[1].Charra B,Chazot C. Volume control, blood pressure and cardiovascular function. Lessons from hemodialysis treatment[J]. Nephron Physiol,2003, 93(4):94-101.
[2].Armstrong LE. Assessing hydration status: the elusive gold standard. J Am Coll Nutr,2007,26:575-584s.
[3]Kutty S, Li L, Hasan R, Peng Q, Rangamani S, Danford DA.Systemic venous diameters, collapsibility indices, and right atrial measurements in normal pediatric subjects.J Am Soc Echocardiogr,2014,27(2):155-162.
[4]Dietel T, Filler G, Grenda R, Wolfish N (2000) Bioimpedance and inferior vena cava diameter for assessment of dialysis dry weight,Pediatr Nephrol,14:903-907.
[5].Brennan JM, Ronan A, Goonewardena S, Blair JE, Hammes M, Shah D, Vasaiwala S, Kirkpatrick JN, Spencer KT (2006) Handcarried ultrasound measurement of the inferior vena cava for assessment of intravascular volume status in the outpatient hemodialysis clinic. Clin J Am Soc Nephrol 1:749-753.
[6].Sonmez F, Mir S, Ozyurek AR, Cura A (1996) The adjustment of post-dialysis dry weight based on non-invasive measurements in children. Nephrol Dial Transplant 11:1564-1567
[7].Krause I, Birk E, Davidovits M, Cleper R, Blieden L, Pinhas L,GamzoZ, Eisenstein B (2001) Inferiorvenacava diameter:a useful method for estimation of fluid status in children on haemodialysis. Nephrol Dial Transplant 16:1203-1206.
[8].Joo Hoon Lee,Young Seo Park.B-type natriuretic peptide is a useful biomarker for the estimation of volume overload in children with hypertension on peritoneal dialysis.Nephrology (Carlton). 2019 Mar;24(3):341-346.
[9].焦莉平,樊剑峰,文圆,孙嫱,陈鹭,马军梅,李爱华,沈颖.儿童维持性血液透析血浆 BNP 水平的变化北京医学,2012,34( 4):291-294.
[10].Ouali S, Bougmiza I, Abroug S et al. Relationship of brain natriuretic peptide concentrations to left ventricular function and adverse outcomes in children with end-stage renal disease undergoing hemodialysis. Pediatr. Cardiol. 2011; 32: 568-577.
[11].Khalifeh N, Haider D, H?rl WH.Natriuretic peptides in chronic kidney disease and during renal replacement therapy: an update.J Investig Med. 2009 Jan;57(1):33-39.
[12].Nongnuch A, Campbell N, Stern E et al. Increased postdialysis systolic blood pressure is associated with extracellular overhydration in hemodialysis outpatients.KidneyInt.2015,87: 452-457.
[13].Ariane Zaloszyc, Betti Schaefer, Franz Schaefer, et al. Hydration measurement by bioimpedance spectroscopy and blood pressure management in children on hemodialysis. Pediatric nephrology (Berlin, Germany). 2013 Nov; 28 (11) :2169-2177.
[14].焦莉平,文圆,马军梅,沈颖.多频生物电阻抗法评估血液透析患儿的体液分布.中华实用儿科临床杂志,2013,28(11):853-855.
[15].Lichtenstein DA. Lung ultrasound in the critically ill. Ann Intensive Care 2014; 4: 1
[16].Volpicelli G, Elbarbary M, Blaivas M et al. International evidence-based recommendations for point-of-care lung ultrasound. Intensive Care Med 2012; 38: 577-591.
[17].Martindale JL, Wakai A, Collins SP, et al. Diagnosing acute heart failure in the emergency department: a systematic review and meta-analysis. Acad Emerg Med. 2016;23:223-242.
[18].Adrian Covic, Dimitrie Siriopol, Luminita Voroneanu.Use of Lung Ultrasound for the Assessment of Volume Status in CKD.Am J Kidney Dis. 2018 Mar;71(3):412-422.
[19]. Sperandeo M, Varriale A, Sperandeo G, et al. Assessment of ultrasound acoustic artifacts in patients with acute dyspnea: a multicenter study. Acta Radiol. 2012;53:885-892
[20].Noble VE, Murray AF, Capp R, Sylvia-Reardon MH, Steele DJR, Liteplo A. Ultrasound assessment for extravascular lung water in patients undergoing hemodialysis. Time course for resolution. Chest. 2009;135:1433-1439.
[21].Volpicelli G, Mussa A, Garofalo G, et al. Bedside lung ultra- sound in the assessment of alveolar-interstitial syndrome. Am J Emerg Med. 2006;24:689-696.
[22].Reissig A, Kroegel C. Transthoracic sonography of diffuse parenchymal lung disease: the role of comet tail artifacts. J Ultrasound Med. 2003;22:173-180.
[23].Agricola E, Bove T, Oppizzi M et al. ‘Ultrasound comet-tail images: a marker of pulmonary edema: a comparative study with wedge pressure and extravascular lung water. Chest 2005; 127: 1690-1695.
