher sodium excretion was significantly associated with 3.8-units higher BMI (95% CI: 2.8, 4.8) and a 9.2-cm greater WC (95% CI: 6.9, 11.5 cm) adjusted for covariates. Compared with participants in the lowest quartile of sodium excretion, the adjusted prevalence ratios in the highest quartile were 1.93 (95% CI: 1.69, 2.20) for overweight/obesity and 2.07 (95% CI: 1.74, 2.46) for central adiposity. The associations also were significant when adjusting for SSBs, instead of energy, in models. Conclusions: Higher usual sodium excretion is associated with overweight/obesity and central adiposity among US adults. |
Estimated 24-hour urinary sodium and potassium excretion in US adults
Cogswell ME , Loria CM , Terry AL , Zhao L , Wang CY , Chen TC , Wright JD , Pfeiffer CM , Merritt R , Moy CS , Appel LJ . JAMA 2018 319 (12) 1209-1220 Importance: In 2010, the Institute of Medicine (now the National Academy of Medicine) recommended collecting 24-hour urine to estimate US sodium intake because previous studies indicated 90% of sodium consumed was excreted in urine. Objective: To estimate mean population sodium intake and describe urinary potassium excretion among US adults. Design, Setting, and Participants: In a nationally representative cross-sectional survey of the US noninstitutionalized population, 827 of 1103 (75%) randomly selected, nonpregnant participants aged 20 to 69 years in the examination component of the National Health and Nutrition Examination Survey (NHANES) collected at least one 24-hour urine specimen in 2014. The overall survey response rate for the 24-hour urine collection was approximately 50% (75% [24-hour urine component response rate] x 66% [examination component response rate]). Exposures: 24-hour collection of urine. Main Outcomes and Measures: Mean 24-hour urinary sodium and potassium excretion. Weighted national estimates of demographic and health characteristics and mean electrolyte excretion accounting for the complex survey design, selection probabilities, and nonresponse. Results: The study sample (n = 827) represented a population of whom 48.8% were men; 63.7% were non-Hispanic white, 15.8% Hispanic, 11.9% non-Hispanic black, and 5.6% non-Hispanic Asian; 43.5% had hypertension (according to 2017 hypertension guidelines); and 10.0% reported a diagnosis of diabetes. Overall mean 24-hour urinary sodium excretion was 3608 mg (95% CI, 3414-3803). The overall median was 3320 mg (interquartile range, 2308-4524). In secondary analyses by sex, mean sodium excretion was 4205 mg (95% CI, 3959-4452) in men (n = 421) and 3039 mg (95% CI, 2844-3234) in women (n = 406). By age group, mean sodium excretion was 3699 mg (95% CI, 3449-3949) in adults aged 20 to 44 years (n = 432) and 3507 mg (95% CI, 3266-3748) in adults aged 45 to 69 years (n = 395). Overall mean 24-hour urinary potassium excretion was 2155 mg (95% CI, 2030-2280); by sex, 2399 mg (95% CI, 2253-2545) in men and 1922 mg (95% CI, 1757-2086) in women; and by age, 1986 mg (95% CI, 1878-2094) in adults aged 20 to 44 years and 2343 mg (95% CI, 2151-2534) in adults aged 45 to 69 years. Conclusions and Relevance: In cross-sectional data from a 2014 sample of US adults, estimated mean sodium intake was 3608 mg per day. The findings provide a benchmark for future studies. |
Association between urinary sodium and potassium excretion and blood pressure among adults in the United States: National Health and Nutrition Examination Survey, 2014
Jackson SL , Cogswell ME , Zhao L , Terry AL , Wang CY , Wright J , Coleman King SM , Bowman B , Chen TC , Merritt RK , Loria CM . Circulation 2017 137 (3) 237-246 Background -Higher levels of sodium and lower levels of potassium intake are associated with higher blood pressure. However, the shape and magnitude of these associations can vary by study participant characteristics or intake assessment method. Twenty-four hour urinary excretion of sodium and potassium are unaffected by recall errors and represent all sources of intake, and were collected for the first time in a nationally representative US survey. Our objective was to assess the associations of blood pressure and hypertension with 24-hour urinary excretion of sodium and potassium among US adults. Methods -Cross-sectional data from 766 participants aged 20-69 years with complete blood pressure and 24-hour urine collections