Obesity-Related Hypoferremia Is Not Explained by Differences in Reported Intake of Heme and Nonheme Iron or Intake of Dietary Factors that Can Affect Iron Absorption
Abstract Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in obesity-related hypoferremia, the intake of heme and nonheme iron and the intake of other dietary factors known to affect iron absorptio...
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| Published in: | Journal of the American Dietetic Association Vol. 108; no. 1; pp. 145 - 148 |
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| Main Authors: | , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Elsevier Inc
2008
Elsevier Limited |
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| Abstract | Abstract Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in obesity-related hypoferremia, the intake of heme and nonheme iron and the intake of other dietary factors known to affect iron absorption were compared cross-sectionally from April 2002 to December 2003 in a convenience sample of 207 obese and 177 nonobese adults. Subjects completed 7-day food records, underwent phlebotomy for serum iron measurement, and had body composition assessed by dual-energy x-ray absorptiometry, during a 21-month period. Data were analyzed by analysis of covariance and multiple linear regression. Serum iron (mean±standard deviation) was significantly lower in obese than nonobese individuals (72.0±61.7 vs 85.3±58.1 μg/dL [12.888±11.0443 vs 15.2687±10.3999 μmol/L]; P <0.001). The obese cohort reported consuming more animal protein (63.6±34.5 vs 55.7±32.5 g/day; P <0.001) and more heme iron (3.6±2.8 vs 2.7±2.6 mg/day; P <0.001). Groups did not differ, however, in total daily iron consumption, including supplements. Obese subjects reported consuming less vitamin C (77.2±94.9 vs 91.8±89.5 mg/day; P =0.01), which may increase absorption of nonheme iron, and less calcium (766.2±665.0 vs 849.0±627.2 mg/day; P =0.038), which may decrease nonheme iron absorption, than nonobese subjects. Groups did not significantly differ in intake of other dietary factors that can impact absorption of iron, including phytic acid, oxalic acid, eggs, coffee, tea, zinc, vegetable protein, or copper. After accounting for demographic covariates and dietary factors expected to affect iron absorption, fat mass ( P =0.007) remained a statistically significant negative predictor of serum iron. This cross-sectional, exploratory study suggests that obesity-related hypoferremia is not associated with differences in reported intake of heme and nonheme iron or intake of dietary factors that can affect iron absorption. |
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| AbstractList | Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in obesity-related hypoferremia, the intake of heme and nonheme iron and the intake of other dietary factors known to affect iron absorption were compared cross-sectionally from April 2002 to December 2003 in a convenience sample of 207 obese and 177 nonobese adults. Subjects completed 7-day food records, underwent phlebotomy for serum iron measurement, and had body composition assessed by dual-energy x-ray absorptiometry, during a 21-month period. Data were analyzed by analysis of covariance and multiple linear regression. Serum iron (mean±standard deviation) was significantly lower in obese than nonobese individuals (72.0±61.7 vs 85.3±58.1 µg/dL [12.888±11.0443 vs 15.2687±10.3999 µmol/L];
P
<0.001). The obese cohort reported consuming more animal protein (63.6±34.5 vs 55.7±32.5 g/day;
P
<0.001) and more heme iron (3.6±2.8 vs 2.7±2.6 mg/day;
P
<0.001). Groups did not differ, however, in total daily iron consumption, including supplements. Obese subjects reported consuming less vitamin C (77.2±94.9 vs 91.8±89.5 mg/day;
P
=0.01), which may increase absorption of nonheme iron, and less calcium (766.2±665.0 vs 849.0±627.2 mg/day;
P
=0.038), which may decrease nonheme iron absorption, than nonobese subjects. Groups did not significantly differ in intake of other dietary factors that can impact absorption of iron, including phytic acid, oxalic acid, eggs, coffee, tea, zinc, vegetable protein, or copper. After accounting for demographic covariates and dietary factors expected to affect iron absorption, fat mass (
P
=0.007) remained a statistically significant negative predictor of serum iron. This cross-sectional, exploratory study suggests that obesity-related hypoferremia is not associated with differences in reported intake of heme and nonheme iron or intake of dietary factors that can affect iron absorption. Abstract Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in obesity-related hypoferremia, the intake of heme and nonheme iron and the intake of other dietary factors known to affect iron absorption were compared cross-sectionally from April 2002 to December 2003 in a convenience sample of 207 obese and 177 nonobese adults. Subjects completed 7-day food records, underwent phlebotomy for serum iron measurement, and had body composition assessed by dual-energy x-ray absorptiometry, during a 21-month period. Data were analyzed by analysis of covariance and multiple linear regression. Serum iron (mean±standard deviation) was significantly lower in obese than nonobese individuals (72.0±61.7 vs 85.3±58.1 μg/dL [12.888±11.0443 vs 15.2687±10.3999 μmol/L]; P <0.001). The obese cohort reported consuming