Vimal ChadhaDepartment of Pediatrics, Division of Nephrology, Children’s Mercy Kansas City, University of Missouri - Kansas City School of Medicine, Kansas City, Missouri
TongA, LoweA, SainsburyP, CraigJC: Experiences of parents who have children with chronic kidney disease: A systematic review of qualitative studies. Pediatrics121: 349–360, 2008PubMed
TongA, LoweA, SainsburyP, CraigJC: Experiences of parents who have children with chronic kidney disease: A systematic review of qualitative studies. Pediatrics 121: 349–360, 2008PubMed)| false
LopesM, FerraroA, KochVH: Health-related quality of life of children and adolescents with CKD stages 4-5 and their caregivers. Pediatr Nephrol29: 1239–1247, 2014PubMed
LopesM, FerraroA, KochVH: Health-related quality of life of children and adolescents with CKD stages 4-5 and their caregivers. Pediatr Nephrol 29: 1239–1247, 2014PubMed)| false
MoreiraJM, Bouissou Morais SoaresCM, TeixeiraAL, Simões E SilvaAC, KummerAM: Anxiety, depression, resilience and quality of life in children and adolescents with pre-dialysis chronic kidney disease. Pediatr Nephrol30: 2153–2162, 2015PubMed
MoreiraJM, Bouissou Morais SoaresCM, TeixeiraAL, Simões E SilvaAC, KummerAM: Anxiety, depression, resilience and quality of life in children and adolescents with pre-dialysis chronic kidney disease. Pediatr Nephrol 30: 2153–2162, 2015PubMed)| false
MedwayM, TongA, CraigJC, KimS, MackieF, McTaggartS, et al.: Parental perspectives on the financial impact of caring for a child with CKD. Am J Kidney Dis65: 384–393, 2015PubMed
MedwayM, TongA, CraigJC, KimS, MackieF, McTaggartS, : Parental perspectives on the financial impact of caring for a child with CKD. Am J Kidney Dis 65: 384–393, 2015PubMed)| false
FuhrmanDY, SchneiderMF, DellKM, Blydt-HansenTD, MakR, SalandJM, et al.: Albuminuria, proteinuria, and renal disease progression in children with CKD. Clin J Am Soc Nephrol12: 912–920, 2017PubMed
SchwartzGJ, MuñozA, SchneiderMF, MakRH, KaskelF, WaradyBA, et al.: New equations to estimate GFR in children with CKD. J Am Soc Nephrol20: 629–637, 2009PubMed
SchwartzGJ, MuñozA, SchneiderMF, MakRH, KaskelF, WaradyBA, : New equations to estimate GFR in children with CKD. J Am Soc Nephrol 20: 629–637, 2009PubMed)| false
PottelH, BjörkJ, BökenkampA, BergU, Åsling-MonemiK, SelistreL, et al.: Estimating glomerular filtration rate at the transition from pediatric to adult care. Kidney Int95: 1234–1243, 2019PubMed
PottelH, BjörkJ, BökenkampA, BergU, Åsling-MonemiK, SelistreL, : Estimating glomerular filtration rate at the transition from pediatric to adult care. Kidney Int 95: 1234–1243, 2019PubMed)| false
SchellekensP, VerjansM, JanssensP, DachyA, De RechterS, BreysemL, et al.: Low agreement between various eGFR formulae in pediatric and young adult ADPKD patients. Pediatr Nephrol38: 3043–3053, 2023PubMed
SchellekensP, VerjansM, JanssensP, DachyA, De RechterS, BreysemL, : Low agreement between various eGFR formulae in pediatric and young adult ADPKD patients. Pediatr Nephrol 38: 3043–3053, 2023PubMed)| false
FurthSL, ColeSR, Moxey-MimsM, KaskelF, MakR, SchwartzG, et al.: Design and methods of the Chronic Kidney Disease in Children (CKiD) prospective cohort study. Clin J Am Soc Nephrol1: 1006–1015, 2006PubMed
