AmblerRP. Standards and accuracy in amino acid analysis. In: RattenburyJM, ed. Amino Acid Analysis. Chichester: Ellis Horwood Ltd, 1981: 119–37.
3.
MooreSSteinWH. Chromatography of amino acids on sulfonated polystyrene resins. J Biol Chem1951; 192: 663–81.
4.
SteinWHMooreS.The free amino acids of human blood plasma. J Biol Chem1954; 211: 915–26.
5.
SpackmanDHSteinWHMooreS.Automatic recording apparatus for use in the chromatography of amino acids. Anal Chem1958; 30: 1190–206.
6.
RattenburyJMTownsendJC. Establishment of an external quality-assessment scheme for amino acid analyses: Results from assays of samples distributed during two years. Clin Chem1990; 36: 217–24.
7.
ParvyPBardetJRabierDGasquetMKamounP.Intra- and inter-laboratory quality control for assay of amino acids in biological fluids: 14 years of the French experience. Clin Chem1993; 39: 1831–6.
8.
BergmanTAgerberthBJörnvallH.Direct analysis of peptides and amino acids from capillary electrophoresis. Fedn Euro Biochem Soc1991; 283: 100–3.
9.
BarrettGC. Amino acids. In: JonesJH. Amino Acids and Peptides, Vol. 23. Cambridge: Royal Society of Chemistry, 1992: 1–88.
10.
MoodieIMShephardGSLabadariosD.A review of quantitative ion exchange, high performance liquid and gas chromatographic analysis of amino acids in physiological fluids. J High Resol Chromatogr1989; 12: 509–16.
11.
BlomWHuijmansJ.Differential diagnosis of (inherited) amino acid metabolism or transport disorders. Sci Tools1985; 32: 10–22.
12.
BlomWHuijmansJGM. Differential diagnosis of (inherited) amino acid metabolism or transport disorders. Amino acids1992; 2: 25–67.
13.
ErsserRSDaveyJF. Liquid chromatographic analysis of amino acids in physiological fluids: Recent advances. Med Lab Sci1991; 48: 59–71.
14.
LongCLGeigerJW. Automatic analysis of amino acids: Effect of resin cross-linking and operational variables on resolution. Anal Biochem1969; 29: 265–83.
15.
DeylZ.Profiling of amino acids in body fluids and tissues by means of liquid chromatography. J Chromatogr1986; 379: 177–250.
16.
PetersJHLinSCBerridgeBJJrCummingsJGChaoWR. Amino acids, including asparagine and glutamine, in plasma and urine of normal human subjects. Proc Soc Exp Biol Med1969; 131: 281–8.
17.
WilliamsAP. General problems associated with the analysis of amino acids by automated ion-exchange chromatography. J Chromatogr1986; 373: 175–90.
18.
LeePLYSlocumRH. A high-resolution method for amino acid analysis of physiological fluids containing mixed disulfides. Clin Chem1988; 34: 719–23.
19.
HubbardRWChambersJGSanchezASlocumRLeeP.Amino acid analysis of plasma: Studies in sample preparation. J Chromatogr1988; 431: 163–9.
20.
ArmstrongMDStaveU.A study of plasma free amino acid levels. I. Study of factors affecting validity of amino acid analyses. Metabolism1973; 22: 549–60.
21.
ThomasAJ. Developments in the fluorimetric detection of amino acids. In: RattenburyJM, ed. Amino Acid Analysis. Chichester: Ellis Horwood Ltd, 1981: 37–47.
22.
GardnerMLG. A comparison of internal and external standardization in amino acid analysis. Anal Biochem1985; 150: 174–7.
DaveyJFErsserRS. Amino acid analysis of physiological fluids by high-performance liquid chromatography with phenylisothiocyanate derivatization and comparison with ion-exchange chromatography. J Chromatogr1990; 528: 9–23.
25.
FleuryMOAshleyDV. High-performance liquid chromatographic analysis of amino acids in physiological fluids: On-line pre-column derivatization with o-phthaldialdehyde. Anal Biochem1983; 133: 330–5.
26.
DongMWGantJR. High-speed liquid chromatographic analysis of amino acids by post-column sodium hypochlorite-o-phthalaldehyde reaction. J Chromatogr1985; 327: 17–25.
27.
PerrettD.Ampicillin and amino acid analysis. Clin Chim Acta1975; 64: 343–6.