more animal protein (63.6±34.5 vs 55.7±32.5 g/day; P <0.001) and more heme iron (3.6±2.8 vs 2.7±2.6 mg/day; P <0.001). Groups did not differ, however, in total daily iron consumption, including supplements. Obese subjects reported consuming less vitamin C (77.2±94.9 vs 91.8±89.5 mg/day; P =0.01), which may increase absorption of nonheme iron, and less calcium (766.2±665.0 vs 849.0±627.2 mg/day; P =0.038), which may decrease nonheme iron absorption, than nonobese subjects. Groups did not significantly differ in intake of other dietary factors that can impact absorption of iron, including phytic acid, oxalic acid, eggs, coffee, tea, zinc, vegetable protein, or copper. After accounting for demographic covariates and dietary factors expected to affect iron absorption, fat mass ( P =0.007) remained a statistically significant negative predictor of serum iron. This cross-sectional, exploratory study suggests that obesity-related hypoferremia is not associated with differences in reported intake of heme and nonheme iron or intake of dietary factors that can affect iron absorption. Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in obesity-related hypoferremia, the intake of heme and nonheme iron and the intake of other dietary factors known to affect iron absorption were compared cross-sectionally from April 2002 to December 2003 in a convenience sample of 207 obese and 177 nonobese adults. Subjects completed 7-day food records, underwent phlebotomy for serum iron measurement, and had body composition assessed by dual-energy x-ray absorptiometry, during a 21-month period. Data were analyzed by analysis of covariance and multiple linear regression. Serum iron (mean ± standard deviation) was significantly lower in obese than nonobese individuals (72.0 ± 61.7 vs 85.3 & plusmn;58.1 μg/dL [12.888 ± 11.0443 vs 15.2687 ± 10.3999 μmol/L]; P < 0.001). The obese cohort reported consuming more animal protein (63.6 ± 34.5 vs 55.7 ± 32.5 g/day; P < 0.001) and more heme iron (3.6 ± 2.8 vs 2.7 ± 2.6 mg/day; P < 0.001). Groups did not differ, however, in total daily iron consumption, including supplements. Obese subjects reported consuming less vitamin C (77.2 ± 94.9 vs 91.8 ± 89.5 mg/day; P=0.01), which may increase absorption of nonheme iron, and less calcium (766.2 ± 665.0 vs 849.0 ± 627.2 mg/day; P=0.038), which may decrease nonheme iron absorption, than non-obese subjects. Groups did not significantly differ in intake of other dietary factors that can impact absorption of iron, including phytic acid, oxalic acid, eggs, coffee, tea, zinc, vegetable protein, or copper. After accounting for demographic covariates and dietary factors expected to affect iron absorption, fat mass (P=0.007) remained a statistically significant negative predictor of serum iron. This cross-sectional, exploratory study suggests that obesity-related hypoferremia is not associated with differences in reported intake of heme and nonheme iron or intake of dietary factors that can affect iron absorption. Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in obesity-related hypoferremia, the intake of heme and nonheme iron and the intake of other dietary factors known to affect iron absorption were compared cross-sectionally from April 2002 to December 2003 in a convenience sample of 207 obese and 177 nonobese adults. Subjects completed 7-day food records, underwent phlebotomy for serum iron measurement, and had body composition assessed by dual-energy x-ray absorptiometry, during a 21-month period. Data were analyzed by analysis of covariance and multiple linear regression. Serum iron (mean±standard deviation) was significantly lower in obese than nonobese individuals (72.0±61.7 vs 85.3±58.1 μg/dL [12.888±11.0443 vs 15.2687±10.3999 μmol/L]; P<0.001). The obese cohort reported consuming more animal protein (63.6±34.5 vs 55.7±32.5 g/day; P<0.001) and more heme iron (3.6±2.8 vs 2.7±2.6 mg/day; P<0.001). Groups did not differ, however, in total daily iron consumption, including supplements. Obese subjects reported consuming less vitamin C (77.2±94.9 vs 91.8±89.5 mg/day; P=0.01), which may increase absorption of nonheme iron, and less calcium (766.2±665.0 vs 849.0±627.2 mg/day; P=0.038), which may decrease nonheme iron absorption, than nonobese subjects. Groups did not significantly differ in intake of other dietary factors that can impact absorption of iron, including phytic acid, oxalic acid, eggs, coffee, tea, zinc, vegetable protein, or copper. After accounting for demographic covariates and dietary factors expected to affect iron absorption, fat mass ( P=0.007) remained a statistically significant negative predictor of serum iron. This cross-sectional, exploratory study suggests that obesity-related hypoferremia is not associated with differences in reported intake of heme and nonheme iron or intake of dietary factors that can affect iron absorption. Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in obesity-related hypoferremia, the intake of heme and nonheme iron and the intake of other dietary factors known to affect iron absorption were compared cross-sectionally from April 2002 to December 2003 in a convenience sample of 207 obese and 177 nonobese adults. Subjects completed 7-day food records, underwent phlebotomy for serum iron measurement, and had body composition assessed by dual-energy x-ray absorptiometry, during a 21-month period. Data were analyzed by analysis of covariance and multiple linear regression. Serum iron (mean+/-standard deviation) was significantly lower in obese than nonobese individuals (72.0+/-61.7 vs 85.3+/-58.1 microg/dL [12.888+/-11.0443 vs 15.2687+/-10.3999 micromol/L]; P<0.001). The obese cohort reported consuming more animal protein (63.6+/-34.5 vs 55.7+/-32.5 g/day; P<0.001) and more heme iron (3.6+/-2.8 vs 2.7+/-2.6 mg/day; P<0.001). Groups did not differ, however, in total daily iron consumption, including supplements. Obese subjects reported consuming less vitamin C (77.2+/-94.9 vs 91.8+/-89.5 mg/day; P=0.01), which may increase absorption of nonheme iron, and less calcium (766.2+/-665.0 vs 849.0+/-627.2 mg/day; P=0.038), which may decrease nonheme iron absorption, than nonobese subjects. Groups did not significantly differ in intake of other dietary factors that can impact absorption of iron, including phytic acid, oxalic acid, eggs, coffee, tea, zinc, vegetable protein, or copper. After accounting for demographic covariates and dietary factors expected to affect iron absorption, fat mass (P=0.007) remained a statistically significant negative predictor of serum iron. This cross-sectional, exploratory study suggests that obesity-related hypoferremia is not associated with differences in reported intake of heme and nonheme iron or intake of dietary factors that can affect iron absorption. Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in obesity-related hypoferremia, the intake of heme and nonheme iron and the intake of other dietary factors known to affect iron absorption were compared cross-sectionally from April 2002 to December 2003 in a convenience sample of 207 obese and 177 nonobese adults. Subjects completed 7-day food records, underwent phlebotomy for serum iron measurement, and had body composition assessed by dual-energy x-ray absorptiometry, during a 21-month period. Data were analyzed by analysis of covariance and multiple linear regression. Serum iron (mean±standard deviation) was significantly lower in obese than nonobese individuals (72.0±61.7 vs 85.3±58.1 μg/dL [12.888±11.0443 vs 15.2687±10.3999 μmol/L]; P<0.001). The obese cohort reported consuming more animal protein (63.6±34.5 vs 55.7±32.5 g/day; P<0.001) and more heme iron (3.6±2.8 vs 2.7±2.6 mg/day; P<0.001). Groups did not differ, however, in total daily iron consumption, including supplements. Obese subjects reported consuming less vitamin C (77.2±94.9 vs 91.8±89.5 mg/day; P=0.01), which may increase absorption of nonheme iron, and less calcium (766.2±665.0 vs 849.0±627.2 mg/day; P=0.038), which may decrease nonheme iron absorption, than nonobese subjects. Groups did not significantly differ in intake of other dietary factors that can impact absorption of iron, including phytic acid, oxalic acid, eggs, coffee, tea, zinc, vegetable protein, or copper. After accounting for demographic covariates and dietary factors expected to affect iron absorption, fat mass (P=0.007) remained a statistically significant negative predictor of serum iron. This cross-sectional, exploratory study suggests that obesity-related hypoferremia is not associated with differences in reported intake of heme and nonheme iron or intake of dietary factors that can affect iron absorption. |
| Author | Yanoff, Lisa B., MD Yanovski, Jack A., MD, PhD McHugh, Teresa, RN Menzie, Carolyn M Denkinger, Blakeley I., MPH, RD Calis, Karim A., PharmD, MPH Sebring, Nancy G., MEd, RD |
| Author_xml | – sequence: 1 fullname: Menzie, Carolyn M – sequence: 2 fullname: Yanoff, Lisa B., MD – sequence: 3 fullname: Denkinger, Blakeley I., MPH, RD – sequence: 4 fullname: McHugh, Teresa, RN – sequence: 5 fullname: Sebring, Nancy G., MEd, RD – sequence: 6 fullname: Calis, Karim A., PharmD, MPH – sequence: 7 fullname: Yanovski, Jack A., MD, PhD |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/18156002$$D View this record in MEDLINE/PubMed |
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| Snippet | Abstract Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors... Hypoferremia is more prevalent in obese than nonobese adults, but the reason for this phenomenon is unknown. To elucidate the role dietary factors play in... |
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| SubjectTerms | Absorptiometry, Photon Adipose Tissue - metabolism Adult Antioxidants - administration & dosage Antioxidants - metabolism Ascorbic Acid - administration & dosage Ascorbic Acid - pharmacology Body Composition - physiology body mass index Calcium, Dietary - administration & dosage Calcium, Dietary - pharmacology Cross-Sectional Studies Diet Diet Records diet-related diseases dietary minerals dual-energy X-ray absorptiometry Female Gastroenterology and Hepatology Health behavior heme iron Humans hypoferremia Internal Medicine Intestinal Absorption - drug effects Intestinal Absorption - physiology Iron Iron - blood iron absorption Iron Deficiencies iron deficiency anemia Iron, Dietary - administration & dosage Iron, Dietary - metabolism Iron, Dietary - pharmacokinetics linear models Male Medical research Nutrition Nutrition Assessment Obesity Obesity - blood Obesity - metabolism overweight |
| Title | Obesity-Related Hypoferremia Is Not Explained by Differences in Reported Intake of Heme and Nonheme Iron or Intake of Dietary Factors that Can Affect Iron Absorption |
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