AlbermanEBottingBTrends in prevalence and survival of very low birth weight infants, England and Wales 1983–7. Arch Dis Child;66: 1304–8
2.
GirardJMetabolic adaptations to change of nutrition at birth. Biol Neonate1990; 58 (Suppl. 1): 3–15
3.
AveryMEMerrittTASurfactant-replacement therapy. New Engl J Med1991; 324: 910–12
4.
DublinSBAssessment of foetal lung maturity: in search of the holy grail. Clin Chem1990; 36: 1867–9
5.
BallardRAAntenatal glucocorticoid therapy: clinical effects. In:BallardPL (ed.). Hormones and lung maturation.Monographs on Endocrinology, Vol. 28. Berlin: Springer-Verlag, 1986: 173–96
6.
BallardRABallardPLCreasyRKPadburyJPolkDHBrackenMRespiratory disease in very-low-birthweight infants after prenatal thyrotropin-releasing hormone and glucocorticoid. Lancet1992; 339: 510–15
7.
McLainBIEvansJDearPRFComparison of capillary and arterial blood gas measurements in neonates. Arch Dis Child1988; 63: 743–7
8.
DearPRFMonitoring oxygen in the newborn: tension or partial pressure?Arch Dis Child1987; 62: 879–81
9.
GreisenGTrojaborbWCerebral blood flow, PaCO2 changes, and visual evoked potentials in mechanically ventilated preterm infants. Acta Paediatr Scand1987; 76: 394–9
10.
Kerpel-FroniusEHeimTSulyokEThe development of the renal acidifying processes and their relation to acidosis in low-birthweight infants. Biol Neonate1970; 15: 156–9
11.
AikenCGASherwoodRAKenneyIJFurnellMLenneyWMineral balance studies in sick preterm intravenously fed infants during the first week after birth. Acta Paed Scand1989 (suppl. 355): 1–52
12.
NatelsonSNobelDEffect of the variation of pK′ of the Henderson Hasselbach equation on values obtained for total CO2 calculated from pCO2 and pH values. Clin Chem1977; 23: 767–9
13.
RivkeesSAFineBPThe reliability of calculated bicarbonate in clinical practice. Clin Pediatr1988; 27: 240–2
14.
MastersPBlackburnMECHendersonMJBarrettJFRDearPRFDetermination of plasma bicarbonate of neonates in intensive care. Clin Chem1988; 34: 1483–5
15.
ArandaJVTurmenTMethylxanthines in apnoea of prematurity. Clin Perinatol1979; 6: 87–91
16.
RoweDJFWatsonIDWilliamsJBerryDJThe clinical use and measurement of theophylline. Ann Clin Biochem1988; 25: 4–26
17.
SimsMERangasamyRLeeSChungHCohenJWaltherFJComparative evaluation of caffeine and theophylline for weaning premature infants from the ventilator. Amer J Perinatol1989; 6: 72–5
18.
MuratIMorietteGBlinDThe efficacy of caffeine in the treatment of recurrent idiopathic apnoea in premature infants. J Pediatr1981; 99: 984–9
19.
BrocklebankJTRenal failure in the newly born. Arch Dis Child1988; 63: 991–4
20.
LeakeRDTrygstadCWOhWInulin clearance in newborn infant: relationship to gestational and postnatal age. Pediatr Res1976; 10: 759–64
21.
ArantBSDevelopmental patterns of renal function maturation compared in the human neonate. J Pediatr1978; 92: 705–12
22.
RossBCowettRMOhWRenal functions of low birthweight infants during the first two months of life. Pediatr Res1977; 11: 1162–4
23.
VanpeeMHerinPZetterstromRAperiaAPostnatal development of renal function in very low birthweight infants. Acta Paed Scand1988; 77: 191–7
24.
CoulthardMGHeyENEffect of varying water intake on renal function in healthy preterm babies. Arch Dis Child1985; 60: 614–20
25.
RutterNHullDWater loss from the skin of term and preterm babies. Arch Dis Child1979; 54: 858–62
26.
HammarlundASedinGStrombergBTrans-epidermal water loss in newborn infants. VIII. Relation to gestational age and postnatal age in appropriate and small for gestational age infants. Acta Paediatr Scand1983; 73: 721–8
27.
