Severe Anemia in 3 Toddlers with Gastric Lactobezoar

 

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Abstract

Backround:

Anemia in toddlers may result from many disorders including excessive feeding with cow’s milk. Another sequel of age-inadequate cow’s milk nutrition may be gastric lactobezoar (GLB), a dense lump of coagulated milk and mucus in the stomach.

Patients:

3 toddlers presented with a history of excessive intake of full cream cow’s milk, abdominal distension, vomiting, dehydration, fatigue, marked pallor and tachycardia.

Diagnostic workup:

Diagnostic imaging revea­led large GLBs as the likely origin of the abdominal symptoms. Laboratory evaluation showed severe anemia with depleted iron stores and signs of protein catabolism. Non-cow’s milk-induced causes of anemia including defects of erythropoiesis, hemoglobin structure, RBC-enzymes and blood coagulation, hemolysis, immune disorders, infection, inflammation, extraintestinal hemorrhage, nephropathy were – according to the available data – unlikely to cause the anemia in our patients. Thus their anemia is thought to be due to age-inadequate cow’s milk nutrition leading to 1) low intake, decreased absorption/bioavailability and increased intestinal loss of iron, and 2) GLB which induced blood loss following mechanical irritation of the gastric mucosa and vomiting causing high gastric pH and decrease in duodenal iron absorption

Conclusion:

The anemia in our patients is due to both exaggerated feeding with cow’s milk and adverse effects of GLBs. This hypothesis is supported by the finding that, after erythrocyte transfusion, iron substitution, age-adapted nutrition and GLB-dissolution, the anemia did not recur. We propose to include GLB in the differential diagnosis of anemia in cow’s milk fed small children.

Zusammenfassung

Hintergrund:

Anämie bei Kleinkindern wird durch viele Erkrankungen und exzessive Kuhmilchernährung verursacht. Eine andere Folge altersinadäquater Kuhmilchgabe sind Magenlaktobezoare (MLBs), dichte Milch/Schleim-Koagulate im Magenlumen.

Patienten:

Wir beschreiben 3 exzessiv mit unverdünnter Kuhmilch ernährte Kleinkinder mit Bauchdeckenspannung, Erbrechen, Dehydrierung, Müdigkeit, Blässe und Tachykardie.

Diagnostik:

Die Bildgebung zeigte große MLBs als wahrscheinliche Ursache der abdominellen Symptomatik. Im Labor fanden sich schwere Anämien mit depletierten Eisenspeichern und Zeichen von Proteinkatabolismus. Nicht durch Kuhmilch verursachte Anämieformen wie Defekte von Erythropoese, Hämoglobinstruktur, Erythrozytenenzymen und Blutgerinnung, Hämolyse, Immunstörungen, Infektion, Entzündung, extraintestinale Blutungen und Nephropathien waren – entsprechend den vorhandenen Daten – bei unseren Patienten unwahrscheinlich. Ihre Anämien werden daher auf altersinadequate Kuhmilchernährung zurückgeführt, die 1) verminderte Zufuhr, Absorption/Bioverfügbarkeit und erhöhten intestinalen Verlust von Eisen nach sich zog, und 2) zur Entstehung von MLBs beitrug, welche durch Irritation der Magenschleimhaut Blutverluste und durch Erbrechen und erhöhten Magen-pH verminderte duodenale Eisenresorption verursachte.

Schlussfolgerung:

Die Anämie unserer Pati­enten wurde durch exzessive Kuhmilchgabe und MLB-Auswirkungen verursacht. Diese Hypothese wird dadurch unterstützt, dass nach Erythrozytentransfusion, Eisengabe, altersentsprechender Ernährung und MLB-Auflösung keine Anämie mehr auftrat. Wir schlagen vor MLBs in die Differenzialdiagnose von Anämien bei Kuhmilch-ernährten kleinen Kindern aufzunehmen.

