Stable isotopes in inborn errors of metabolism K. BaerlocherG. F. HoffmannH. Przyrembel Pages: S1 - S1
Stable isotopes in biosciences, their measurement and models for amino acid metabolism D. M. Bier Pages: S2 - S8
Measurement of glucose turnover – implications for the study of inborn errors of metabolism D. HallidayO. A. F. Bodamer Pages: S35 - S38
Protein turnover in critically ill children O. A. F. BodamerJ. V. LeonardD. Halliday Pages: S59 - S61
Studies of apolipoprotein B-100 metabolism using radiotracers and stable isotopes T. DemantC. J. Packard Pages: S75 - S77
Stable isotope studies of phytanic acid α-oxidation: in vivo production of formic acid N. M. VerhoevenD. S. M. SchorC. Jakobs Pages: S83 - S87
Assessment of energy expenditure in metabolic disorders O. A. F. BodamerG. F. HoffmannD. Rating Pages: S24 - S28
Dietary treatment in late-onset acid maltase deficiency O. A. F. BodamerJ. V. LeonardD. Halliday Pages: S39 - S42
Iron, copper, and zinc absorption and turnover; the use of stable isotopes P. J. Aggett Pages: S29 - S34
Metabolism of branched-chain amino acids in maple syrup urine disease P. SchadewaldtU. Wendel Pages: S62 - S66
New insights into lipid and fatty acid metabolism via stable isotopes H. DemmelmairT. SauerwaldT. Richter Pages: S70 - S74
Stable isotope studies in inborn errors of metabolism – implications and conclusions J. V. LeonardO. A. F. Bodamer Pages: S88 - S89
In vivo stable isotope studies in three patients affected with mitochondrial fatty acid oxidation disorders: Limited diagnostic use of 1-13C fatty acid breath test using bolus technique C. JakobsJ. KneerJ. M. Saudubray Pages: S78 - S82
Quantitative assessment of whole body galactose metabolism in galactosemic patients G. T. BerryI. NissimS. Segal Pages: S43 - S49
Integration of amino acid and carbon intermediary metabolism: studies with uniformly labeled tracers and mass isotopomer analysis P. J. ReedsH. K. BertholdL. J. Wykes Pages: S50 - S58