JuddBAHaycockGBDaltonNChantlerCHyponatremia in premature babies and following surgery in older children. Acta Paediatr Scand1987; 76: 385–93
28.
DayGMRaddeICBalfeJWChanceGWElectrolyte abnormalities in very low birthweight infants. Pediatr Res1976; 10: 522–6
29.
ReesLBrookCGDShawJCLForslingMLHyponatremia in the first week of life in preterm infants. Arch Dis Child1984; 459: 414–29
30.
WilkinsBHRenal function in sick very low birthweight infants: 3. Sodium, potassium, and water excretion. Arch Dis Child1992; 67: 1154–61
31.
EspinelCHThe FENa test—use in the differential diagnosis of acute renal failure. Can Med Assoc J1976; 236: 579–84
32.
Al-DahhanJHaycockGBChantlerCStimmlerLSodium homeostasis in term and preterm neonates. I. Renal Aspects. Arch Dis Child1983; 58: 335–42
33.
SiegelSROhWRenal functional maturation in human infants. Acta Paed Scand1976; 65: 481–5
34.
HaycockGBAperiaASalt and the newborn kidney. Pediatr Nephrol1991; 5: 61–70
35.
AperiaABrobergerOHerinPZetterstromRSodium excretion in relation to sodium intake and aldosterone excretion in newborn preterm and fullterm infants. Acta Paediatr Scand1979; 68: 813–17
36.
SulyokENemethMTenyiICsabaIFVargaLVargaFRelationship between the postnatal development of the renin-angiotensin-aldosterone system and the electrolyte and acid base status in the sodium chloride supplemented premature infant. Acta Paediatr Acad Sci Hung1981; 22: 109–21
37.
RozyckiHJBaumgartSAtrial natriuretic factor and postnatal diuresis in respiratory distress syndrome. Arch Dis Child1991; 66: 43–7
38.
GuignardJPTorradoAMazouniSMGautierERenal function in respiratory distress syndrome. J Pediatr1976; 88: 845–50
39.
BierdTMKattwinkelJChevalierRLRheubanKSSmithDJTeagueWGInterrelationship of atrial natriuretic peptide, atrial volume, and renal function in premature infants. J Pediatr1990; 116: 753–9
40.
MeitesSLevittMJBlumenfeldTAHammondKBHicksJHillGJSkin-puncture and blood-collecting techniques for infants. Clin Chem1979; 25: 183–9
41.
ShortlandDTrounceJQLeveneMIHyperkalemia, cardiac arrhythmias, and cerebral lesion in high risk neonates. Arch Dis Child1987; 62:1139–43
EngleWDArantBSUrinary potassium excretion in the critically ill neonate. Pediatr1984; 74: 259–64
44.
FeldmanHGuignardJPPlasma creatinine in the first month of life. Arch Dis Child1982; 57: 123–6
45.
RuddPTHughesEAPlaczekMMHodesDTReference ranges for plasma creatinine during the first month of life. Arch Dis Child1983; 58:212–15
46.
NarayaramSAppletonHDCreatinine: a review. Clin Chem1980; 26: 1119–26
47.
CoulthardMGHeyENRudduckVCreatinine and urea clearances compared with inulin clearances in preterm and mature babies. Early Hum Dev1985; 11: 11–19
48.
BrownleeKGNgPCHendersonMHSmithMGreenJHDearPRFThe catabolic effect of dexamethasone in the preterm baby. Arch Dis Child1992; 67: 1–4
49.
Dexamethasone for chronic lung disease [editorial]. Lancet1991; 338: 982–3
50.
BallardFJThomasFM3-Methylhistidine as a measure of skeletal muscle protein breakdown in human subjects: the case for its continued use. Clin Sci1983; 65: 209–15
NgFBrownleeKGDearPRFHendersonMJSmithMChanges in the plasma aminogram of parenterally fed preterm babies receiving dexamethasone therapy for broncho pulmonary dysplasia. Arch Dis Child1992; 67: 1193–5
53.
