神经性厌食症患儿营养支持的临床挑战与研究进展

doi:10.12372/jcp.2026.25e1559

Abstract

Abstract:

Anorexia nervosa(AN) is an eating disorder characterized by the deliberate maintenance of low body weight,with both low diagnosis rate and low standardized treatment rate. Patients with long-term malnutrition are prone to severe multisystem complications, and nutritional support is the core component of their treatment. Currently, two regimens are predominantly applied in clinical nutritional support: the traditional low-calorie refeeding and high-calorie refeeding. Among them, the high-calorie refeeding regimen not only shortens the length of hospital stay and reduces medical costs, but also does not increase the risk of refeeding syndrome. However, the applicability of this regimen in children with severe malnutrition and its long-term effects require further exploration. Regarding the nutritional support regimens for children with AN, particularly the initial calorie intake regimen, there is still no unified consensus internationally. In view of this, this paper systematically reviews the nutritional assessment tools, nutritional support strategies, and key points for the prevention of refeeding syndrome in children with AN. Studies have shown that the adoption of multidimensional integrated assessment can effectively improve the accuracy of nutritional evaluation.

Key words: anorexia nervosa, malnutrition, nutritional support, refeeding syndrome, hypophosphatemia, child

CLC Number:

WANG Lihui, MA Ming. Clinical challenges and research progress in nutritional support for children with anorexia nervosa[J].Journal of Clinical Pediatrics, 2026, 44(5): 478-484.