28.
HillACaseyRZaleskiWA. Difficulties and pitfalls in the interpretation of screening tests for the detection of inborn errors of metabolism. Clin Chim Acta1976; 72: 1–15.
FürstPPollackLGraserTAGodelHStehleP.Appraisal of four pre-column derivatization methods for the high-performance liquid chromatographic determination of free amino acids in biological materials. J Chromatogr1990; 499: 557–69.
33.
WatanabeYImaiK.Sensitive detection of amino acids in human serum and dried blood disc of 3 mm diameter for diagnosis of inborn errors of metabolism. J Chromatogr1984; 309: 279–86.
34.
GriffinMPriceSJPalmerT.A rapid and sensitive procedure for the quantitative determination of plasma amino acids. Clin Chim Acta1982; 125: 89–95.
GraserTAGodelHGAlbersSFöldiPFürstP.An ultra rapid and sensitive high-performance liquid chromatographic method for determination of tissue and plasma free amino acids. Anal Biochem1985; 151: 142–52.
37.
TurnellDCCooperJDH. Rapid assay for amino acids in serum or urine by pre-column derivatization and reversed-phase liquid chromatography. Clin Chem1982; 28: 527–31.
38.
ScottPHSandhamSBalmerSEWhartonBA. Diet-related reference values for plasma amino acids in newborns measured by reversed-phase HPLC. Clin Chem1990; 36: 1922–7.
39.
EinarssonSJosefssonBLagerkvistS.Determination of amino acids with 9-fluorenylmethylchloroformate and reversed-phase high-performance liquid chromatography. J Chromatogr1983; 282: 609–18.
40.
WatanabeYImaiK.High-performance liquid chromatography and sensitive detection of amino acids derivatized with 7-fluoro-4-nitrobenzo-2-oxa-1, 3-diazole. Anal Biochem1981; 116: 471–2.
41.
WatanabeYImaiK.Pre-column labelling for high-performance liquid chromatography of amino acids with 7-fluoro-4-nitrobenzo-2-oxa-1,3-diazole and its application to protein hydrolysates. J Chromatogr1982; 239: 723–32.
van EijkHMHvan der HeijdenMAHvan BerloCLHSoetersPB. Fully automated liquid-chromatographic determination of amino acids. Clin Chem1988; 34: 2510–13.
44.
JosephMHMarsdenCA. Amino acids and small peptides. In: LimCK, ed. HPLC of Small Molecules. Oxford: IRL Press1986: 13–28.
45.
CooperJDHOgdenGMcIntoshJTurnellDC. The stability of the o-phthalaldehyde/2-mercaptoethanol derivatives of amino acids: An investigation using high-pressure liquid chromatography with a pre-column derivatization technique. Anal Biochem1984; 142: 98–102.
46.
BarrettGC. Amino acids. In: JonesJH. Amino Acids and Peptides, Vol. 22. Cambridge: Royal Society of Chemistry, 1991: 1–82.
47.
QureshiGAQureshiAR. Determination of free amino acids in biological samples: Problems of quantitation. J Chromatogr1989; 491: 281–9.
48.
BarrettGC. Amino acids. In: DaviesJS. Amino Acids and Peptides, Vol. 24. Cambridge: Royal Society of Chemistry, 1993: 1–80.
49.
CooperJDHTurnellDCGreenBWrightDJCoombesEJ. Why the assay of serum cystine by protein precipitation and chromatography should be abandoned. Ann Clin Biochem1988; 25: 577–82.
50.
LundsjöAHagelbergSPalmérKLindbladBS. Amino acid profiles by HPLC after filter paper sampling: ‘appropriate technology’ for monitoring of nutritional status. Clin Chim Acta1990; 191: 201–20.
51.
PramanikBCMoomawCREvansCTCohenSASlaughterCA. Identification of phenylthiocarbamyl amino acids for compositional analysis by thermospray liquid chromatography/mass spectrometry. Anal Biochem1989; 176: 269–77.
52.
SherwoodRATitheradgeACRichardsDA. Measurement of plasma and urine amino acids by high-performance liquid chromatography with electrochemical detection using phenylisothiocyanate derivatization. J Chromatogr1990; 528: 293–303.
53.