NgPCBlackburnMEBrownleeKGBucklerJMHDearPRFAdrenal response in very low birthweight babies after dexamethasone treatment for bronchopulmonary dysplasia. Arch Dis Child1989; 64: 1721–6
BonnefontJPSpecolaNBVassaultALombesAOgierHde KlerkJBCThe fasting test in paediatrics: application to the diagnosis of pathological hypo- and hyperketotic states. Eur J Pediatr1990; 150: 80–5
WhitePCNewMIDupontBCongenital adrenal hyperplasia. N Engl J Med1987; 316: 1519–24
58.
HindmarshPCBrookCGDHormone control of infant growth in the first year. In:CockburnF (ed.). Foetal and Neonatal Growth.Chichester: J Wiley, 1988: 195–210
FisherDAKleiAHThyroid development and disorders of thyroid function in the newborn. N Engl J Med1981; 304: 702–6
61.
PuntisJWLEdwardsMAGreenAMorganIBoothIWBallPAHyperphenylalaninaemia in parenterally fed newborn babies. Lancet1986; i: 1105–634
62.
WalkerVHallMABulusuSAllanAHyperphenylalaninaemia in parenterally fed newborn babies. Lancet1986; ii: 1284
63.
KleinAHDevelopmental changes in pituitary-thyroid function in the newborn. Early Hum Dev1982; 6: 321–4
64.
HadeedAJAsayLDKleinAHSignificance of transient hypothyroxinaemia in premature infants with and without respiratory distress syndrome. Pediatr Res1981; 68: 494–7
65.
SaudubrayJMOgierHClinical approach to inherited metabolic disorders. In:FernandesJSaudubrayJMTadaK (eds). Inborn Metabolic Diseases, Diagnosis and Treatment.Berlin: Springer-Verlag, 1990: 3–29
66.
GreenAGuide to diagnosis of inborn errors of metabolism in district general hospitals. Assoc Clin Pathol Broadsheet1989; 120: 84–91
67.
GreenAWhen and how should we measure plasma ammonia?Ann Clin Biochem1988; 25: 199–209
68.
LucasAMorleyRColeTJGoreSMDavisJABamfordMFMEarly diet in preterm babies and developmental status in infancy. Arch Dis Child1989; 64: 1570–8
69.
HawdonJMWardPlatt MPAynsley-GreenAPatterns of metabolic adaptation for preterm and term infants in the first neonatal week. Arch Dis Child1992; 67: 357–65
70.
KohTHAynsley-GreenATarbitMEyreJANeural dys-function during hypoglycaemia. Arch Dis Child1988; 63: 1353–8
71.
LucasAMorleyRColeTJAdverse neuro-developmental outcome of moderate neonatal hypoglycaemia. BMJ1988; 297: 1304–8
72.
CowettRMSchwartzRThe role of hepatic control of glucose homeostasis in the etiology of neonatal hypo and hyperglycaemia. Semin Perinat1979; 3: 327–40
73.
Van AerdeJSauerPSmithJWessonDSwyerPPencharzPContribution of glucose and fat to the energy expenditure of parenterally fed neonates. Pediatr Res1985; 19: 322A
74.
SauerPVan ArdeJSmithJPencharzPSwyerPSubstrate utilisation of newborn infants fed intravenously with or without a fat emulsion. Pediatr Res1984; 18: 804
75.
DhanireddyRHamoshMSivasubramanianKNPostheparin lipolytic activity and Intralipid clearance in very low birth weight infants. J Pediatr1981; 98: 617–22
76.
ZaidanHDhanireddyRHamoshMEffect of continuous heparin administration on Intralipid clearing in very low birth weight infants. J Pediatr1982; 101: 599–602
77.
StanleyCADisorders of Fatty Acid Oxidation. In:FernandesJSaudubrayJMTadaK (eds). Inborn Metabolic Diseases Diagnosis and Treatment.Berlin: Springer-Verlag, 1990: 395–410
78.
Schmidt-SommerfeldEPennDWolfHCarnitine deficiency in premature infants receiving total parenteral nutrition. J Pediatr1983; 102: 931–4
79.
PennDLudwigsBSchmidt-SommerfeldEPascuFEffect of nutrition on tissue carnitine concentrations in infants of different gestational ages. Biol Neonate1985; 47: 130–5
80.
BremerHJBrookeOGOrzalesiMNutrition and feeding of preterm infants. Acta Paed Scand1987 (suppl. 336): 1–14
81.