FurthSL, ColeSR, Moxey-MimsM, KaskelF, MakR, SchwartzG, : Design and methods of the Chronic Kidney Disease in Children (CKiD) prospective cohort study. Clin J Am Soc Nephrol 1: 1006–1015, 2006PubMed)| false
PierceCB, MuñozA, NgDK, WaradyBA, FurthSL, SchwartzGJ: Age- and sex-dependent clinical equations to estimate glomerular filtration rates in children and young adults with chronic kidney disease. Kidney Int99: 948–956, 2021PubMed
PierceCB, MuñozA, NgDK, WaradyBA, FurthSL, SchwartzGJ: Age- and sex-dependent clinical equations to estimate glomerular filtration rates in children and young adults with chronic kidney disease. Kidney Int 99: 948–956, 2021PubMed)| false
AtkinsonMA, NgDK, WaradyBA, FurthSL, FlynnJT: The CKiD study: Overview and summary of findings related to kidney disease progression. Pediatr Nephrol36: 527–538, 2021PubMed
AtkinsonMA, NgDK, WaradyBA, FurthSL, FlynnJT: The CKiD study: Overview and summary of findings related to kidney disease progression. Pediatr Nephrol 36: 527–538, 2021PubMed)| false
NgDK, SchwartzGJ, SchneiderMF, FurthSL, WaradyBA: Combination of pediatric and adult formulas yield valid glomerular filtration rate estimates in young adults with a history of pediatric chronic kidney disease. Kidney Int94: 170–177, 2018PubMed
NgDK, SchwartzGJ, SchneiderMF, FurthSL, WaradyBA: Combination of pediatric and adult formulas yield valid glomerular filtration rate estimates in young adults with a history of pediatric chronic kidney disease. Kidney Int 94: 170–177, 2018PubMed)| false
United States Renal Data System: 2023 USRDS Annual Data Report: Epidemiology of kidney disease in the United States, Bethesda, MD, National Institute of Diabetes and Digestive and Kidney Diseases, 2023
United States Renal Data System: 2023 USRDS Annual Data Report: Epidemiology of kidney disease in the United States, Bethesda, MD, National Institute of Diabetes and Digestive and Kidney Diseases, 2023)| false
Van StralenKJ, Borzych-DużalkaD, HatayaH, KennedySE, JagerKJ, VerrinaE, et al.; ESPN/ERA-EDTA registry; IPPN registry; ANZDATA registry; Japanese RRT registry: Survival and clinical outcomes of children starting renal replacement therapy in the neonatal period. Kidney Int86: 168–174, 2014PubMed
Van StralenKJ, Borzych-DużalkaD, HatayaH, KennedySE, JagerKJ, VerrinaE, ; ESPN/ERA-EDTA registry; IPPN registry; ANZDATA registry; Japanese RRT registry: Survival and clinical outcomes of children starting renal replacement therapy in the neonatal period. Kidney Int 86: 168–174, 2014PubMed)| false
ChadhaV, WaradyBA: Adequacy of peritoneal dialysis/assessing peritoneal function in pediatric patients. In Handbook of Dialysis Therapy, 6th Ed., edited by NissensenAR, FineRN, Amsterdam, Elsevier, 2023, pp 741–748
ChadhaV, WaradyBA: Adequacy of peritoneal dialysis/assessing peritoneal function in pediatric patients. In Handbook of Dialysis Therapy, 6th Ed., edited by NissensenAR, FineRN, Amsterdam, Elsevier, 2023, pp 741–748)| false
CoquilletteM, LeeRS, PagniSE, CataltepeS, SteinDR: Renal outcomes of neonates with early presentation of posterior urethral valves: A 10-year single center experience. J Perinatol40: 112–117, 2020PubMed
CoquilletteM, LeeRS, PagniSE, CataltepeS, SteinDR: Renal outcomes of neonates with early presentation of posterior urethral valves: A 10-year single center experience. J Perinatol 40: 112–117, 2020PubMed)| false