CohenSAMichaudDP. Synthesis of a fluorescent derivatizing reagent, 6-aminoquinolyl-N-hydroxysuccinimidyl carbamate, and its application for the analysis of hydrolysate amino acids via high-performance liquid chromatography. Anal Biochem1993; 211: 1–9.
54.
EinarssonS.Selective determination of secondary amino acids using precolumn derivatization with 9-fluorenylmethylchloroformate and reversed-phase high-performance liquid chromatography. J Chromatogr1985; 348: 213–20.
55.
BiggsHGGentilcoreLJ. Liquid-chromatographic measurement of amino acids in biological samples after formation of phenylthiohydantoin derivatives. Clin Chem1984; 30: 851–5.
TapuhiYSchmidtDELindnerWKargerBL. Dansylation of amino acids for high-performance liquid chromatography analysis. Anal Biochem1981; 115: 123–9.
58.
BarbarashGRQuarlesRH. Single-column amino acid analysis with o-phthalaldehyde: An evaluation of two commercial buffer systems. Anal Biochem1982; 119: 177–84.
59.
AnderssonAIsakssonABrattströmLHultbergB.Homocysteine and other thiols determined in plasma by HPLC and thiol-specific postcolumn derivatization. Clin Chem1993; 39: 1590–7.
60.
MackenzieSL. Recent developments in amino acid analysis by gas-liquid chromatography. In: GlickD, ed. Methods of Biochemical Analysis, Vol. 27. New York: John Wiley & Sons, 1981: 1–88.
61.
BlauK.Amino acid analysis by gas chromatography. In: RattenburyJM, ed. Amino Acid Analysis. Chichester: Ellis Horwood, 1981: 48–65.
62.
MackenzieSL. Amino acids. In: ClementRE, ed. Gas Chromatography Biochemical, Biomedical and Clinical Applications. New York: John Wiley & Sons, 1990: 267–93.
63.
GehrkeCWZumwaltRWKuoKC, eds. Amino Acid Analysis By Gas Liquid Chromatography. Florida: CRC Press, 1987.
64.
BlauKKingG.Handbook of Derivatives for Chromatography. London: Heyden & Sons, 1978.
65.
BlauKHalketJ, eds. Handbook of Derivatives for Chromatography, 2nd edn.Chichester: John Wiley & Sons, 1993.
66.
ChauhanJDarbreA.Determination of amino acids by means of glass capillary gas-liquid chromatography with temperature-programmed electron capture detection. J Chromatogr1982; 236: 151–6.
67.
FortierGTenaschukDMacKenzieSL. Capillary gas chromatography micro-assay for pyroglutamic, glutamic and aspartic acids, and glutamine and asparagine. J Chromatogr1986; 361: 253–61.
68.
das NevesHJ ChavesVasconcelosAMP. Capillary gas chromatography of amino acids, including asparagine and glutamine: Sensitive gas chromatographic-mass spectrometric and selected ion monitoring gas chromatographic-mass spectrometric detection of the N,O(S)-tert-butyldimethylsilyl derivatives. J Chromatogr1987; 392: 249–58.
69.
MackenzieSL. Amino acid analysis by gas-liquid chromatography using a nitrogen selective detector. J Chromatogr1986; 358: 219–30.
70.
BonvellSIMonheimerRH. A gas-liquid chromatographic analysis of sulfur-containing amino acids employing flame photometric detection. J Chromatogr Sci1980; 18: 18–22.
71.
DesgresJBoissonDPadieuP.Gas-liquid chromatography of isobutyl esters, N(O)-heptafluorobutyrate derivatives of amino acids on a glass capillary column for quantitative separation in clinical biology. J Chromatogr1979; 162: 133–52.
72.
MillingtonDSKodoNTeradaNRoeDChaceDH. The analysis of diagnostic markers of genetic disorders in human blood and urine using tandem mass spectrometry with liquid secondary ion mass spectrometry. Int J Mass Spectrom Ion Process1991; 111: 211–28.
73.
ChaceDHMillingtonDSTeradaNKahlerSGRoeCRHofmanLF. Rapid diagnosis of phenylketonuria by quantitative analysis for phenylalanine and tyrosine in neonatal blood spots by tandem mass spectrometry. Clin Chem1993; 39: 66–71.
74.
BuschKLGlishGLMcLuckeySA. Mass Spectrometry/Mass Spectrometry Techniques and Applications of Tandem Mass Spectrometry. Weinheim, Germany: VCH Publishers Incorporated, 1988.