• References

• 1 Andrews NC. Iron absorption. Johnson LR. et al. (eds.). Physiology of the Gastrointestinal Tract. 3^rd ed. Elsevier Academic Press; 2006
  Google Scholar
• 2 Corzine M. Radiology case study. Gastric lactobezoar. Neonatal Netw 2011; 30: 180-187
  CrossrefPubMedGoogle Scholar
• 3 Cremin BJ, Fisher RM, Stokes NJ et al. Four cases oflactobezoar in neonates. Pediatr Radiol 1974; 2: 107-110
  CrossrefPubMedGoogle Scholar
• 4 Duritz G, Oltorf C. Lactobezoar formation associated with high-density caloric formula. Pediatrics 1979; 63: 647-649
  PubMedGoogle Scholar
• 5 Elizur A, Cohen M, Goldberg MR et al. Cow’s milk associated rectal bleeding: a population based prospective study. Pediatr Allergy Immunol 2012; 23: 766-770
  PubMedGoogle Scholar
• 6 Erenberg A, Shaw RD, Yousefzadeh D. Lactobezoar in the low-birth-weight infant. Pediatrics 1979; 63: 642-646
  PubMedGoogle Scholar
• 7 Gittelman MA, Racadio J, Gonzalez del Rey J. Radiological case of the month. Arch Pediatr & Adolesc Med 1999; 153: 541-542
  PubMedGoogle Scholar
• 8 Grosfeld JL, Schreiner RL, Franken E et al. The changing pattern of gastrointestinal bezoar in infants and children. Surgery 1980; 88: 425-432
  PubMedGoogle Scholar
• 9 Hallberg L, Rossander-Hulten L, Brune M et al. Bioavailability in man of iron in human milk and cow’s milk in relation to their calcium contents. Pediatr Res 1992; 31: 524-527
  CrossrefPubMedGoogle Scholar
• 10 Heinz-Erian P, Klein-Franke A, Gassner I et al. Disintegration oflarge gastric lactobezoars byN-acetylcysteine. J Pediatr Gastroenterol Nutr 2010; 50: 108-110
  CrossrefPubMedGoogle Scholar
• 11 Heinz-Erian P, Gassner I, Klein-Franke A et al. Gastric lactobezoar – a rare disorder?. Orphanet J Rare Dis 2012; 7: 1-8
  CrossrefPubMedGoogle Scholar
• 12 Høst A. Frequency of cow’s milk allergy in childhood. Ann Allergy Asthma Immunol 2002; 89: 33-37
  CrossrefPubMedGoogle Scholar
• 13 Hurrell RF, Lynch SR, Trinidad TP et al. Iron absorption in humans as influenced by bovine milk proteins. Am J Clin Nutr 1989; 49: 546-552
  PubMedGoogle Scholar
• 14 Institute of Medicine . Dietary Reference Intakes. Washington DC: National Acedemy Press; 2001
  Google Scholar
• 15 Janus J, Moerschel SK. Evaluation of anemia in children. Am Fam Physician 2010; 81: 1462-1471
  PubMedGoogle Scholar
• 16 Levkoff AH, Gadsden RH, Hennigar GR et al. Lactobezoar and gastric perforation in a neonate. J Pediatr 1970; 77: 875-877
  PubMedGoogle Scholar
• 17 Naik DR, Bolia A, Boon AW. Demonstration of a lactobezoar by ultrasound. Br J Radiol 1987; 60: 506-508
  CrossrefPubMedGoogle Scholar
• 18 Schreiner RL, Brady MS, Franken EA et al. Increased incidence of lactobezoars in low birth weight infants. Am J Dis Child 1979; 133: 936-940
  PubMedGoogle Scholar
• 19 Smith BJ, Bachrach SJ. An unexpected finding in an eight-year-old child with cerebral palsy and weight loss. J Natl Med Assoc 2006; 98: 280-283
  PubMedGoogle Scholar
• 20 Usmani SS Levenbrown Lactobezoar in a full-term breast-fed infant. Am J Gastroenterol 1989; 84: 647-649
  PubMedGoogle Scholar
• 21 Velásquez Rodriguez CM, Parra Sosa B, Morales Mira G et al. “Free” iron, transferrin and ferritin levels in serum and their relation with severe malnutrition. An Pediatr (Barc). 2007. 66. 17-23
  Google Scholar
• 22 Wolf RS, Davis LA. A foreign body formed by the use of undiluted powdered milk substance. JAMA 1963; 184: 782
  PubMedGoogle Scholar
• 23 Ziegler EE. Consumption of cow’s milk as a cause of iron deficiency in infants and toddlers. Nutr Reviews 2011; 69 (Suppl. 01) S37-S42
  CrossrefPubMedGoogle Scholar
• 24 Ziegler EE, Jiang T, Romero E et al. Cow’s milk and intestinal blood loss in late infancy. J Pediatr 1999; 135: 720-726
  PubMedGoogle Scholar