MujaisS.K., SabatiniS., KurtzmanN.Pathophysiology of uremia. In: BrennerB.M., RectorF.C. eds. The Kidney, 3rd edition.Philadelfia: WB Saunders, 1986.
2.
AffarahH.B., ChawlaR.K., BleierJ.C., TuttleE.P., RudmanD.The loss of renal enzymes: A risk factor for nutritional and metabolic disorders. In: CummingN.B., KlahrS. eds. Chronic renal disease.New York: Plenum, 1985.
3.
AnagnostouA., KurtzmanN.A.Hematological consequences of renal failure. In: BrennerB.M., RectorF.C. eds. The Kidney, 3rd edition.Philadelfia: WB Saunders, 1986; 1631–56.
4.
BrunetteM.G., ChanM., FerriereC., RobertsK.D.Site of 1.25-(OH)2D3 synthesis in the kidney.Nature1978; 276: 287–9.
5.
EismanJ.A., HamstraA.J., KreamB.E., DelucaH.F.1.25-dihydroxy-vitamin D in biological fluids: A simplified and sensitive assay.Science1976; 193: 1021.
6.
ArdaillouR., SizonenkoP., MeyrierA., ValleeG., BeaugasC.Metabolic clearance rate of radioiodinated human calcitonin in man.J Clin Invest1970; 49: 2345.
7.
MuirheadE.E.Vasodepressor renal medullary lipids. In: DunnM.J. ed. Renal endocrinology.Baltimore: Williams and Wilkens, 1983.
8.
KidaK., NakajoS., KamiyaF., ToyamaY., NishioT., NakagawaH.Renal net glucose release in vivo and its contribution to blood glucose in rats.J Clin Invest1978; 62: 721–6.
9.
YudkinJ., CohenR.D.The contribution of the kidney to the removal of a lactic acid load under normal and acidotic conditions in the conscious rat.Clin Sci Mol Med1975; 48: 121.
10.
KurokawaK., NagamiG.T., YamaguchiD.T.Transport and substrate metabolism of the kidney. In: RolfKH Kine, ed. Renal biochemistry.Elsevier, 1985.
11.
RighettiM., WileyM.H., MurrillP.A., SipersteinM.D.The in vitro metabolism of mevalonate by sterol and nonsterol pathways.J Biol Chem1976; 251: 2716.
12.
WileyM.H., HowtonM.M., SipersteinM.D.The quantitative role of the kidneys in the in vivo metabolism of mevalonate.J Biol Chem1977; 252: 548.
13.
Hughes-FulfordM., FeingoldK.R., SearleG.L.Role of the kidneys in the metabolism of circulating mevalonate in humans.J Clin Endo Metab1986; 62: 1227.