HendersonMJDearPRFDicarboxylic aciduria and medium chain triglyceride supplemented milk. Arch Dis Child1986; 61: 610–11
PayneRBLittleAJWilliamsRBMilnerJRInterpretation of serum calcium in patients with abnormal serum proteins. BMJ1973; 4: 643–6
87.
WandrupJCritical analytical and clinical aspects of ionised calcium in neonates. Clin Chem1989; 35: 2027–33
88.
BradyHRyanMHorganJMagnesium: the forgotten cation. Irish Med J1987; 80: 250–3
89.
YamamotoTKabataHRyataroRTakashimaMItokawaYPrimary hypomagnesaemia with secondary hypocalcaemia: report of a case and review of the world literature. Magnesium1985; 4: 153–64
90.
KovarIZMaynePDPostnatal and gestational age and the interpretation of plasma alkaline phosphatase activity in preterm infants. Ann Clin Biochem1989; 26: 193–4
91.
MaynePDKovarIZCalcium and phosphorus metabolism in the premature infant. Ann Clin Biochem1991; 28: 131–42
92.
IsherwoodDMFletcherKANeonatal jaundice: investigation and monitoring. Ann Clin Biochem1985; 22: 109–29
93.
RagerRFinegoldMJCholestasis in immature infants: is parenteral alimentation responsible?J Pediatr1975; 86: 264–9
94.
ThompsonDMilford-WardAWhicherJTThe value of acute phase protein measurements in clinical practice. Ann Clin Biochem1992; 29: 123–31
95.
FarrellMKGilsterSBalistreriWFSerum bile acids: an early indicator of parenteral nutrition-associated liver disease. Gastroenterology1984; 86: 1074–6
96.
VileisisRAInwoodRJHuntCELaboratory monitoring of parenteral nutrition-associated hepatic dysfunction in infants. J Parent Ent Nutr1981; 5: 67–9
97.
SundermanFWThe clinical biochemistry of 5′nucleotidase. Ann Clin Lab Sci1990; 20: 123–39
98.
RodriguezAFKaplanSLMasonEOCerebrospinal fluid values in the very low birth weight infant. J Pediatr1990; 116: 971–4
99.
DruckerRFWilliamsDRRPriceCPQuality assessment of blood glucose monitors in use outside the hospital laboratory. J Clin Pathol1983; 36: 948–53
100.
BrowningDMBullockDGThe quality of extra-laboratory assays—evidence from external quality assessment surveys. Ann Clin Biochem1987; 24 (suppl. 2): 94
101.
BroughtonPMGBullockDGCrambRQuality of plasma cholesterol measurements in primary care. BMJ1989; 298: 297–8
102.
MarksVStick testing. BMJ1991; 302: 482–3
103.
LabibMDiggerTPerksDReagent-strip glucose methods and haematocrit. Lancet1990; 335: 973–4
104.
AndersonJRLinsellWDMitchellFMGuidelines on the performance of chemical pathology assays outside the laboratory. BMJ1981; 282: 743–5
105.
HarrisonSPBarlowIMEvaporative loss from small samples. Clin Chem1990; 36: 1520
106.
SitzmannFCLowCKaloudHPresteleHNormalwerte der serum-transaminasen GOT und GPT mit neuen substratoptimierten Standard-methoden. Klin Paediat1974; 186: 346–52
107.
HenkinRIMarshallJRMeretSMaternal-foetal metabolism of copper and zinc at term. Amer J Obs Gynae1971; 110: 131–4
108.
StanleyCABakerLHyperinsulism in infants and children: diagnosis and therapy. Adv Pediatr1976; 23: 315–55
109.
HillmanLSRojanasathitSSlatopolskiEHaddadJGSerial measurements of serum calcium, magnesium, parathyroid hormone, calcitonin and 25-hydroxy vitamin D in premature and term infants during the first week of life. Pediatr Res1977; 11: 739–44
110.
MuttittSCTierneyAJFinerNNThe dose response of theophylline in the treatment of apnea of prematurity. J Pediatr1988; 112: 115–21
111.
HummerLSerum levels of thyrotropin, thyroxine, and triiodothyronine in full term, small for gestational age and preterm newborn babies. Acta Paediatr Scand1977; 68: 691–7