KargerBLCohenASGuttmanA.High performance capillary electrophoresis in the biological sciences. J Chromatogr1989; 492: 581–614.
77.
International symposium on high performance capillary electrophoresis. J Chromatogr1992; 608 (complete volume).
78.
KettingDWadmanSKSpaapenLJMVan der MeerSBDuranM.Gas chromatography method for the separation of amino acids enantiomers in plasma and urine. Application in a case of short bowel syndrome. Clin Chim Acta1991; 204: 79–86.
FrankHNicholsonGJBayerE.Enantiomer labelling, a method for the quantitative analysis of amino acids. J Chromatogr1978; 167: 187–96.
82.
FrankHRettenmeierAWeickerHNicholsonGJBayerE.Determination of enantiomer-labelled amino acids in small volumes of blood by gas chromatography. Anal Chem1982; 53: 715–19.
83.
PerryTHansenS.Technical pitfalls leading to errors in the quantitation of plasma amino acids. Clin Chim Acta1969; 25: 53–8.
84.
ThornberMJBuchananNManchesterKL. Preparation of plasma samples for amino acid analysis by equilibrium dialysis. Biochem Med1978; 19: 71–7.
85.
GerritsenTRehbergMLWaismanHA. On the determination of free amino acids in serum. Anal Biochem1965; 11: 460–6.
86.
MalloyMHRassinDKGaullGE. A method for measurement of free and bound plasma cyst(e)ine. Anal Biochem1981; 113: 407–15.
87.
BrighamMPSteinWHMooreS.The concentrations of cysteine and cystine in human blood plasma. J Clin Invest1960; 39: 1633–8.
88.
FiskerstrandTRefsumHKvalheimGUelandPM. Homocysteine and other thiols in plasma and urine: Automated determination and sample stability. Clin Chem1993; 39: 263–71.
89.
UelandPMRefsumHStablerSPMalinowMRAnderssonAAllenRH. Total homocysteine in plasma or serum: Methods and clinical applications. Clin Chem1993; 39: 1764–79.
90.
PerryTL. Homocystinuria. In: NyhanWL, ed. Heritable Disorders of Amino Acid Metabolism: Patterns of Clinical Expression and Genetic Variation. New York: John Wiley & Sons, 1974: 395–428.
91.
SaetreRRabensteinDL. Determination of cysteine in plasma and urine and homocysteine in plasma by high-pressure liquid chromatography. Anal Biochem1978; 90: 684–92.
92.
Medical Research Council Working Party on phenylketonuria. Recommendations on the dietary management of phenylketonuria. Arch Dis Childh1993; 68: 426–7.
93.
McCamanMWRobinsE.Fluorimetric method for the determination of phenylalanine in serum. J Lab Clin Med1962; 59: 885–90.
94.
RudyJLRutledgeJCLewisSL. Phenylalanine and tyrosine in serum and eluates from dried blood spots as determined by reversed-phase liquid chromatography. Clin Chem1987; 33: 1152–4.
95.
BeckerKHarenzJKalleNHommelGBehbehaniAW. Comparative column chromatographic estimations of phenylalanine in plasma, whole-blood, native and paper-dried capillary blood of healthy children and adults, and patients with hyperphenylalaninaemia. J Inher Metab Dis1985; 8: 119–22.
96.
AthertonNDGreenA.HPLC measurement of phenylalanine. Clin Chem1988; 34: 2241–4.
97.
StandingSJTaylorRP. Phenylalanine: Application of a simple HPLC technique to its measurement in dried blood spots. Ann Clin Biochem1992; 29: 668–70.
98.
RoeselRABlankenshipPRHommesFA. HPLC assay of phenylalanine and tyrosine in blood spots on filter paper. Clin Chim Acta1986; 156: 91–6.
99.
SpiertoFWWhitfieldWApetzMHannonWH. Liquid-chromatographic measurement of phenylalanine and tyrosine in serum. Clin Chem1982; 28: 2282–5.
100.
CampbellRSBrearleyGMVarsaniHDevelopment and validation of a robust specific enzyme mediated assay for phenylalanine in serum. Clin Chim Acta1992; 210: 197–210.
101.
VilasecaMAFarréCRamónF.Phenylalanine determined in plasma with use of phenylalanine dehydrogenase and a centrifugal analyzer. Clin Chem1993; 39: 129–31.