HerbstKW, TomlinsonP, LockwoodG, MoshaMH, WangZ, D’Alessandri-SilvaC: Survival and kidney outcomes of children with an early diagnosis of posterior urethral valves. Clin J Am Soc Nephrol14: 1572–1580, 2019PubMed
HerbstKW, TomlinsonP, LockwoodG, MoshaMH, WangZ, D’Alessandri-SilvaC: Survival and kidney outcomes of children with an early diagnosis of posterior urethral valves. Clin J Am Soc Nephrol 14: 1572–1580, 2019PubMed)| false
TehJC, FrielingML, SiennaJL, GearyDF: Attitudes of caregivers to management of end-stage renal disease in infants. Perit Dial Int31: 459–465, 2011PubMed
TehJC, FrielingML, SiennaJL, GearyDF: Attitudes of caregivers to management of end-stage renal disease in infants. Perit Dial Int 31: 459–465, 2011PubMed)| false
ChaversBM, MolonyJT, SolidCA, RheaultMN, CollinsAJ: One-year mortality rates in US children with end-stage renal disease. Am J Nephrol41: 121–128, 2015PubMed
ChaversBM, MolonyJT, SolidCA, RheaultMN, CollinsAJ: One-year mortality rates in US children with end-stage renal disease. Am J Nephrol 41: 121–128, 2015PubMed)| false
CareyWA, TalleyLI, SehringSA, JaskulaJM, MathiasRS: Outcomes of dialysis initiated during the neonatal period for treatment of end-stage renal disease: A North American Pediatric Renal Trials and Collaborative Studies special analysis. Pediatrics119: e468–e473, 2007PubMed
CareyWA, TalleyLI, SehringSA, JaskulaJM, MathiasRS: Outcomes of dialysis initiated during the neonatal period for treatment of end-stage renal disease: A North American Pediatric Renal Trials and Collaborative Studies special analysis. Pediatrics 119: e468–e473, 2007PubMed)| false
CareyWA, MartzKL, WaradyBA: Outcome of patients initiating chronic peritoneal dialysis during the first year of life. Pediatrics136: e615–e622, 2015PubMed
CareyWA, MartzKL, WaradyBA: Outcome of patients initiating chronic peritoneal dialysis during the first year of life. Pediatrics 136: e615–e622, 2015PubMed)| false
WongCS, GipsonDS, GillenDL, EmersonS, KoepsellT, SherrardDJ, et al.: Anthropometric measures and risk of death in children with end-stage renal disease. Am J Kidney Dis36: 811–819, 2000PubMed
WongCS, GipsonDS, GillenDL, EmersonS, KoepsellT, SherrardDJ, : Anthropometric measures and risk of death in children with end-stage renal disease. Am J Kidney Dis 36: 811–819, 2000PubMed)| false
GersonAC, WentzA, AbrahamAG, MendleySR, HooperSR, ButlerRW, et al.: Health-related quality of life of children with mild to moderate chronic kidney disease. Pediatrics125: e349–e357, 2010PubMed
GersonAC, WentzA, AbrahamAG, MendleySR, HooperSR, ButlerRW, : Health-related quality of life of children with mild to moderate chronic kidney disease. Pediatrics 125: e349–e357, 2010PubMed)| false
Al-UzriA, MathesonM, GipsonDS, MendleySR, HooperSR, YadinO, et al.; Chronic Kidney Disease in Children Study Group: The impact of short stature on health-related quality of life in children with chronic kidney disease. J Pediatr163: 736–41.e1, 2013PubMed
Al-UzriA, MathesonM, GipsonDS, MendleySR, HooperSR, YadinO, ; Chronic Kidney Disease in Children Study Group: The impact of short stature on health-related quality of life in children with chronic kidney disease. J Pediatr 163: 736–41.e1, 2013PubMed)| false
FurthSL, HwangW, YangC, NeuAM, FivushBA, PoweNR: Growth failure, risk of hospitalization and death for children with end-stage renal disease. Pediatr Nephrol17: 450–455, 2002PubMed