[24].Mallamaci F, Benedetto FA, Tripepi R, Rastelli S, Castellino P, Tripepi G, Picano E, Zoccali C (2010) Detection of pulmonary congestion by chest ultrasound in dialysis patients. JACC Cardiovasc Imaging 3:586-594.
[25].Picano E, Frassi F, Agricola E, Gligorova S, Gargani L, Mottola G. Ultrasound lung comets: a clinically useful sign of extravascular lung water. J Am Soc Echocardiogr. 2006;19: 356-363.
[26].Picano E, Pellikka PA. Ultrasound of extravascular lung water: a new standard for pulmonary congestion. Eur Heart J.2016;37:2097-2104.
[27].Greenstein YY, Littauer R, Narasimhan M et al. Effectiveness of a critical care ultrasonography course. Chest 2017; 151: 34-40.
[28].Gargani L, Sicari R, Raciti M et al. Efficacy of a remote webbased lung ultrasound training for nephrologists and cardiologists: a LUST trial sub-project. Nephrol Dial Transplant 2016; 31: 1982-1988.
[29].Lichtenstein D, Meziere G, Biderman P, Gepner A, Barre O.The comet-tail artifact. An ultrasound sign of alveolar-interstitial syndrome. Am J Respir Crit Care Med.1997;156:1640-1646.
[30].Jambrik Z, Monti S, Coppola V, et al. Usefulness of ultrasound lung comets as a nonradiologic sign of extravascular lung water. Am J Cardiol. 2004;93:1265-1270.
[31].Vitturi N, Dugo M, Soattin M, Simoni F, Maresca L, Zagatti R,Maresca MC (2014) Lung ultrasound during hemodialysis: the rolein the assessment of volume status. Int Urol Nephrol 46:169-174.
[32].Panuccio V,EniaG,TripepiR,TorinoC,GarozzoM,BattagliaGG,Marcantoni C, Infantone L, Giordano G, De Giorgi ML, Lupia M,Bruzzese V, Zoccali C (2012) Chest ultrasound and hidden lung congestion in peritoneal dialysis patients. Nephrol Dial Transplant 27:3601-3605.
[33].Trezzi M, Torzillo D, Ceriani E, Costantino G, Caruso S,Damavandi PT, Genderini A, Cicardi M, Montano N, Cogliati C (2013) Lung ultrasonography for the assessment of rapid extravas-cular water variation: evidence from hemodialysis patients. Intern Emerg Med 8:409-415.
[34].Basso F, Milan Manani S, Cruz DN, Teixeira C, Brendolan A, Nalesso F, Zanella M, Ronco C (2013) Comparison and reproducibility of techniques for fluid status assessment in chronic hemodialysis patients. Cardiorenal Med 3:104-112.
[35]. Donadio C, Bozzoli L, Colombini E, Pisanu G,Ricchiuti G, Picano E, Gargani L (2015) Effective and timely evaluation of pulmonary congestion: qualitative comparison between lung ultrasound and thoracic bioelectrical impedance in maintenance hemodialysis patients. Medicine (Baltimore) 94:e473.
[36].Saad M, Mansour W, Kamal J et al. 355 B-lines on lung ultrasound in end stage renal disease patients post hemodialysis: accuracy and precision-interim analysis. Ann Emerg Med 2015; 66: S128.
[37]. Siriopol D, Hogas S, Voroneanu L et al. Predicting mortality in haemodialysis patients: a comparison between lung ultrasonography, bioimpedance data and echocardiography parameters. Nephrol Dial Transplant 2013; 28: 2851-2859.
[38]. Zoccali C, Torino C, Tripepi R et al. Pulmonary congestion predicts cardiac events and mortality in ESRD. J Am Soc Nephrol 2013; 24: 639-646.
[39]. Paudel K, Kausik T, Visser A et al. Comparing lung ultrasound with bioimpedance spectroscopy for evaluating hydration in peritoneal dialysis patients. Nephrology (Carlton) 2015; 20: 1-5.
[40].Weitzel WF, Hamilton J, Wang X, et al. Quantitative lung ultrasound comet measurement: method and initial clinical results. Blood Purif. 2015;39:37-44.
[41].Marino F, Martorano C, Tripepi R, et al. Subclinical pulmonary congestion is prevalent in nephrotic syndrome. Kidney Int. 2016;89:421-428.
[42].Allinovi M, Saleem M, Romagnani P, Nazerian P, Hayes W.Lung ultrasound: a novel technique for detecting fluid overload in children on dialysis.Nephrol Dial Transplant. 2017 Mar 1;32(3):541-547.
[43]Allinovi M, Saleem MA, Burgess O, Armstrong C, Hayes W.Finding covert fluid: methods for detecting volume overload in children on dialysis.Pediatr Nephrol. 2016 Dec;31(12):2327-2335. Epub 2016 Jun 10.