102.
WendelUHummelWLangenbeckU.Monitoring of phenylketonuria: A colorimetric method for the determination of plasma phenylalanine using L-phenylalanine dehydrogenase. Anal Biochem1989; 180: 91–4.
103.
WendelUKoppelkammMHummelW.Enzymatic phenylalanine estimation for the management of patients with phenylketonuria. Clin Chim Acta1991; 201: 95–8.
104.
TaylorRPSmithICStandingSS. Rapid automated enzymatic measurement of phenylalanine in plasma and blood spots. Clin Chim Acta1993; 218: 207–14.
105.
KefflerSDenmeadeRGreenA.Neonatal screening for phenylketonuria: Evaluation of an automated enzymatic method. Ann Clin Biochem1994; 31: 134–9.
106.
CampbellRSHollifieldRDVarsaniHMilliganTPBrearleyGPriceCP. Development of an enzyme-mediated assay for phenylalanine in bloodspots. Ann Clin Biochem1994; 31: 140–6.
107.
SmithREliaM.The significance of urinary hydroxyproline and 3-methylhistidine changes in growth, starvation and injury. In: RattenburyJM, ed. Amino Acid Analysis. Chichester: Ellis Horwood Ltd, 1981: 225–236.
108.
KataokaHNabeshimaNNagaoKMakitaM.Selective and sensitive determination of urinary total proline and hydroxyproline by gas chromatography with flame photometric detection. Clin Chim Acta1993; 214: 13–20.
109.
VarleyHGowenlockAHBellM.Hydroxyproline. In: Practical Clinical Biochemistry, Vol. 1. London: William Heinemann Medical Books Ltd, 1980: 525–7.
110.
IbbottFA. Amino Acids and related substances. In: HenryRJCannonDCWinkelmanJW, eds. Clinical Chemistry, 2nd edn.Hagerstown, Harper & Row, 1974: 565–638.
WelchRWAcworthILevineM.Coulometric electrochemical detection of hydroxyproline using 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole. Anal Biochem1993; 210: 199–205.
113.
DemersLM. New biochemical marker for bone disease. Clin Chem1992; 38: 2169–70.
114.
BlackDDuncanARobinsSP. Quantitative analysis of the pyridinium crosslinks of collagen in urine using ion-paired reversed-phase high-performance liquid chromatography. Anal Biochem1988; 169: 197–203.
115.
SeyedinSMKungUTDaniloffYNImmunoassay for urinary pyridinoline: The new marker of bone resorption. J Bone Min Res1993; 8: 635–41.
116.
PencharzPBFarriLPapageorgiouA.The effects of human milk and low-protein formulae on the rates of total body protein turnover and urinary 3-methyl-histidine excretion of preterm infants. Clin Sci1983; 64: 611–16.
117.
LloydBBurrinJSmythePAlbertiKGMM. Enzymic fluorometric continuous-flow assays for blood glucose, lactate, pyruvate, alanine, glycerol, and 3-hydroxybutyrate. Clin Chem1978; 24: 1724–9.
118.
MaughanRJ. A simple, rapid method for the determination of glucose, lactate, pyruvate, alanine, 3-hydroxybutyrate and acetoacetate on a single 20-μl blood sample. Clin Chim Acta1982; 122: 231–40.
119.
StappenbeckRHodsonAWSkillenAWAgiusLAlbertiKGMM. Optimized methods to measure acetoacetate, 3-hydroxybutyrate, glycerol, alanine, pyruvate, lactate and glucose in human blood using a centrifugal analyser with a fluorimetric attachment. J Autom Chem1990; 12: 213–20.
120.
NyhanWL. Nonketotic hyperglycinemia. In: ScriverCRBeaudetALSlySValleD, eds. The Metabolic Basis of Inherited Disease6th edn, Vol. 1. New York: McGraw-Hill, 1989: 743–53.
GoldsmithRFEarlJWCunninghamAM. Determination of γ-aminobutyric acid and other amino acids in cerebrospinal fluid of pediatric patients by reversed-phase liquid chromatography. Clin Chem1987; 33: 1737–40.
FerraroTNManyamBVHareTA. Further characterization of in vitro conditions appropriate for GABA determination in human CSF; impact of acid deproteinization and freeze/thaw. J Neurochem1983; 41: 1057–64.