in the 2014 National Health and Nutrition Examination Survey, a nationally-representative survey of the US noninstitutionalized population. Usual 24-hour urinary electrolyte excretion (sodium, potassium, and their ratio) was estimated from up to two collections on non-consecutive days, adjusting for day-to-day variability in excretion. Outcomes included systolic and diastolic blood pressure from the average of 3 measures and hypertension status, based on average blood pressure ≥140/90 and anti-hypertensive medication use. Results -After multivariable adjustment, each 1000 mg difference in usual 24-hour sodium excretion was directly associated with systolic (4.58 mmHg, 95% confidence interval 2.64,6.51) and diastolic (2.25 mmHg, 95% CI 0.83,3.67) blood pressures. Each 1000 mg difference in potassium excretion was inversely associated with systolic blood pressure (-3.72 mmHg, 95% CI -6.01,-1.42). Each 0.5 unit difference in sodium-to-potassium ratio was directly associated with systolic blood pressure (1.72 mmHg, 95% CI 0.76, 2.68). Hypertension was linearly associated with progressively higher sodium and lower potassium excretion; compared with the lowest quartiles of excretion, the adjusted odds of hypertension for the highest quartiles were 4.22 (95% CI 1.36, 13.15) for sodium, and 0.38 (95% CI 0.17, 0.87) for potassium, respectively, P<0.01 for trends. Conclusions -These cross-sectional results show a strong dose-response association between urinary sodium excretion and blood pressure, and an inverse association between urinary potassium excretion and blood pressure, in a nationally representative sample of US adults. |
Comparison of blood pressure measurements obtained in the home setting: Analysis of the Health Measures at Home Study
Nwankwo T , Gindi R , Chen TC , Galinsky A , Miller I , Terry A . Blood Press Monit 2016 21 (6) 327-334 BACKGROUND: Automated blood pressure (BP) devices have been used in the home for self-management purposes and are increasingly being used in population-based research. Although these devices are convenient and affordable and may be used by inexperienced lay personnel, the potential impact of an examiner's skill level on the results needs to be evaluated quantitatively. The aim of this study was to compare BP measurements obtained in a home setting by personnel with healthcare experience with those obtained by personnel without healthcare experience. In addition, the percent agreement in high blood pressure (HBP) classification between the home BP measurement by the field interviewer (FI) and measurements obtained in a standardized environment was examined. METHODS: The Health Measures at Home Study was a pilot study carried out among 128 adult participants recruited from the National Health and Nutrition Examination Survey. The Health Measures at Home Study provided the opportunity to compare the BP values obtained with an automated device in a home setting by both experienced health technicians (HTs) with those obtained by FIs who had no healthcare experience. Differences between measurements obtained by the HT and measurements obtained by the FI were assessed using paired t-tests, Pearson's correlations, and Bland-Altman plots. Percent agreement and kappa-statistics were used to assess agreement in HBP classification between examiners in the home. Measurements obtained by the FI were also compared with those obtained in the National Health and Nutrition Examination Survey mobile exam center (MEC) by a physician using percent agreement and kappa-statistics. RESULTS: There was a high correlation in both systolic blood pressure (SBP; r=0.903) and diastolic blood pressure (DBP; r=0.894) between measurements obtained by HTs and those obtained by FIs. The mean SBP and DBP obtained by the FIs (SBP, 119.0+/-14.4 mmHg; DBP, 71.9+/-9.8 mmHg) were significantly higher than the HT measurements (SBP, 117.0+/-12.7 mmHg; DBP, 69.9.9+/-9.2 mmHg). In the home, the FI classified 11.7% as having HBP, whereas the HT classified 7.0%. The percent of individuals classified as having HBP by the physician in the MEC was 10.2% of the participants. CONCLUSION: Operationally, FIs could take BP measurements in the home; however, there were some differences between measurements obtained by the FI and HT. The absolute difference between measurements obtained by the FI and those obtained by the HT in the home showed that measurements obtained by the FI tended to be higher than the HT, but the magnitude of these differences was less than 5 mmHg. The HT classified 7.0% of HBP whereas the FI classified 11.7% of HBP. Similarly, the FI and the MEC physician classified a different percent of individuals with HBP. Further investigation is warranted to determine the cause of these small but significant absolute differences between measurements obtained by the FI and HT. |
