Journal of Clinical Pediatrics >
Analysis of the screening effect of chronic kidney disease in infants: based on the results of a prospective study of 1988 infants in Qidong, Jiangsu Province
Received date: 2025-05-08
Accepted date: 2025-08-11
Online published: 2025-09-29
Objective To investigate the incidence of kidney diseases for children in Qidong, evaluate the efficacy of early screening and intervention, and explore a feasible early screening model for pediatric chronic kidney diseases (CKD). Methods A prospective cohort was established, and children (0-1 year old) born in 2022 who underwent child health examinations at Qidong Women’s and Children’s Health Hospital were enrolled. Dual screening (urinary system ultrasound and urine dipstick screening) was performed. Infants with abnormal results in initial urine dipstick were repeat screened, and those with abnormalities found in the ultrasound screening were followed up. The questionnaire was used to assess parental awareness of pediatric kidney diseases, and the association between parents’ educational level and the awareness were analyzed using the Chi-square test. Results A total of 1 988 infants were included, with a median age of 1.10 (0.73-3.20) months, including 988 boys (49.7%). Ultrasound screening was completed for 1958 individuals (98.5%), and 231 abnormal cases (11.8%) were detected. Among them, 195 cases (10.0%) were congenital anomalies of the kidney and urinary tract, primarily isolated renal pelvis dilation (140 mild, 9 moderate, and 2 severe cases), followed by duplex kidney or duplicated renal pelvis, unilateral small kidney or bilateral kidneys of unequal size, renal cysts, and distal ureteral cysts. Additionally, 25 cases of renal crystal and 10 cases of increased echogenicity of both kidneys were detected. A total of 1933 individuals (97.2%) completed urine dipstick screening. Abnormalities were detected in 180 cases (9.3%) during the initial screening, with increased white blood cells in urine being the most common. The abnormal rate of re-screening was 0.5%. A total of 1903 infants completed dual screening. Among them, 17 cases (0.89%) had abnormal results in both screenings. A total of 1809 parental questionnaires on pediatric kidney diseases awareness were collected (response rate 91.0%), with an awareness rate of 11.2%. Parents with an educational level of college or above had a significantly higher awareness rate compared to those with lower education levels (P<0.05). Two cases of severe hydronephrosis were identified through early screening and were promptly treated with surgical intervention, with favorable prognoses achieved. Conclusions Early postnatal urinary system ultrasound and urine dipstick screening facilitate the early detection of pediatric kidney diseases, providing a crucial evidence for timely and effective clinical intervention.
WU Juanjuan , LIU Tianyi , HONG Sha , SHEN Yiwen , WANG Hua , GONG Ling , HUO Yunfeng , ZHANG Yingdan , ZHANG Linlin , ZHANG Wei , LIU Jiaojiao , SHEN Qian , SHI Xinghua , SHEN Jun , QIU Wanshan , ZHAI Yihui , XU Hong . Analysis of the screening effect of chronic kidney disease in infants: based on the results of a prospective study of 1988 infants in Qidong, Jiangsu Province[J]. Journal of Clinical Pediatrics, 2025 , 43(10) : 768 -774 . DOI: 10.12372/jcp.2025.25e0512
| [1] | 姚青奎, 李玥臻, 罗琪丹, 等. 1990—2019年中国0-14岁儿童慢性肾脏病疾病负担分析[J]. 中国预防医学杂志, 2024, 25(9): 1191-1196. |
| Yao QK, Li YZ, Luo QD, et al. Disease burden of chronic kidney disease among children aged 0-14 years in China from 1990 to 2019[J]. Zhongguo Yufang Yixue Zazhi, 2024, 25(9): 1191-1196. | |
| [2] | 马岩, 韦性娇, 白华, 等. 西部地区某三甲医院儿童慢性肾脏病5期病因构成及临床特征分析[J]. 临床儿科杂志, 2024, 42(8): 697-703. |
| Ma Y, Wei XJ, Bai H, et al. Analysis of etiological composition and clinical features of stage 5 chronic kidney disease in children in a tertiary hospital in western China[J]. Linchuang Erke Zazhi, 2024, 42(8): 697-703. | |
| [3] | Cirillo L, De Chiara L, Innocenti S, et al. Chronic kidney disease in children: an update[J]. Clin Kidney J, 2023, 16(10): 1600-1611. |