125.
GerritsGPTrijbelsFJMonnensLAReference values for amino acids in cerebrospinal fluid of children determined using ion-exchange chromatography with fluorimetric detection. Clin Chim Acta1989; 182: 271–80.
126.
FerraroTNHareTA. Free and conjugated amino acids in human CSF: Influence of age and sex. Brain Res1985; 338: 53–60.
127.
GaljaardH.Fetal diagnosis of inborn errors of metabolism. In: RodeckCH, ed. Baillière's Clinical Obstetrics and Gynaecology, Vol. 1. London: Baillière Tindall1987: 547–67.
128.
BlomWHuijmansJGMvan den BergGB. A clinical biochemist's view of the investigation of suspected inherited metabolic disease. J Inher Metab Dis1989; 12: 64–88.
129.
García-CastroJMIsales-ForsytheCMLevyHLPrenatal diagnosis of nonketotic hyperglycinemia. N Engl J Med1982; 306: 79–81.
MesavageCNanceCSFlanneryDBWeinerDLSuchySFWolfB.Glycine/serine ratios in amniotic fluid: An unreliable indicator for the prenatal diagnosis of nonketotic hyperglycinemia. Clin Genet1983; 23: 354–8.
132.
SmythePJOgilvy-StuartALHallMAWalkerV.Prenatal diagnosis of non-ketotic hyperglycinaemia: Amniotic fluid glycine and glycine: Serine ratios. Ann Clin Biochem1987; 24: 203–4.
133.
SchønheyderFEhlersNHustB.Remarks on the aqueous humor/plasma ratios for amino acids and related compounds in patients with various chronic ocular disorders. Acta Ophthalmol1975; 53: 627–34.
134.
WuuJ-AWenJ-AWenL-YChuangT-YChangG-G. Amino acid concentrations in serum and aqueous humor from subjects with extreme myopia or senile cataract. Clin Chem1988; 34: 1610–13.
135.
WilliamsAPHewittDCockburnJEHarrisDAMooreRADaviesMG. A collaborative study on the determination of free amino acids in blood plasma. J Sci Food Agric1980; 31: 474–80.
FarquharDLStevenFWestwoodA.Preliminary report on inverse diurnal variation of phenylalanine: Implications in maternal phenylketonuria. Hum Nutr Appl Nutr1985; 39A: 224–6.
138.
ParvyPRBardetJIKamounPP. EDTA in vacutainer tubes can interfere with plasma amino acid analysis. Clin Chem1983; 29: 735.
139.
ParvyPBardetJRabierDBonnefontJ-PKamounP.A new pitfall in plasma amino acid analysis. Clin Chem1989; 35: 178.
140.
HamiltonPB. Amino-acids on hands. Nature1965; 205: 84–5.
141.
SteginkLDFilerLJJrBakerGL. Effect of sampling site on plasma amino acid concentrations of infants: Effect of skin amino acids. Am J Clin Nutr1982; 36: 917–25.
142.
SahaiSUhlhaasS.Stability of amino acids in human plasma. Clin Chim Acta1985; 148: 255–9.
143.
TsaiMYMarshallJGJosephsonMW. Free amino acid analysis of untimed and 24-h urine samples compared. Clin Chem1980; 26: 1804–8.
144.
LevyHLMadiganPMLumA.Fecal contamination in urine amino acid screening. Artifactual cause of hyperaminoaciduria. Am J Clin Pathol1969; 51: 765–8.
145.
EdwardsMAGrantSGreenA.A practical approach to the investigation of amino acid disorders. Ann Clin Biochem1988; 25: 129–41.
146.
BremerHJDuranMKamerlingJPPrzyrembelHWadmanSK. Disturbances of Amino Acid Metabolism: Clinical Chemistry and Diagnosis. Baltimore: Urban and Schwarzenberg, 1981.
GaullGERassinDKRäihäNCRHeinonenK.Milk protein quantity and quality in low-birth-weight infants. III. Effects on sulfur amino acids in plasma and urine. J Pediatrics1977; 90: 348–55.
149.
RassinDKGaullGEHeinonenKRäihäNCR. Milk protein quantity and quality in low-birth-weight infants. II. Effects on selected aliphatic amino acids in plasma and urine. Pediatrics1977; 59: 407–22.
150.