Feasibility of collecting 24-h urine to monitor sodium intake in the National Health and Nutrition Examination Survey
Terry AL , Cogswell ME , Wang CY , Chen TC , Loria CM , Wright JD , Zhang X , Lacher DA , Merritt RK , Bowman BA . Am J Clin Nutr 2016 104 (2) 480-8 BACKGROUND: Twenty-four-hour urine sodium excretion is recommended for monitoring population sodium intake. Because of concerns about participation and completion, sodium excretion has not been collected previously in US nationally representative surveys. OBJECTIVE: We assessed the feasibility of implementing 24-h urine collections as part of a nationally representative survey. DESIGN: We selected a random half sample of nonpregnant US adults aged 20-69 y in 3 geographic locations of the 2013 NHANES. Participants received explicit instructions, started and ended the urine collection in a urine study mobile examination center, and answered questions about their collection. Among those with a complete 24-h urine collection, a random one-half were asked to collect a second 24-h urine sample. Sodium, potassium, chloride, and creatinine excretion were analyzed. RESULTS: The final NHANES examination response rate for adults aged 20-69 y in these 3 study locations was 71%. Of those examined (n = 476), 282 (59%) were randomly selected to participate in the 24-h urine collection. Of these, 212 persons [75% of those selected for 24-h urine collection; 53% (equal to 71% x 75% of those selected for the NHANES)] collected a complete initial 24-h specimen and 92 persons (85% of 108 selected) collected a second complete 24-h urine sample. More men than women completed an initial collection (P = 0.04); otherwise, completion did not vary by sociodemographic characteristics, body mass index, education, or employment status for either collection. Mean 24-h urine volume and sodium excretion were 1964 +/- 1228 mL and 3657 +/- 2003 mg, respectively, for the first 24-h urine sample, and 2048 +/- 1288 mL and 3773 +/- 1891 mg, respectively, for the second collection. CONCLUSION: Given the 53% final component response rate and 75% completion rate, 24-h urine collections were deemed feasible and implemented in the NHANES 2014 on a subsample of adults aged 20-69 y to assess population sodium intake. This study was registered at clinicaltrials.gov as NCT02723682. |
Estimating the population distribution of usual 24-hour sodium excretion from timed urine void specimens using a statistical approach accounting for correlated measurement errors
Wang CY , Carriquiry AL , Chen TC , Loria CM , Pfeiffer CM , Liu K , Sempos CT , Perrine CG , Cogswell ME . J Nutr 2015 145 (5) 1017-24 BACKGROUND: High US sodium intake and national reduction efforts necessitate developing a feasible and valid monitoring method across the distribution of low-to-high sodium intake. OBJECTIVE: We examined a statistical approach using timed urine voids to estimate the population distribution of usual 24-h sodium excretion. METHODS: A sample of 407 adults, aged 18-39 y (54% female, 48% black), collected each void in a separate container for 24 h; 133 repeated the procedure 4-11 d later. Four timed voids (morning, afternoon, evening, overnight) were selected from each 24-h collection. We developed gender-specific equations to calibrate total sodium excreted in each of the one-void (e.g., morning) and combined two-void (e.g., morning + afternoon) urines to 24-h sodium excretion. The calibrated sodium excretions were used to estimate the population distribution of usual 24-h sodium excretion. Participants were then randomly assigned to modeling (n = 160) or validation (n = 247) groups to examine the bias in estimated population percentiles. RESULTS: Median bias in predicting selected percentiles (5th, 25th, 50th, 75th, 95th) of usual 24-h sodium excretion with one-void urines ranged