| [4] | Wisnu GNPP, Situmorang GR, Wahyudi I, et al. Factors affecting the incidence of congenital anomaly of the kidney and urinary tract: a systematic review and meta-analysis[J]. Early Hum Dev, 2025, 205: 106252. |
| [5] | Hsu CN, Lu PC, Liao WT, et al. Pediatric chronic kidney disease: mind the gap between reality and expectations[J]. Children (Basel), 2025, 12(5): 614. |
| [6] | Wijewickrama E, Kalyesubula R. World kidney day: detecting kidney disease in low- and middle-income countries[J]. Kidney Int Rep, 2025, 10(3): 637-640. |
| [7] | Matsumura C, Kanemoto K, Uno Y, et al. Evaluation of screening with urine dipsticks and renal ultrasonography for 3-year-olds in Chiba City over 30 years[J]. Clin Exp Nephrol, 2022, 26(12): 1208-1217. |
| [8] | Hálek J, Fl?gelová H, Michálková K, et al. Diagnostic accuracy of postnatal ultrasound screening for urinary tract abnormalities[J]. Pediatr Nephrol, 2010, 25(2): 281-287. |
| [9] | Coelho GM, Bouzada MC, Pereira AK, et al. Outcome of isolated antenatal hydronephrosis: a prospective cohort study[J]. Pediatr Nephrol, 2007, 22(10): 1727-1734. |
| [10] | Liu Y, Shi H, Yu X, et al. Risk factors associated with renal and urinary tract anomalies delineated by an ultrasound screening program in infants[J]. Front Pediatr, 2021, 9: 728548. |
| [11] | Onen A. Grading of hydronephrosis: an ongoing challenge[J]. Front Pediatr, 2020, 8: 458. |
| [12] | Gong Y, Zhang Y, Shen Q, et al. Early detection of congenital anomalies of the kidney and urinary tract: cross-sectional results of a community-based screening and referral study in China[J]. BMJ Open, 2018, 8(5): e020634. |
| [13] | Richter-Rodier M, Lange AE, Hinken B, et al. Ultrasound screening strategies for the diagnosis of congenital anomalies of the kidney and urinary tract[J]. Ultraschall Med, 2012, 33(7): E333-E338. |
| [14] | Sheih CP, Liu MB, Hung CS, et al. Renal abnormalities in schoolchildren[J]. Pediatrics, 1989, 84(6): 1086-1090. |
| [15] | Policiano C, Djokovic D, Carvalho R, et al. Ultrasound antenatal detection of urinary tract anomalies in the last decade: outcome and prognosis[J]. J Matern Fetal Neonatal Med, 2015, 28(8): 959-963. |
| [16] | Byrne JJ, Morgan JL, Twickler DM, et al. Utility of follow-up standard sonography for fetal anomaly detection[J]. Am J Obstet Gynecol, 2020, 222(6): 615.e1-615.e9. |
| [17] | Sawant AA, Wankhede S, Thakare S, et al. Maternal and perinatal outcomes in oligohydramnios: a cross-sectional analysis of pregnancies between 28 to 42 weeks of gestation[J]. Cureus, 2025, 17(2): e79232. |
| [18] | Has R, Sarac Sivrikoz T. Prenatal diagnosis and findings in ureteropelvic junction type hydronephrosis[J]. Front Pediatr, 2020, 8: 492. |
| [19] | 李德玲, 林晓伟, 周莉娜, 等. 超声筛查在新生儿先天性肾脏和泌尿道畸形疾病中的应用价值[J]. 中国妇幼保健, 2023, 38(3): 564-567. |
| Li DL, Lin XW, Zhou LN, et al. Value of ultrasound screening in the diagnosis of congenital renal and urinary tract malformations in neonates[J]. Zhongguo Fuyou Baojian, 2023, 38(3): 564-567. | |
| [20] | 李博, 马常建, 李文妍, 等. 高危新生儿先天性肾脏及尿路畸形超声筛查及结果分析[J]. 中国全科医学, 2019, 22(18): 2243-2247. |
| Li B, Ma CJ, Li WY, et al. Ultrasonographic screening and analysis of congenital kidney and urinary tract anomalies in high-risk neonates[J]. Zhongguo Quanke Yixue, 2019, 22(18): 2243-2247. | |
| [21] | Vandervoort K, Lasky S, Sethna C, et al. Hydronephrosis in infants and children: natural history and risk factors for persistence in children followed by a medical service[J]. Clin Med Pediatr, 2009, 3: 63-70. |
| [22] | Porter E, McKie A, Beattie TJ, et al. Neonatal nephro-calcinosis: long term follow up[J]. Arch Dis Child Fetal Neonatal Ed, 2006, 91(5): F333-336. |
| [23] | Diviney J, Jaswon MS. Urine collection methods and dipstick testing in non-toilet-trained children[J]. Pediatr Nephrol, 2021, 36(7): 1697-1708. |
| [24] | Wang L, Xu X, Zhang M, et al. Prevalence of chronic kidney disease in China: results from the sixth China chronic disease and risk factor surveillance[J]. JAMA Intern Med, 2023, 183(4): 298-310. |
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