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References 44

[1]	Kwok C, Kwok V, Lee HY, et al. Clinical and socio-demographic features in childhood vs adolescent-onset anorexia nervosa in an Asian population[J]. Eat Weight Disord, 2020, 25(3): 821-826. doi: 10.1007/s40519-019-00694-9 pmid: 31025301
[2]	Stengel A, Giel K. Emerging therapeutic targets for anorexia nervosa[J]. Expert Opin Ther Targets, 2023, 27(4-5): 281-292. doi: 10.1080/14728222.2023.2206954
[3]	Hudson-Phillips S, Mayo K, Cox K, et al. Anorexia nervosa and pancreatitis[J]. Br J Hosp Med (Lond), 2021, 82(12): 1-7. doi: 10.12968/hmed.2021.0429 pmid: 34983221
[4]	Berends T, Boonstra N, van Elburg A. Relapse in anorexia nervosa: a systematic review and meta-analysis[J]. Curr Opin Psychiatry, 2018, 31(6): 445-455. doi: 10.1097/YCO.0000000000000453
[5]	Berkley J, Mwangi I, Griffiths K, et al. Assessment of severe malnutrition among hospitalized children in rural Kenya: comparison of weight for height and mid upper arm circumference[J]. JAMA, 2005, 294(5): 591-597. doi: 10.1001/jama.294.5.591 pmid: 16077053
[6]	Grellety E, Golden MH. Severely malnourished children with a low weight-for-height have similar mortality to those with a low mid-upper-arm-circumference: Ⅱ. Systematic literature review and meta-analysis[J]. Nutr J, 2018, 17(1): 80. doi: 10.1186/s12937-018-0383-5
[7]	Becker P, Carney LN, Corkins MR, et al. Consensus statement of the academy of nutrition and dietetics/American society for parenteral and enteral nutrition: indicators recommended for the identification and documentation of pediatric malnutrition (undernutrition)[J]. Nutr Clin Pract, 2015, 30(1): 147-161. doi: 10.1177/0884533614557642 pmid: 25422273
[8]	Abbaspour A, Reed KK, Hübel C, et al. Comparison of dual-energy X-ray absorptiometry and bioelectrical impedance analysis in the assessment of body composition in women with anorexia nervosa upon admission and discharge from an inpatient specialist unit[J]. Int J Environ Res Public Health, 2021, 18(21): 11388. doi: 10.3390/ijerph182111388
[9]	Peterson K, Fuller R. Anorexia nervosa in adolescents: an overview[J]. Nursing, 2019, 49(10): 24-30. doi: 10.1097/01.NURSE.0000580640.43071.15 pmid: 31568077
[10]	Marini E, Stagi S, Cabras S, et al. Associations of bio-electrical impedance and anthropometric variables among populations and within the full spectrum of malnutrition[J]. Nutrition, 2024, 127: 112550. doi: 10.1016/j.nut.2024.112550
[11]	Bellido D, García-García C, Talluri A, et al. Future lines of research on phase angle: strengths and limitations[J]. Rev Endocr Metab Disord, 2023, 24(3): 563-583. doi: 10.1007/s11154-023-09803-7
[12]	Murray Hurtado M, Martín Rivada Á, Quintero Alemán C, et al. Body composition and nutritional status changes in adolescents with anorexia nervosa[J]. An Pediatr (Engl Ed), 2023, 99(3): 162-169.
[13]	García-Hermoso A, Cavero-Redondo I, Ramírez-Vélez R, et al. Muscular strength as a predictor of all-cause mortality in an apparently healthy population: a systematic review and Meta-analysis of data from spproximately 2 million men and women[J]. Arch Phys Med Rehabil, 2018, 99(10): 2100-2113. doi: 10.1016/j.apmr.2018.01.008
[14]	Rosa-Caldwell ME, Eddy KT, Rutkove SB, et al. Anorexia nervosa and muscle health: a systematic review of our current understanding and future recommendations for study[J]. Int J Eat Disord, 2023, 56(3): 483-500. doi: 10.1002/eat.v56.3
[15]	Etemadi S, Sun GX, Leung SP, et al. The sit up squat stand test and hand grip strength: What is the role of tests of muscle power in risk assessment in anorexia nervosa?[J]. Eur Eat Disord Rev, 2021, 29(4): 670-679. doi: 10.1002/erv.2839 pmid: 33950546
[16]	Clemente-Suárez VJ, Ramírez-Goerke MI, Redondo-Flórez L, et al. The impact of anorexia nervosa and the basis for non-pharmacological interventions[J]. Nutrients, 2023, 15(11): 2594. doi: 10.3390/nu15112594
[17]	Cuntz U, Voderholzer U. Liver damage is related to the degree of being underweight in anorexia nervosa and improves rapidly with weight gain[J]. Nutrients, 2022, 14(12): 2378. doi: 10.3390/nu14122378
[18]	Yalamanchili HB, Calp-Inal S, Zhou XJ, et al. Hypokalemic nephropathy[J]. Kidney Int Rep, 2018, 3(6): 1482-1488. doi: 10.1016/j.ekir.2018.07.014 pmid: 30450476
[19]	Mehler PS, Koutsavlis A. Anorexia nervosa, albumin, and inflammation[J]. Am J Med, 2021, 134(6): e401. doi: 10.1016/j.amjmed.2020.08.023 pmid: 34049636
[20]	Crone C, Fochtmann LJ, Attia E, et al. The American psychiatric association practice guideline for the treatment of patients with eating disorders[J]. Am J Psychiatry, 2023, 180(2): 167-171. doi: 10.1176/appi.ajp.23180001
[21]	Frostad S, Rozakou-Soumalia N, Dârvariu Ş, et al. BMI at discharge from treatment predicts relapse in anorexia nervosa: a systematic scoping review[J]. J Pers Med, 2022, 12(5): 836. doi: 10.3390/jpm12050836
[22]	Flamarique I, Pineda M, Tasa-Vinyals E, et al. Blood parameters in children and adolescents with underweight and atypical anorexia nervosa[J]. Int J Eat Disord, 2025, 58(1): 171-180. doi: 10.1002/eat.v58.1
[23]	Haas V, Kohn M, Körner T, et al. Practice-based evidence and clinical guidance to support accelerated re-nutrition of patients with anorexia nervosa[J]. J Am Acad Child Adolesc Psychiatry, 2021, 60(5): 555-561. doi: 10.1016/j.jaac.2020.09.010