from -367 to 284 mg (-7.7 to 12.2% of the observed usual excretions) for men and -604 to 486 mg (-14.6 to 23.7%) for women, and with two-void urines from -338 to 263 mg (-6.9 to 10.4%) and -166 to 153 mg (-4.1 to 8.1%), respectively. Four of the 6 two-void urine combinations produced no significant bias in predicting selected percentiles. CONCLUSIONS: Our approach to estimate the population usual 24-h sodium excretion, which uses calibrated timed-void sodium to account for day-to-day variation and covariance between measurement errors, produced percentile estimates with relatively low biases across low-to-high sodium excretions. This may provide a low-burden, low-cost alternative to 24-h collections in monitoring population sodium intake among healthy young adults and merits further investigation in other population subgroups. This study was registered at clinicaltrials.gov as NCT01631240. |
Collection and laboratory methods for dried blood spots for hemoglobin A1c and total and high-density lipoprotein cholesterol in population based surveys
Miller IM , Lacher DA , Chen TC , Zipf GW , Gindi RM , Galinsky AM , Nwankwo T , Terry AL . Clin Chim Acta 2015 445 143-54 BACKGROUND: The Health Measures at Home Study was a study designed to evaluate the feasibility of incorporating dried blood spots (DBS) collection into the National Health Interview Survey and to compare the proficiencies between field interviewers and health technicians in obtaining DBS. METHODS: DBS collection and venipuncture were attempted on 125 participants. The DBS were collected in the participant's home and venous blood was collected in the National Health and Nutrition Examination Survey (NHANES) mobile examination center. The DBS results were compared to venous results in the NHANES for the measurements of hemoglobin A1c (HbA1c) and total and high-density lipoprotein (HDL) cholesterol. RESULTS: Field interviewers and health technicians were able to collect the DBS for greater than 95% of participants. For DBS, health technicians and field interviewers were highly correlated for HbA1c (r=0.92) and total cholesterol (r=0.89), but not for HDL cholesterol (r=0.72). The DBS results of interviewers and health technicians compared to the venous method for HbA1c (r=0.90), but did not compare well for HDL cholesterol (r=0.64-0.66) and total cholesterol (r=0.65-0.67). CONCLUSION: DBS was comparable to venous HbA1c, but not for total and HDL cholesterol. Health technicians and field interviewers had similar performance for DBS methods, except HDL cholesterol. |
Validity of predictive equations for 24-h urinary sodium excretion in adults aged 18-39 y
Cogswell ME , Wang CY , Chen TC , Pfeiffer CM , Elliott P , Gillespie CD , Carriquiry AL , Sempos CT , Liu K , Perrine CG , Swanson CA , Caldwell KL , Loria CM . Am J Clin Nutr 2013 98 (6) 1502-13 BACKGROUND: Collecting a 24-h urine sample is recommended for monitoring the mean population sodium intake, but implementation can be difficult. OBJECTIVE: The objective was to assess the validity of published equations by using spot urinary sodium concentrations to predict 24-h sodium excretion. DESIGN: This was a cross-sectional study, conducted from June to August 2011 in metropolitan Washington, DC, of 407 adults aged 18-39 y, 48% black, who collected each urine void in a separate container for 24 h. Four timed voids (morning, afternoon, evening, and overnight) were selected from each 24-h collection. Published equations were used to predict 24-h sodium excretion with spot urine by specimen timing and race-sex subgroups. We examined mean differences with measured 24-h sodium excretion (bias) and individual differences with the use of Bland-Altman plots. RESULTS: Across equations and specimens, mean bias in predicting 24-h sodium excretion for all participants ranged from -267 to 1300 mg (Kawasaki equation). Bias was least with International Cooperative Study on Salt, Other Factors, and Blood Pressure (INTERSALT) equations with morning (-165 mg; 95% CI: -295, 36 mg), afternoon (-90 mg; -208, 28 mg), and evening (-120 mg; -230, -11 mg) specimens. With overnight specimens, mean bias was least when the Tanaka (-23 mg; 95% CI: -141, 95 mg) or Mage (-145 mg; -314, 25 mg) equations were used but was statistically significant when using the Tanaka equations among females (216 to 243 mg) and the Mage equations among races other than black (-554 to -372 mg). Significant over- and underprediction occurred across individual sodium excretion concentrations. CONCLUSIONS: Using a single spot urine, INTERSALT equations may provide the least biased information about population mean sodium intakes among young US adults. None of the equations evaluated provided unbiased estimates of individual 24-h sodium excretion. This trial was registered at clinicaltrials.gov as NCT01631240. |
