AbitbolC., WaradyB.A., MassieM.D.Linear growth and anthropometric and nutritional measurements in children with mild to moderate renal insufficiency: a report of the growth failure in children with renal diseases study. J Pediatr1990; 116: S46–S54.
2.
Anonymus. Bioelectrical impedance and body composition. Lancet1992; 340, N 8834–5: 1511.
3.
BarsottiG., MorelliE., GiannoniA., GuiducciA., LupettiS., GiovannettiS.Restricted phosphorus and nitrogen intake to slow the progression of chronic renal failure: a controlled trial. Kidney Int1983; 24(Suppl 16): S278–84.
4.
BallmgarterR.N., ChumleaW.C., RocheA.F.Bioelectrical impedance phase angle and body composition. Am J Clin Nutr1988; 48: 16–23.
5.
BoileauR.B., HorstmanD.H., BuskirkE.R., MendezJ.The usefulness of urinary creatinine excretion in estimating body composition. Med Sci Sports1972; 4: 85–90.
6.
Cameron ChumleaC., BaumgartnerR.N., RocheA.R.Specific resistivity used to estimate fat-free mass from segmental body measures of bioelectric impedance. Am J Clin Nutr1988; 48: 7–15.
7.
ChantierC.Nutritional assessment and management of children with renal insufficiency. In: FineR.N., GruskinA.B. eds. End-stage Renal Disease in Children.Philadelphia: B Sauders, 1984; 193.
8.
ChantierC., HollidayM.A.Growth in children ith renal disease with particular reference to the effects of calorie malnutrition: a review. Clin Nephrol1973; 1: 230.
9.
ChumleaW.C., BaumgartnerR.N., MitchellC.O.The use of segmental bioelectric impedance in estimating body composition. Basic Life Sci1990; 55: 375–85.
10.
ChumleaW.C., BaumgartnerR.N.Bioelectric impedance methods for the estimation of body composition. Can J Sport Sci1990; 15(3): 172–9.
11.
ChumleaW.C., GuoS.S.Bioelectrical impedance and body composition: present status and future directions. Nutr Rev1994; 52(4): 123–31.
12.
CohnS.H.How valid are bioelectric impedance measurements in body composition studies. Am J Clin Nutr1985; 42: 889–90.
13.
CunninghamJ.J.New approaches to the noninvasive assessment of body composition: bioelectrical impedance analysis and total body electrical conductivity. Nutr Int1987; 3: 1.
14.
DeurenbergP., WeststrateJ.A., HautvastJGAJChanges in fat-free mass during eight loss measured by bioelectrical impedance and by densitometry. Am J Nutr1989; 49: 33–6.
FerranteE., PitzalisG., DeganelloF., GalastriE., SciarpellettiR., ImperatoC.The evaluation of body composition in children by anthropometry and impedance measurement. Minerva Pediatr1993; 45(7-8): 289–98.
17.
FrisanchoA.R.New norms of upper limb fat and muscle areas for assessment of nutritional status. Am J Clin Nutr1981; 34: 2540–5.
18.
ForbesG.B., BruiningG.J.Urinary creatinine excretion and lean body mass. Med Sci Sports1972; 4: 85–90.
19.
ForbesG.B.Bioelectrical impedance and body composition: present status and future direction. Nutrition Reviews1994; 52, N 9: 323.
20.
GrayD.S.Changes in bioelectrical impedance during fasting. Am J Clin Nutr1988; 47: 7–14.
21.
GuoS., RocheA.F., HoutkooperL.Fat-free mass in children and young adults predicted from bioelectric impedance and anthropometric variables. Am J Clin Nutr1989; 50: 435–43.
22.
GurneyJ.M., JeliffeD.B.Arm anthropometry in nutritional assessment: nomogram for rapid calculation of muscle circumference and cross-sectional muscle over fat areas. Am J Clin Nutr1973; 26: 912–5.
23.
HeitmannB.L.Impedance: a valid method in assessment of body composition?Eur J Clin Nutr1994; 48(4): 228–40.
24.
HellersteinS., HollidayM.A., GrupeW.Nutritional menagement of children with chronic renal failure. Pediatr Nephrol1987; 1: 195–211.
25.
HeymsfieldS.B., McMannusC., SmithJ., StevensV., NixonD.W.Anthropometric measurement of muscle mass: revised equations for calculating bone-free arm muscle area. Am J Clin Nutr1982; 36: 680–90.
26.
HollidayM.A.Nutritional aspects of renal diseases in children and adults. Hosp Pract1983; 18: 179–93.
