Reference intervals for measured and calculated free 25-hydroxyvitamin D in normal pregnancy

[1]  J. Adams,et al.  Vitamin D Binding Protein and the Biological Activity of Vitamin D , 2019, Front. Endocrinol..

[2]  F. Rohani,et al.  Investigation of association between maternal 25-OH vitamin D serum levels and neonatal early onset sepsis in newborns by evaluating key factors , 2019, Lipids in Health and Disease.

[3]  D. Bikle,et al.  Vitamin D Binding Protein, Total and Free Vitamin D Levels in Different Physiological and Pathophysiological Conditions , 2019, Front. Endocrinol..

[4]  B. Hocher,et al.  Why should we measure free 25(OH) vitamin D? , 2017, The Journal of Steroid Biochemistry and Molecular Biology.

[5]  R. Bouillon Genetic and Racial Differences in the Vitamin D Endocrine System. , 2017, Endocrinology and metabolism clinics of North America.

[6]  D. Bikle,et al.  Current Controversies: Are Free Vitamin Metabolite Levels a More Accurate Assessment of Vitamin D Status than Total Levels? , 2017, Endocrinology and metabolism clinics of North America.

[7]  C. Reichetzeder,et al.  Impact of vitamin D on pregnancy-related disorders and on offspring outcome , 2017, The Journal of Steroid Biochemistry and Molecular Biology.

[8]  R. Bouillon,et al.  Vitamin D metabolites in captivity? Should we measure free or total 25(OH)D to assess vitamin D status? , 2017, The Journal of Steroid Biochemistry and Molecular Biology.

[9]  N. Heureux,et al.  A Direct Assay for Measuring Free 25-Hydroxyvitamin D. , 2017, Journal of AOAC International.

[10]  B. Hocher,et al.  Need for better PTH assays for clinical research and patient treatment , 2017, Clinical chemistry and laboratory medicine.

[11]  M. Kiely,et al.  Vitamin D in pregnancy: current perspectives and future directions , 2017, Therapeutic advances in musculoskeletal disease.

[12]  B. Hocher,et al.  Why Current PTH Assays Mislead Clinical Decision Making in Patients with Secondary Hyperparathyroidism , 2017, Nephron.

[13]  M. Hur,et al.  Clinical Utility of Measurement of Vitamin D-Binding Protein and Calculation of Bioavailable Vitamin D in Assessment of Vitamin D Status , 2016, Annals of laboratory medicine.

[14]  A. Prentice,et al.  Vitamin D expenditure is not altered in pregnancy and lactation despite changes in vitamin D metabolite concentrations , 2016, Scientific Reports.

[15]  Corrie M. Whisner,et al.  Placental Megalin and Cubilin Expression is Associated with Markers of Vitamin D Status but Not Fetal Bone Growth During Adolescent Pregnancy , 2016 .

[16]  Gert B. M. Mensink,et al.  Vitamin D status among adults in Germany – results from the German Health Interview and Examination Survey for Adults (DEGS1) , 2015, BMC Public Health.

[17]  L. Ragolia,et al.  Free 25(OH)D and the Vitamin D Paradox in African Americans. , 2015, The Journal of clinical endocrinology and metabolism.

[18]  N. Terrault,et al.  Variability in free 25(OH) vitamin D levels in clinical populations , 2014, The Journal of Steroid Biochemistry and Molecular Biology.

[19]  T. Slowinski,et al.  Maternal Vitamin D Deficiency and Fetal Programming - Lessons Learned from Humans and Mice , 2014, Kidney and Blood Pressure Research.

[20]  S. Markova,et al.  A comparison of measured and calculated free 25(OH) vitamin D levels in clinical populations. , 2014, The Journal of clinical endocrinology and metabolism.

[21]  C. Betzel,et al.  Modeling of Oxidized PTH (oxPTH) and Non-oxidized PTH (n-oxPTH) Receptor Binding and Relationship of Oxidized to Non-Oxidized PTH in Children with Chronic Renal Failure, Adult Patients on Hemodialysis and Kidney Transplant Recipients , 2013, Kidney and Blood Pressure Research.

[22]  Deborah J Lee,et al.  The sunshine vitamin. , 2012, The practising midwife.

[23]  R. Chun New perspectives on the vitamin D binding protein , 2012, Cell biochemistry and function.