Comparison of population iodine estimates from 24-hr urine and timed spot urine samples
Perrine CG , Cogswell ME , Swanson CA , Sullivan KM , Chen TC , Carriquiry A , Dodd KW , Caldwell K , Wang CY . Thyroid 2013 24 (4) 748-57 BACKGROUND: Median urine iodine concentration (UIC; microg/L) in spot urine samples is recommended for monitoring population iodine status. Other common measures are iodine:creatinine ratio (I/Cr; microg/g) and estimated 24-hr urine iodine excretion (UIE; I/Cr*predicted 24-hr Cr; microg/d). Despite different units, these measures are often used interchangeably, and it is unclear how they compare with the reference standard 24-hr UIE. METHODS: Volunteers aged 18-39y collected all their urine samples for 24-hours (n=400); voids from morning, afternoon, evening, overnight, and a composite 24-h sample were analyzed for iodine. We calculated median observed 24-hr UIE and 24-hr UIC, and spot UIC, I/Cr, and 2 measures of estimated UIE calculated using predicted 24-hr Cr from published estimates by Kesteloot & Joosens (varies by age and sex) and published equations by Mage (varies by age, sex, race, and anthropometric measures). We examined mean differences and relative difference across iodine excretion levels using Bland-Altman plots. RESULTS: Median 24-hr UIE was 173.6 microg/d and 24-hr UIC was 144.8 microg/L. From timed spot urine samples, estimates were UIC: 147.3-156.2 microg/L, I/Cr: 103.6-114.3 microg/g, estimated 24-hr UIE (Kesteloot & Joosens): 145.7-163.3 microg/d, and estimated 24-hr UIE (Mage): 176.5-187.7 microg/d. Iodine measures did not vary consistently by timing of spot urine collection. Compared with observed 24-hr UIE, on average, estimated (Mage) 24-hr UIE was not significantly different, while estimated 24-hr UIE (Kesteloot& Joosens) was significantly different for some race/sex groups. Compared with 24-hr UIC, on average, spot UIC did not differ. CONCLUSIONS: Estimates of UIC, I/Cr, and estimated 24h-hr UIE (I/Cr*predicted 24-hr Cr) from spot urine samples should not be used interchangeably. Estimated 24-hr UIE, where predicted 24-hr Cr varies by age, sex, race, and anthropometric measures and was calculated with prediction equations using data from the sample, was more comparable to observed 24-hr UIE than when predicted 24-hr Cr was from published estimates from a different population. However, currently no cutoffs exist to interpret population estimated 24-hr UIE values. |
Urinary excretion of sodium, potassium, and chloride, but not iodine, varies by timing of collection in a 24-hour calibration study
Wang CY , Cogswell ME , Loria CM , Chen TC , Pfeiffer CM , Swanson CA , Caldwell KL , Perrine CG , Carriquiry AL , Liu K , Sempos CT , Gillespie CD , Burt VL . J Nutr 2013 143 (8) 1276-82 Because of the logistic complexity, excessive respondent burden, and high cost of conducting 24-h urine collections in a national survey, alternative strategies to monitor sodium intake at the population level need to be evaluated. We conducted a calibration study to assess the ability to characterize sodium intake from timed-spot urine samples calibrated to a 24-h urine collection. In this report, we described the overall design and basic results of the study. Adults aged 18-39 y were recruited to collect urine for a 24-h period, placing each void in a separate container. Four timed-spot specimens (morning, afternoon, evening, and overnight) and the 24-h collection were analyzed for sodium, potassium, chloride, creatinine, and iodine. Of 481 eligible persons, 407 (54% female, 48% black) completed a 24-h urine collection. A subsample (n = 133) collected a second 24-h urine 4-11 d later. Mean sodium excretion was 3.54 +/- 1.51 g/d for males and 3.09 +/- 1.26 g/d for females. Sensitivity analysis excluding those who did not meet the expected creatinine excretion