JarvenpääA-LRassinDKRäihäNCRGaullGE. Milk protein quantity and quality in the term infant. II. Effects on acidic and neutral amino acids. Pediatrics1982; 70: 221–30.
151.
JanasLMPiccianoMFHatchTF. Indices of protein metabolism in term infants fed human milk, whey-predominant formula, or cow's milk formula. Pediatrics1985; 75: 775–84.
152.
ScottPHBergerHMWhartonBA. Growth velocity and plasma amino acids in the newborn. Pediatr Res1985; 19: 446–50.
153.
SchanlerRJGarzaC.Plasma amino acid differences in very low birth weight infants fed either human milk or whey-dominant cow milk formula. Pediatr Res1987; 21: 301–5.
154.
ArmstrongMDStaveU.A study of plasma free amino acid levels. II. Normal values for children and adults. Metabolism1973; 22: 561–9.
155.
BrodehlJGellissenKJakelA.Endogenous renal transport of free amino acids in infancy and childhood. Pediatrics1968; 42: 395–404.
156.
ScriverCRBergeronM.Amino acid transport in kidney. The use of mutation to dissect membrane and transepithelial transport. In: NyhanWL, ed. Heritable Disorders of Amino Acid Metabolism: Patterns of Clinical Expression and Genetic Variation. New York: John Wiley & Sons, 1974: 515–92.
157.
BriddonAOberholzerVG. An alternative way of presenting quantitative amino acid results. Clin Chim Acta1987; 164: 209–13.
HolmgrenG.Effect of low, normal and high dietary protein intake on urinary amino acid excretion and plasma aminogram in children. Nutr Metabolism1974; 16: 223–7.
168.
ReidDWCampbellDJYakymyshynLY. Quantitative amino acids in amniotic fluid and maternal plasma in early and late pregnancy. Am J Obstet Gynecol1971; 111: 251–8.
169.
GhadimiHPecoraP.Plasma amino acids after birth. Pediatrics1964; 34: 182–91.
170.
LinbladBSBaldestenA.The normal venous plasma free amino acid levels of non-pregnant women and of mother and child during delivery. Acta Paediatr Scand1967; 56: 37–48.
171.
PohlandtF.Plasma amino acids in umbilical cord vein and artery of newborn infants after elective cesarean section and spontaneous delivery. J Pediatr1978; 92: 617–23.
172.
ScottPHWhartonBA. Biochemical values in the newborn (Appendix 1). In: RobertonNCR, ed. Textbook of Neonatology. Edinburgh: Churchill Livingstone, 1986: 839–48.
173.
ParvyPRBardetJIRabierDMKamounPP. Age-related reference values for free amino acids in first morning urine specimens. Clin Chem1988; 34: 2092–5.
174.
LiappisN.Geschlechtsspezifische unterschiede der freien aminosauren im urin von erwachsenen. Z Klin Chem Klin Biochem1973; 11: 279–85.
175.
DickinsonJCHamiltonPB. The free amino acids of human spinal fluid determined by ion exchange chromatography. J Neurochem1966; 13: 1179–87.
176.
GjessingLRGjesdahlPSjaastadO.The free amino acids in human cerebrospinal fluid. J Neurochem1972; 19: 1807–8.
177.
LakkeJPWFTeelkenAW. Amino acid abnormalities in cerebrospinal fluid of patients with parkinsonism and extrapyramidal disorders. Neurology1976; 26: 489–93.
178.
EmeryAEHBurtDNelsonMMScringeourJB. Antenatal diagnosis and amino acid composition of amniotic fluid. Lancet1970; i: 1307–8.
179.
KangESScanlonJ.Concentrations of the free amino acids in human amniotic fluid during normal and abnormal pregnancies. Am J Obstet Gynecol1974; 119: 603–9.
180.
PrzyrembelHBremerHJ. Amino acids in amniotic fluid. In: BremerHJDuranMKamerlingJPPrzyrembelHWadmanSK, eds. Disturbances of Amino Acid Metabolism: Clinical Chemistry and Diagnosis. Baltimore: Urban and Schwarzenberg, 1981: 219.
181.
CurtiusH-ChMartenetACAndersPW. Bestimmung von freien aminosäuren in augenkammerwasser des menschen bei homocystinurie—patienten and kontrollfälien. Clin Chim Acta1968; 19: 469–76.