[24]  T. Slowinski,et al.  Measuring Parathyroid Hormone (PTH) in Patients with Oxidative Stress – Do We Need a Fourth Generation Parathyroid Hormone Assay? , 2012, PloS one.

[25]  E. Ross,et al.  The sunshine vitamin. , 2012, The journal of family health care.

[26]  R. Nair,et al.  Vitamin D: The “sunshine” vitamin , 2012, Journal of pharmacology & pharmacotherapeutics.

[27]  M. Blankenstein,et al.  Accuracy of 6 routine 25-hydroxyvitamin D assays: influence of vitamin D binding protein concentration. , 2012, Clinical chemistry.

[28]  J. Thorp,et al.  Vitamin D in pregnancy: current concepts , 2012, Current opinion in obstetrics & gynecology.

[29]  I. Bhan,et al.  First Trimester Vitamin D, Vitamin D Binding Protein, and Subsequent Preeclampsia , 2010, Hypertension.

[30]  M. Marazita,et al.  Maternal serum 25-hydroxyvitamin D concentrations are associated with small-for-gestational age births in white women. , 2010, The Journal of nutrition.

[31]  M. Christiansen,et al.  Gc globulin (vitamin D‐binding protein) levels: an inhibition ELISA assay for determination of the total concentration of Gc globulin in plasma and serum , 2004, Scandinavian Journal of Clinical and Laboratory Investigation.

[32]  C. Sweep,et al.  Relationship between free and total 1,25-dihydroxyvitamin D in conditions of modified binding. , 2001, European journal of endocrinology.

[33]  H. Nasrat,et al.  Calcium-regulating hormones and parathyroid hormone-related peptide in normal human pregnancy and postpartum: a longitudinal study. , 1997, European journal of endocrinology.

[34]  R. Mason,et al.  Immunonephelometric assay of vitamin D-binding protein. , 1992, Clinical chemistry.

[35]  Scott G Wilson,et al.  SERUM FREE 1,25‐DIHYDROXYVITAMIN D AND THE FREE 1,25‐DIHYDROXYVITAMIN D INDEX DURING A LONGITUDINAL STUDY OF HUMAN PREGNANCY AND LACTATION , 1990, Clinical endocrinology.

[36]  J. Haddad,et al.  Assessment of the free fraction of 25-hydroxyvitamin D in serum and its regulation by albumin and the vitamin D-binding protein. , 1986, The Journal of clinical endocrinology and metabolism.

[37]  P. Siiteri,et al.  Serum protein binding of 1,25-dihydroxyvitamin D: a reevaluation by direct measurement of free metabolite levels. , 1985, The Journal of clinical endocrinology and metabolism.

[38]  P. Goldschmidt-Clermont,et al.  Accurate quantitation of native Gc in serum and estimation of endogenous Gc: G-actin complexes by rocket immunoelectrophoresis. , 1985, Clinica chimica acta; international journal of clinical chemistry.

[39]  J. Haddad,et al.  Free 1,25-dihydroxyvitamin D levels in serum from normal subjects, pregnant subjects, and subjects with liver disease. , 1984, The Journal of clinical investigation.

[40]  P. G. Walsh,et al.  "Rocket" immunoelectrophoresis assay of vitamin D-binding protein (Gc globulin) in human serum. , 1982, Clinical chemistry.

[41]  G. Braunstein,et al.  Changes in 25-hydroxyvitamin D and 24,25-dihydroxyvitamin D during pregnancy. , 1979, American journal of obstetrics and gynecology.

[42]  P. D. de Moor,et al.  The measurement of the vitamin D-binding protein in human serum. , 1977, The Journal of clinical endocrinology and metabolism.

[43]  J. Haddad,et al.  Radioimmunoassay of the binding protein for vitamin D and its metabolites in human serum: concentrations in normal subjects and patients with disorders of mineral homeostasis. , 1976, The Journal of clinical investigation.

[44]  P. Dhawan,et al.  Vitamin D: Metabolism, Molecular Mechanism of Action, and Pleiotropic Effects. , 2016, Physiological reviews.

[45]  M. Speeckaert,et al.  Vitamin D binding protein: a multifunctional protein of clinical importance. , 2014, Advances in clinical chemistry.

[46]  C. Reichetzeder,et al.  Nonoxidized, biologically active parathyroid hormone determines mortality in hemodialysis patients. , 2013, The Journal of clinical endocrinology and metabolism.