criterion showed the same results. Day-to-day variability for sodium, potassium, chloride, and iodine was observed among those collecting two 24-h urine samples (CV = 16-29% for 24-h urine samples and 21-41% for timed-spot specimens). Among all race-gender groups, overnight specimens had larger volumes (P < 0.01) and lower sodium (P < 0.01 -P = 0.26), potassium (P < 0.01), and chloride (P < 0.01) concentrations compared with other timed-spot urine samples, although the differences were not always significant. Urine creatinine and iodine concentrations did not differ by the timing of collection. The observed day-to-day and diurnal variations in sodium excretion illustrate the importance of accounting for these factors when developing calibration equations from this study. |
Home blood pressure monitoring and hypertension status among US adults: the National Health and Nutrition Examination Survey (NHANES), 2009-2010
Ostchega Y , Berman L , Hughes JP , Chen TC , Chiappa MM . Am J Hypertens 2013 26 (9) 1086-92 BACKGROUND: Currently, no national prevalence is available on home blood pressure monitoring (HBPM). METHODS: This report is based on national-level, cross-sectional data for noninstitutionalized US adults aged ≥18 years (n = 6,001 participants) from the National Health and Nutrition Examination Survey (NHANES), 2009-2010. RESULTS: Overall, 21.7% of the population reported HBPM in the past year. Using 2010 Census data as a reference, approximately 33 million (14.5%) individuals engaged in monthly or more frequent HBPM. The frequency of HBPM increased with higher age, higher body mass index, higher family income-to-poverty ratio, and a higher number of health-care visits (all, P < 0.05). Adults with health-care coverage engaged in monthly or more frequent HBPM than adults without coverage (16.1% vs. 8.4%; P < 0.05). Among people with hypertension (blood pressure ≥140/90mm Hg or currently taking medication), 36.6% engaged in monthly or more frequent HBPM. Of those with hypertension whom were aware, treated, and controlled, 41.9%, 43.5%, and 42.1%, respectively, engaged in monthly or more frequent HBPM. Adjusting for covariables, those who were aware of, treated for, and controlled their hypertension were more likely to have a higher frequency of HBPM than the reference: unaware, untreated, and uncontrolled (odds ratio (OR) = 3.59; OR = 3.96; and OR = 1.50, respectively). CONCLUSIONS: Approximately 14.5% of adults engaged in monthly or more frequent HBPM. Being aware of hypertension, being pharmacologically treated, and being controlled were associated with an increased frequency of HBPM. Even among these categories of people with hypertension, <50% were using HBPM. |
Comparison of dried blood spot to venous methods for hemoglobin A1c, glucose, total cholesterol, high-density lipoprotein cholesterol, and C-reactive protein
Lacher DA , Berman LE , Chen TC , Porter KS . Clin Chim Acta 2013 422 54-8 BACKGROUND: Compared to venipuncture, dried blood spots (DBS) can be collected by non-phlebotomists in non-clinical settings, is relatively inexpensive, more easily transported and stored conveniently. Disadvantages of DBS include difficult assay development and validation. This study compared dried blood spot to venous methods for hemoglobin A1c, glucose, total cholesterol, high-density lipoprotein cholesterol, and C-reactive protein. METHODS: Dried blood spot collection and venipuncture were performed on 401 participants. The DBS were collected on Whatman 903 protein saver card. For analysis, 3.2 mm blood punches were placed into a 96-well microtiter plate for elution and then analyzed. RESULTS: The Pearson squared correlation coefficients were high for hemoglobin A1c (0.92), CRP (0.84) and glucose (0.81) and low for total cholesterol (0.34) and HDL cholesterol (0.30). Sensitivity (>82%) and specificity (>90%) were high for CRP, glucose and hemoglobin A1c at selected clinical cut-points. Low sensitivity (<41%) and high specificity (>87%) were seen for total and HDL cholesterol. CONCLUSIONS: The hemoglobin A1c, glucose and CRP correlated well between DBS and venous methods (r2>0.80), but there was a poor correlation for total and HDL cholesterol (r2<0.34). This resulted in low sensitivity of DBS methods for total and HDL cholesterol. |
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