목적 : 흉선은 여러 생리학적, 병리학적 상태에 따라 크기가 변하는 면역학적 림프기관이다. 흉선은 스트레스 등에 의해 퇴축되는 반응을 보이며 흉선의 크기를 측정하는 것은 체내 스트레스를 유발하는 여러가지 질병에 대한 정보를 제공해준다. 요로감염은 영아에서 가장 흔한 세균성 감염이며 방광요관역류는 반복적인 요로감염과 연관성이 있다. 이번 연구에서는 요로감염 환아에서 방광요관역류가 동반되어 있을 때 요로감염이 단독으로 존재하는 경우보다 신체에 더 큰 스트레스로 작용할 것이라는 가정하에 흉선의 크기를 비교하였다. 방법 : 방광요관역류이외의 다른 생식기 기형을 동반하지 않은 발열성 요로감염 환아 99명의 자료를 후향적으로 분석하였다. 발열 기간, 방광요관역류 유무, 신결손, 신반흔 및 C반응성 단백과 백혈구수와 심흉선/흉곽의 크기와의 상관관계를 조사하였다. 결과 : 99명의 발열성 요로감염 환아 중 25명은 방광요관역류가 없었고 74명은 방광요관역류가 존재하였다. 방광요관역류가 있는 환아군에서 방광요관역류가 없는 환아군에 비해 심흉선/흉곽 비율이 적었다 ($0.382{\pm}0.048$ vs $0.439{\pm}0.079$, P<0.05). 반면, 방광요관역류가 있는 환아군에서 발열 기간, C반응성 단백과 백혈구수의 차이가 통계적으로 유의하지 않았다. 또한, 신결손 및 신반흔 유무에 따라 분류한 두 환아군에서는 심흉선/흉곽 비율의 차이는 없었다. 결론 : 요로감염 환아의 경우 방광요관역류를 동반하고 있는 경우가 있는데 방광요관역류를 가지고 있지 않은 환아들에 비해 흉선의 크기가 작아져 있는 것으로 관찰된다. 이에 흉선의 크기가 작아져 있는 요로감염 환아에게서 방광요관역류를 확인하기 위한 충분한 검사 및 치료가 필요하다.

Purpose : Thymus is a lymphoproliferative organ that changes size in various physiological states in addition to some pathological conditions. Thymus is susceptible to involution, and shows a dramatic response to severe stress. Thymic measurements may be helpful in various diseases. UTI (urinary tract infection) is most common bacterial infection in infants and VUR (vesicoureteral reflux) is a common abnormality associated with UTI. In our study, the size of thymus was compared on the premise that a greater stress is exerted on the body when UTI is accompanied by VUR, than when occurs on its own. Methods : Thymic size was measured on standard chest anteroposterior radiographs and expressed as the ratio between the transverse diameter of the cardiothymic image at the level of the carina and that of the thorax (CT/T). The medical records of 99 febrile urinary tract infection infants without other genitourinary anomalies except VUR were reviewed retrospectively. Results : Among 99 patients with febrile UTIs, 25 were febrile UTI without VUR and 74 with VUR. For the UTI with VUR group, there was a significant decrease in the thymic size compared to the those without VUR group ($0.382{\pm}0.048$ vs $0.439{\pm}0.079$, P<0.05). However, there were no differences in the duration of fever and WBC, CRP between the UTI with VUR and UTI without VUR. In addition, there were no differences in the cardiothymic/thoracic ratios between renal defects and renal scars in febrile UTI patients. Conclusion : The results of this study show that the shirinkage of thymus was more frequently found in the UTI patients with VUR. Therefore, awareness of the risks associated with thymic size is important for the appropriate work up and management of UTI patients.