FurthSL, HwangW, YangC, NeuAM, FivushBA, PoweNR: Growth failure, risk of hospitalization and death for children with end-stage renal disease. Pediatr Nephrol 17: 450–455, 2002PubMed)| false
LiY, GreenbaumLA, WaradyBA, FurthSL, NgDK: Short stature in advanced pediatric CKD is associated with faster time to reduced kidney function after transplant. Pediatr Nephrol34: 897–905, 2019PubMed
LiY, GreenbaumLA, WaradyBA, FurthSL, NgDK: Short stature in advanced pediatric CKD is associated with faster time to reduced kidney function after transplant. Pediatr Nephrol 34: 897–905, 2019PubMed)| false
ChadhaV, FosterBJ, MakRH, WaradyBA: Nutrition, growth, and development in Pediatric Nephrology (8th Edition; Volume 2), Eds: Emma F, Goldstein SL, Bagga A, Bates CM, Shroff R. Springer, Berlin, Heidelberg. pp 1717 - 1750; 2022. doi.org/10.1007/978-3-642-27843-3_128-1
NelmsCL, ShawV, GreenbaumLA, AndersonC, DesloovereA, HaffnerD, et al.: Assessment of nutritional status in children with kidney diseases—Clinical practice recommendations from the Pediatric Renal Nutrition Taskforce. Pediatr Nephrol36: 995–1010, 2021PubMed
NelmsCL, ShawV, GreenbaumLA, AndersonC, DesloovereA, HaffnerD, : Assessment of nutritional status in children with kidney diseases—Clinical practice recommendations from the Pediatric Renal Nutrition Taskforce. Pediatr Nephrol 36: 995–1010, 2021PubMed)| false
GroupKW; KDOQI Work Group: KDOQI clinical practice guideline for nutrition in children with CKD: 2008 update. Executive summary. Am J Kidney Dis53[Suppl 2]: S11–S104, 2009PubMed
GroupKW; KDOQI Work Group: KDOQI clinical practice guideline for nutrition in children with CKD: 2008 update. Executive summary. Am J Kidney Dis 53[Suppl 2]: S11–S104, 2009PubMed)| false
ShawV, PoldermanN, Renken-TerhaerdtJ, PaglialongaF, OosterveldM, TuokkolaJ, et al.: Energy and protein requirements for children with CKD stages 2-5 and on dialysis—Clinical practice recommendations from the Pediatric Renal Nutrition Taskforce. Pediatr Nephrol35: 519–531, 2020PubMed
ShawV, PoldermanN, Renken-TerhaerdtJ, PaglialongaF, OosterveldM, TuokkolaJ, : Energy and protein requirements for children with CKD stages 2-5 and on dialysis—Clinical practice recommendations from the Pediatric Renal Nutrition Taskforce. Pediatr Nephrol 35: 519–531, 2020PubMed)| false
ShawV, AndersonC, DesloovereA, GreenbaumLA, HaffnerD, NelmsCL, et al.: Nutritional management of the infant with chronic kidney disease stages 2-5 and on dialysis. Pediatr Nephrol38: 87–103, 2023PubMed
ReesL, AzocarM, BorzychD, WatsonAR, BüscherA, EdefontiA, et al.; International Pediatric Peritoneal Dialysis Network (IPPN) registry: Growth in very young children undergoing chronic peritoneal dialysis. J Am Soc Nephrol22: 2303–2312, 2011PubMed
ReesL, ShawV, QizalbashL, AndersonC, DesloovereA, GreenbaumL, et al.; Pediatric Renal Nutrition Taskforce: Delivery of a nutritional prescription by enteral tube feeding in children with chronic kidney disease stages 2-5 and on dialysis—Clinical practice recommendations from the Pediatric Renal Nutrition Taskforce. Pediatr Nephrol36: 187–204, 2021PubMed
ReesL, ShawV, QizalbashL, AndersonC, DesloovereA, GreenbaumL, ; Pediatric Renal Nutrition Taskforce: Delivery of a nutritional prescription by enteral tube feeding in children with chronic kidney disease stages 2-5 and on dialysis—Clinical practice recommendations from the Pediatric Renal Nutrition Taskforce. Pediatr Nephrol 36: 187–204, 2021PubMed)| false