[24]	Herpertz-Dahlmann B. Intensive treatments in adolescent anorexia nervosa[J]. Nutrients, 2021, 13(4): 1265. doi: 10.3390/nu13041265
[25]	Garber AK, Cheng J, Accurso EC, et al. Short-term outcomes of the study of refeeding to optimize inpatient gains for patients with anorexia nervosa: a multicenter randomized clinical trial[J]. JAMA Pediatr, 2021, 175(1): 19-27. doi: 10.1001/jamapediatrics.2020.3359 pmid: 33074282
[26]	Ehrlich S, Tam FI. Editorial: refeeding in anorexia nervosa: Quo vadis?[J]. J Am Acad Child Adolesc Psychiatry, 2021, 60(5): 566-567. doi: 10.1016/j.jaac.2020.12.016
[27]	Herpertz-Dahlmann B. Treatment of eating disorders in child and adolescent psychiatry[J]. Curr Opin Psychiatry, 2017, 30(6): 438-445. doi: 10.1097/YCO.0000000000000357
[28]	Neale J, Hudson LD. Anorexia nervosa in adolescents[J]. Br J Hosp Med (Lond), 2020, 81(6): 1-8. doi: 10.12968/hmed.2020.0099 pmid: 32589532
[29]	Donini LM. Eating disorders: a comprehensive guide to medical care and complications (fourth edition) : edited by Philip Mehler and Arnold Andersen[J]. Eat Weight Disord, 2022, 27(8): 2987-2988. doi: 10.1007/s40519-022-01479-3 pmid: 36199010
[30]	Marchili MR, Diamanti A, Zanna V, et al. Early naso-gastric feeding and outcomes of anorexia nervosa patients[J]. Nutrients, 2023, 15(3): 490. doi: 10.3390/nu15030490
[31]	Gibson D, Watters A, Pieracci F, et al. Pneumatosis intestinalis and anorexia nervosa[J]. Surg Infect (Larchmt), 2022, 23(7): 661-666. doi: 10.1089/sur.2022.127
[32]	West M, McMaster CM, Staudacher HM, et al. Gastrointestinal symptoms following treatment for anorexia nervosa: a systematic literature review[J]. Int J Eat Disord, 2021, 54(6): 936-951. doi: 10.1002/eat.23469 pmid: 33529388
[33]	中国抗癌协会肿瘤营养专业委员会, 中华医学会肠外肠内营养学分会. 肠外营养安全性管理中国专家共识[J]. 肿瘤代谢与营养电子杂志, 2021, 8(5): 495-502.
	Chinese Society of Nutritional Oncology, Chinese Society for Parenteral and Enteral Nutrition. Chinese parenteral nutrition safety consensus recommendations[J]. Zhongliu Daixie Yu Yingyang Dianzi Zazhi, 2021, 8(5): 495-502.
[34]	Gallagher D, Parker A, Samavat H, et al. Prophylactic supplementation of phosphate, magnesium, and potassium for the prevention of refeeding syndrome in hospitalized individuals with anorexia nervosa[J]. Nutr Clin Pract, 2022, 37(2): 328-343. doi: 10.1002/ncp.v37.2
[35]	Gibson D, Filan Z, Westmoreland P, et al. Loss of bone density in patients with anorexia nervosa food that alone will not cure[J]. Nutrients, 2024, 16(21): 3593. doi: 10.3390/nu16213593
[36]	Giollo A, Idolazzi L, Caimmi C, et al. Vitamin D levels strongly influence bone mineral density and bone turnover markers during weight gain in female patients with anorexia nervosa[J]. Int J Eat Disord, 2017, 50(9): 1041-1049. doi: 10.1002/eat.22731 pmid: 28593655
[37]	Skowrońska A, Sójta K, Strzelecki D. Refeeding syndrome as treatment complication of anorexia nervosa[J]. Psychiatr Pol, 2019, 53(5): 1113-1123. doi: 90275 pmid: 31955189
[38]	Friedli N, Stanga Z, Culkin A, et al. Management and prevention of refeeding syndrome in medical inpatients: an evidence-based and consensus-supported algorithm[J]. Nutrition, 2018, 47: 13-20. doi: S0899-9007(17)30207-1 pmid: 29429529
[39]	Friedli N, Stanga Z, Sobotka L, et al. Revisiting the refeeding syndrome: results of a systematic review[J]. Nutrition, 2017, 35: 151-160. doi: S0899-9007(16)30090-9 pmid: 28087222
[40]	Yamazaki T, Inada S, Sawada M, et al. Diets with high carbohydrate contents were associated with refeeding hypophosphatemia: a retrospective study in Japanese inpatients with anorexia nervosa[J]. Int J Eat Disord, 2021, 54(1): 88-94. doi: 10.1002/eat.23416 pmid: 33236366
[41]	Jowik K, Tyszkiewicz-Nwafor M, Słopień A. Anorexia nervosa-what has changed in the state of knowledge about nutritional rehabilitation for patients over the past 10 years? A review of literature[J]. Nutrients, 2021, 13(11): 3819. doi: 10.3390/nu13113819
[42]	Draffin K, Hamilton J, Godsil S, et al. Comparison of a low carbohydrate intake and standard carbohydrate intake on refeeding hypophosphatemia in children and adolescents with anorexia nervosa: a pilot randomised controlled trial[J]. J Eat Disord, 2022, 10(1): 50. doi: 10.1186/s40337-021-00519-0 pmid: 35413883
[43]	丁文雯, 朱凤, 骆余佳, 等. 高危新生儿早期肠外营养“再喂养综合征”临床防治进展[J]. 临床儿科杂志, 2025, 43(1): 56-60.
	Ding WW, Zhu F, Luo YJ, et al. Clinical progress in prevention and treatment of early parenteral nutrition-related "refeeding syndrome" in high-risk newborns[J]. Linchuang Erke Zazhi, 2025, 43(1): 56-60.
[44]	郭亚琼, 于静, 李小芹. 儿童重度营养不良再喂养综合征的处理[J]. 中国实用儿科杂志, 2024, 39(4): 280-284.
	Guo YQ, Yu J, Li XQ. Management of refeeding syndrome in children with severe malnutrition[J]. Zhongguo Shiyong Erke Zazhi, 2024, 39(4): 280-284.

	轻度营养不良	中度营养不良	重度营养不良
身高/身长别体重Z评分	-1~-1.9	-2~-2.9	≤-3
年龄别BMI Z评分	-1~-1.9	-2~-2.9	≤-3
年龄别身高/身长Z评分	无数据	无数据	≤-3
中上臂围Z评分	-1~-1.9	-2~-2.9	≤-3

	轻度营养不良	中度营养不良	重度营养不良
体重增加速度（<2岁）	低于预期理想体重增加的75%	低于预期理想体重增加的50%	低于预期理想体重增加的25%
体重下降百分比（2~20岁）	5%的体重下降	7.5%的体重下降	10%的体重下降
身高/身长别体重Z评分	下降1个Z评分	下降2个Z评分	下降3个Z评分
营养素摄入不足	51%~75%预期能量/蛋白质摄入	26%~50%预期能量/蛋白质摄入	≤25%预期能量/蛋白质摄入

Clinical challenges and research progress in nutritional support for children with anorexia nervosa

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