27.
HollidayM.A.Protein intake, renal function and growth in chronic renal failure. In: MitchW.E. ed. The progressive nature of renal disease.New York: Churchill Livingstone, 1986; 245–62.
28.
HoutkooperL.B., LohmanT.G., GoingS.B., HallM.C.Validity of bioelectric impedance for body composition assessment in children. J Appl Physiol1989; 66(2): 814–21.
29.
HoutkooperL.B., GoingS.B., LohmanT.G., RocheA.F., Van-LoanM.Bioelectrical impedance estimation of fat-free body mass in children and youth: a cross-validation study. J Appl Phisiol1992; 72(1): 366–73.
30.
IwataK., SatouY., IwataF.Assessment of body composition measured by bioelectrical impedance in children. Acta Paediatr Jpn1993; 35(5): 369–72.
31.
JeliffeE.F.P., JeliffeD.B.The arm circumference as a public health index of protein-calorie malnutrition of early chilhood. J Trop Pediatr1969, 15: 179–92.
32.
JonesR.W.A., RidgenS.P., BarrattT.M.The effect of chronic renal failure in infancy on growth nutritional status and body composition. Pediatr Res1982; 16: 784–91.
33.
KlahrS., BuerkertJ., PurkersonM.L.Role of dietaly factors in the progression of chronic renal disease. Kidney Int1983; 24: 579–87.
34.
KushnerR.F.Bioelectrical impedance analysis: a review of principles and applications. J Am Coll Nutr1992; 11(2): 199–209.
35.
LocatelliF., AlbertiD., GrazianiG., BucciantiG., RedaelliB., GiangrandeA., and the Northen Italian Cooperative Study Group. Prospective, randomized, multicentre trial of the effect of protein restriction on progression of chronic renal insufficiency. Lancet1991; 337: 1299.
36.
LukaskiH.C., JohnsonP.E., BolonchucW., LikkenG.I.Assessment of fat-free mass using bioelectrical impedance measurement of the human body. Am J Clin Nutr1985; 42: 810–7.
37.
MackieA., HannanJ., TothillP.An introduction to body composition models used in nutritional studies. Clin Phys Physio Meas1989; 10, 4: 297–310.
38.
MaschioG., OldrizziL., TessitoreN.Effect of dietary protein and phosphorus restriction on the progression of early renal failure. Kidney Int1982; 22: 371–6.
39.
MitchW.E.The influence of the diet on the progression of renal insufficiency. Ann Rev Med1984; 35: 249–64.
40.
MayfieldS., UauyR., WaidelichD.Body composition of low-birth-weight infants determined by using bioelectrical resistance and reactance. Am J Clin Nutr1991; 54: 296–303.
41.
PerfumoF.Insufficienza renale cronica. In: GusmanoR., PerfumoF. eds. Le malattie renali nel bambino.Milano: Wichtig, 1991: 395–406.
42.
RosmanJ.B., MeijerS., SluiterW.J., Ter WeeP.M., Piers-BrechtT.P., DonkerA.J.M.Prospective randomised trial of early dietary protein restriction in chronic renal failure. Lancet1984; 2: 1293–5.
43.
SaccoP., PerfumoF., DelucchiP., GusmanoR.Valutazione dello stato nutrizionale nel bambino affetto da insufficienza renale cronica: studio antropometrico e bioimpedenziometrico. Gaslini, 1994; 26: 215–21.
44.
SaluskyI.B., FineR.N., NelsonP.Nutritional status of pediatric patients undergoing CAPD. Kidney Int1982; 21: 177–81.
45.
SegalK.R., LoanM.V., FitzgeraldP., HodgdonJ.A., Van ItallieT.B.Lean body mass estimation by bioelectrical impedance analysis: four site cross-validation study. Am J Clin Nutr1988; 47: 7–14.
46.
ThomassetA.Bioelectrical properties of tissue impedance measurements. Lyon Med1962; 207: 1017–8.
47.
WassnerW.J.The role of nutrition in the care of children with renal insufficiency. Pediatr Clin N Am1982; 29: 973–90.
48.
WassnerW.J., AbitbolC., AlexanderS.Nutrition requirements for infants with renal failure. Am J Kidney Dis1986; 7: 300–5.
49.
WingenA.M., Fabian-BachC., MehlsO.Evaluation of protein intake by dietary diares and urea-N excretion in children with chronic renal failure. Clin Nephrol1993; 40(4): 208–15.