DrubeJ, WanM, BonthuisM, WühlE, BacchettaJ, SantosF, et al.; European Society for Paediatric Nephrology Chronic Kidney Disease Mineral and Bone Disorders, Dialysis, and Transplantation Working Groups: Clinical practice recommendations for growth hormone treatment in children with chronic kidney disease. Nat Rev Nephrol15: 577–589, 2019PubMed
DrubeJ, WanM, BonthuisM, WühlE, BacchettaJ, SantosF, ; European Society for Paediatric Nephrology Chronic Kidney Disease Mineral and Bone Disorders, Dialysis, and Transplantation Working Groups: Clinical practice recommendations for growth hormone treatment in children with chronic kidney disease. Nat Rev Nephrol 15: 577–589, 2019PubMed)| false
HooperSR, GersonAC, JohnsonRJ, MendleySR, ShinnarS, LandeMB, et al.: Neurocognitive, social-behavioral, and adaptive functioning in preschool children with mild to moderate kidney disease. J Dev Behav Pediatr37: 231–238, 2016PubMed
HooperSR, GersonAC, JohnsonRJ, MendleySR, ShinnarS, LandeMB, : Neurocognitive, social-behavioral, and adaptive functioning in preschool children with mild to moderate kidney disease. J Dev Behav Pediatr 37: 231–238, 2016PubMed)| false
RotundoA, NevinsTE, LiptonM, LockmanLA, MauerSM, MichaelAF: Progressive encephalopathy in children with chronic renal insufficiency in infancy. Kidney Int21: 486–491, 1982PubMed
RotundoA, NevinsTE, LiptonM, LockmanLA, MauerSM, MichaelAF: Progressive encephalopathy in children with chronic renal insufficiency in infancy. Kidney Int 21: 486–491, 1982PubMed)| false
FurthSL, PierceC, HuiWF, WhiteCA, WongCS, SchaeferF, et al.; Chronic Kidney Disease in Children (CKiD); Effect of Strict Blood Pressure Control and ACE Inhibition on the Progression of CRF in Pediatric Patients (ESCAPE) Study Investigators: Estimating time to ESRD in children with CKD. Am J Kidney Dis71: 783–792, 2018PubMed
FurthSL, PierceC, HuiWF, WhiteCA, WongCS, SchaeferF, ; Chronic Kidney Disease in Children (CKiD); Effect of Strict Blood Pressure Control and ACE Inhibition on the Progression of CRF in Pediatric Patients (ESCAPE) Study Investigators: Estimating time to ESRD in children with CKD. Am J Kidney Dis 71: 783–792, 2018PubMed)| false
NgDK, RobertsonCC, WoronieckiRP, LimouS, GilliesCE, ReidyKJ, et al.: APOL1-associated glomerular disease among African-American children: A collaboration of the Chronic Kidney Disease in Children (CKiD) and Nephrotic Syndrome Study Network (NEPTUNE) cohorts. Nephrol Dial Transplant32: 983–990, 2017PubMed
NgDK, RobertsonCC, WoronieckiRP, LimouS, GilliesCE, ReidyKJ, : APOL1-associated glomerular disease among African-American children: A collaboration of the Chronic Kidney Disease in Children (CKiD) and Nephrotic Syndrome Study Network (NEPTUNE) cohorts. Nephrol Dial Transplant 32: 983–990, 2017PubMed)| false
NgDK, Moxey-MimsM, WaradyBA, FurthSL, MuñozA: Racial differences in renal replacement therapy initiation among children with a nonglomerular cause of chronic kidney disease. Ann Epidemiol26: 780–787.e1, 2016PubMed
NgDK, Moxey-MimsM, WaradyBA, FurthSL, MuñozA: Racial differences in renal replacement therapy initiation among children with a nonglomerular cause of chronic kidney disease. Ann Epidemiol 26: 780–787.e1, 2016PubMed)| false