1 정선미, "흉선의 크기와 주산기 질환들과의 관계" 대한소아과학회 45 (45): 855-861, 2002

2 Boyd RL, "thymic microenvironment" 14 : 445-459, 1993

3 Caffey J, "parent-infant traumatic stress syndrome" 114 : 218-229, 1972

4 Roitt I, "essential immunology. 8th ed" Blackwell scientific publications 147-167, 1994

5 Ha IS, "Weight and Morphologic Development of Prenatal Human Thymus" 34 : 1057-1069, 1991

6 Suster S, "Thymus. in: Histology for Pathologists" Raven Press 261-277, 1992

7 Gewolb IH, "Thymus size and its relationship to the respiratory distress syndrome" 95 : 108-111, 1979

8 Chen GM, "Thymus size & its relationship to perinatal events" 89 : 975-978, 2000

9 Olesen AB, "Thymus is enlarged in children with current atopic dermatitis. A cross-sectional study" 85 : 240-243, 2005

10 Seemayer TA, "Thymic involution mimickingthymic dysplasia. A consequence of transfusion-induced graft versus host disease in a premature infant" 104 : 141-144, 1980

11 Dourov N, "Thymic atrophy and immune deficiency in malnutrition" 75 : 127-132, 1986

12 Henry K, "The thymus gland. In : Systemic pathology. 3rd ed" Churchill Livingstone 27-139, 1992

13 Selye H, "Stress hormone, and cardiovascular disease" 1 : 701-706, 1972

14 De Felice C, "Small thymus in very low birth weight infants born to mothers with subclinical chorioamnionitis" 135 : 384-386, 1999

15 De Felice C, "Small thymus at birth and neonatal outcome in very-low-birth-weight infants" 162 : 204-206, 2003

16 De Felice C, "Small thymus at birth and gestational age" 161 : 362-363, 2002

17 Yerkes E, "Role of angiotensin in the congenital anomalies of the kidney and urinary tract in the mouse and the human" 101 : 755-760, 1998

18 Concordet JP, "Physiological programmed death in thymocytes is induced by physical stress (exercise)" 265 : 626-629, 1993

19 Han BK, "Normal thymus in infancy: sonographic charactreristics" 170 : 471-474, 1989

20 Maruyama T, "Intermittent pressure-loading increases transforming growth factor-beta-1 secretion from renal tubular epithelial cells: in vitro vesicoureteral reflux model" 75 : 150-158, 2005

21 Quy ND, "In vivo study of AT1 and AT2 angiotensin receptors in apoptosis in rat blood vessels" 34 : 617-624, 1999

22 Yim HE, "Genetic polymorphism of the renin-angiotensin system on the development of primary vesicoureteral reflux" 24 : 178-187, 2004

23 Yim HE, "Genetic control of VEGF and TGF-beta1 gene polymorphisms in childhood urinary tract infection and vesicoureteral reflux" 62 : 183-187, 2007

24 Stevens W, "Effects of cortisol acetate on various aspects of cellular metabolism in mouse lymphatic tissue" 4 : 254-283, 1967

25 Ma DD, "Effect of thymosin on glucocorticoid receptor activity and glucocorticoid sensitivity of human thymocytes" 55 : 273-280, 1984

26 Garin EH, "Clinical significance of primary vesicoureteral reflux and urinary antibiotic prophylaxis after acute pyelonephritis : a multicenter, randomized, controlled study" 111 : 626-632, 2006

27 Wilkinson-Berka JL, "Characterisation of a thymic rennin-angiotensin system in the transgenic m (Ren-2) 27 rat" 194 : 201-209, 2002

28 M. Kizilcan, "Changes in normal thymus size during infancy: sonographic evaluation" 5 : 55-59, 1995

29 H. Hasselbalch, "Breast-feeding influences thymic size in late infancy" 158 : 964-967, 1999

30 F. M. A. Correa, "Autoradiographic localization and characterization of angiotensin II receptor subtypes in the rat thymus" 15 : 821-824, 1994

31 Kagami S, "Angiotensin II stimulates extracellular matrix protein synthesis through induction of transforming growth factor-beta expression in rat glomerular mesangial cells" 93 : 2431-2437, 1994

32 Naeye RL, "Adrenal gland structures and the development of hyaline membrane disease" 47 : 650-651, 1971

33 Toti P, "Acute thymic involution in fetuses and neonates with chorioamnionitis" 31 : 1121-1127, 2000