RicardoAC, PereiraLN, BetokoA, GohV, AmarahA, WaradyBA, et al.; Chronic Kidney Disease in Children (CKiD) Cohort Investigators: Parental health literacy and progression of chronic kidney disease in children. Pediatr Nephrol33: 1759–1764, 2018PubMed
ZhongY, MuñozA, SchwartzGJ, WaradyBA, FurthSL, AbrahamAG: Nonlinear trajectory of GFR in children before RRT. J Am Soc Nephrol 25: 913–917, 2014PubMed)| false
WühlE, TrivelliA, PiccaS, LitwinM, Peco-AnticA, ZurowskaA, et al.; ESCAPE Trial Group: Strict blood-pressure control and progression of renal failure in children. N Engl J Med361: 1639–1650, 2009PubMed
WühlE, TrivelliA, PiccaS, LitwinM, Peco-AnticA, ZurowskaA, ; ESCAPE Trial Group: Strict blood-pressure control and progression of renal failure in children. N Engl J Med 361: 1639–1650, 2009PubMed)| false
WaradyBA, AbrahamAG, SchwartzGJ, WongCS, MuñozA, BetokoA, et al.: Predictors of rapid progression of glomerular and nonglomerular kidney disease in children and adolescents: The Chronic Kidney Disease in Children (CKiD) cohort. Am J Kidney Dis65: 878–888, 2015PubMed
WaradyBA, AbrahamAG, SchwartzGJ, WongCS, MuñozA, BetokoA, : Predictors of rapid progression of glomerular and nonglomerular kidney disease in children and adolescents: The Chronic Kidney Disease in Children (CKiD) cohort. Am J Kidney Dis 65: 878–888, 2015PubMed)| false
Di IorioBR, BellasiA, RaphaelKL, SantoroD, AucellaF, GarofanoL, et al.; UBI Study Group: Treatment of metabolic acidosis with sodium bicarbonate delays progression of chronic kidney disease: The UBI Study. J Nephrol32: 989–1001, 2019PubMed
Di IorioBR, BellasiA, RaphaelKL, SantoroD, AucellaF, GarofanoL, ; UBI Study Group: Treatment of metabolic acidosis with sodium bicarbonate delays progression of chronic kidney disease: The UBI Study. J Nephrol 32: 989–1001, 2019PubMed)| false
HarambatJ, KunzmannK, AzukaitisK, BayazitAK, CanpolatN, DoyonA, et al.; 4C Study Consortium: Metabolic acidosis is common and associates with disease progression in children with chronic kidney disease. Kidney Int92: 1507–1514, 2017PubMed
HarambatJ, KunzmannK, AzukaitisK, BayazitAK, CanpolatN, DoyonA, ; 4C Study Consortium: Metabolic acidosis is common and associates with disease progression in children with chronic kidney disease. Kidney Int 92: 1507–1514, 2017PubMed)| false
WyldML, De La MataNL, HedleyJ, KimS, KellyPJ, WebsterAC: Life years lost in children with kidney failure: A binational cohort study with multistate probabilities of death and life expectancy. J Am Soc Nephrol34: 1057–1068, 2023PubMed
WyldML, De La MataNL, HedleyJ, KimS, KellyPJ, WebsterAC: Life years lost in children with kidney failure: A binational cohort study with multistate probabilities of death and life expectancy. J Am Soc Nephrol 34: 1057–1068, 2023PubMed)| false
ZurowskaAM, FischbachM, WatsonAR, EdefontiA, StefanidisCJ; European Paediatric Dialysis Working Group: Clinical practice recommendations for the care of infants with stage 5 chronic kidney disease (CKD5). Pediatr Nephrol28: 1739–1748, 2013PubMed
ZurowskaAM, FischbachM, WatsonAR, EdefontiA, StefanidisCJ; European Paediatric Dialysis Working Group: Clinical practice recommendations for the care of infants with stage 5 chronic kidney disease (CKD5). Pediatr Nephrol 28: 1739–1748, 2013PubMed)| false