목적: 본 연구에서는 신이식 환자를 대상으로 이식 후 체수분 분포의 변화를 생체전기 임피던스 분석기를 이용하여 알아보고, 이와 관련 있는 임상적인 요인들을 찾아보고자 하였다. 방법: 경북대학교 병원에서 신이식을 시행한 45명의 신환자를 이식 전 투석 유무 및 투석 방법을 기준으로 혈액 투석을 받은 환자군 (혈액투석군, n=32), 복막 투석을 받은 환자군 (복막투석군, n=5), 투석을 시행하고 있지 않았던 환자군 (보존적치료군, n=8)으로 분류하였다. 각 군의 환자들을 대상으로 이식 전과 이식 후 1, 3, 6개월에 생체전기 임피던스 분석기 (InBody720, Biospace, 서울, 한국)를 사용하여 총체수분 (%TBW), 세포외액 (%ECF), 세포내액 (%ICF) 및 부종 지수 (edema index)를 측정하여 이식 전후의 수분분포의 변화를 확인하였다. 또한 혈압, 혈청 크레아티닌, 24시간 뇨단백 등의 임상적 표지자들을 동시에 측정하여 체수분 분포 변화와의 연관성을 조사하였다. 결과: 신이식 전 세 군 간의 상기 체수분 분포 지수들은 의미 있는 차이가 없었다. 전체 대상환자들은 신이식 후 이식전과 비교하여 %TBW과 %ICF는 통계적으로 유의한 변화를 보이지 않았으나, %ECF는 이식 직후부터 의미 있게 감소되었으며 (이식 전 21.13±3.04 L/kg, 이식 후 1개월 20.03±2.37 L/kg, 이식 후 3개월 19.61±2.18 L/kg, 이식 후 6개월 18.32±5.02 L/kg: 각각 p=0.007, p<0.001, p=0.001) 부종 지수도 이식 후 1개월부터 유의하게 감소하였다 (이식 후 1개월 0.354±0.014, 이식 후 3개월 0.352±0.011, 이식 후 6개월 0.348±0.014: 각각 p=0.016, p=0.012). 부종 지수는 이식 후 1개월과 3개월에 혈액 투석군에서 다른 두 군에 비해 유의하게 높았으나 다른 체수분 분포의 지표들은 이식 전 투석방법에 따른 유의한 차이는 없었다. 임상적 표지자 중 혈청 크레아티닌과 24시간 뇨단백은 이식 후 1, 3개월의 %ECF와 유의한 양의 상관관계를 보였고 이식 후 3개월의 %TBW와 유의한 양의 상관관계를 보였다. 결론: 신이식 후 환자들은 이식 직후부터 ECF의 현저한 감소를 보이게 되며, 그 후 TBW 및 ICF의 변화가 서서히 뒤따르게 된다. 이러한 체수분 분포의 정상화는 뇨단백량이 적고 혈청 크레아티닌이 낮을수록 빨리 일어나게 되며, 이식전 투석 유무나 투석 방법과는 무관하였다. 향후 더 많은 수의 환자를 대상으로 한 연구가 필요할 것으로 사료된다.

Purpose: To investigate the changes of body fluid status after kidney transplantation (KT) and to find out the associated factors. Methods: Forty-five patients who had received KT were classified into hemodialysis (n=32), peritoneal dialysis (n=5), and preemptive (n=8) groups by dialysis modality. %TBW, %ECF, %ICF, and edema index which were examined by bioelectrical impedance analysis as well as clinical parameters were prospectively measured before KT and 1st month, 3rd month, 6th month after KT. Results: Before KT, there were no significant differences in all of the parameters listed above among the three groups. Mean %TBW and %ICF were not different compared to those of before KT. In contrast, mean %ECF markedly decreased within 1st month (before KT 21.13±3.04 L/kg, 1st month 20.03 ±2.37 L/kg, 3rd month 19.61±2.18 L/kg, 6th month 18.32±5.02 L/kg: p=0.007, p<0.001, p=0.001, respectively). Edema index also decreased from 1st month (1st month 0.354±0.014, 3rd month 0.352±0.011, 6th month 0.348±0.014: p=0.016, p=0.012, respectively). Only edema index was higher at 1st and 3rd month in hemodialysis group. Serum creatinine and 24 hour urine total protein were positively correlated with %ECF at 1st and 3rd month, and with %TBW at 3rd month. Conclusion: The recovery of body water distribution after KT starts with reduction of ECF within the 1st month. Serum creatinine and proteinuria are related to the recovery. No significant difference according to dialysis modality was found. Further study with larger sample size is necessary to confirm these findings.

1 Van Marken Lichtenbelt WD, "Validation of bioelectrical-impedance measurements as a method to estimate body-water compartments" 60 : 159-166, 1994

2 Kushner RF, "Use of bioelectrical impedance analysis measurements in the clinical management of patients undergoing dialysis" 64 (64): 503-509S, 1996

3 El Haggan W, "The evolution of weight and body composition in renal transplant recipients: Two-year longitudinal study" 38 : 3517-3519, 2006

4 De Vries JP, "The adjustment of post dialytic dry weight based on non-invasive measurement of extracellular fluid and blood volumes" 39 : M368-M372, 1993

5 Coroas A, "Sequential body composition analysis by bioimpedance early post-kidney transplantation" 18 : 541-547, 2005

6 Velic A, "Renal transplantation modulates expression and function of receptors and transporters of rat proximal tubules" 15 : 967-977, 2004

7 van den Ham EC, "Relation between steroid dose, body composition and physical activity in renal transplant patients" 69 : 1591-1598, 2000

8 van de Kerkhof J, "Reference values for multifrequency bioimpedance analysis in dialysis patients" 22 : 301-306, 2004

9 Fernández-Fresnedo G, "Proteinuria: a new marker of long-term graft and patient survival in kidney transplantation" 19 (19): ⅲ47-ⅲ51, 2004

10 Lowrie EG, "Primary associates of mortality among dialysis patients: Trends and reassessment of Kt/V and urea reduction ratio as outcome-based measures of dialysis dose" 32 (32): S16-S31, 1998

11 Van Biesen W, "Peritoneal dialysis favorably influences early graft function after renal transplantation compared to hemodialysis" 69 : 508-514, 2000

12 Coroas A, "Nutritional status and body composition evolution in early post-renal transplantation: is there a female advantage?" 37 : 2765-2770, 2005

13 Moreau K, "Long-term evolution of body composition after renal transplantation: 5-year survey" 16 : 291-299, 2006

14 Propper DJ, "Glomerulotubular function in long-term renal allograft recipients. A comparison of conventional therapy with cyclosporine" 50 : 72-75, 1990

15 Bantle JP, "Effects of cyclosporine on the renin-angiotensin-aldosterone system and potassium excretion in renal transplant recipients" 145 : 505-508, 1985

16 Iþiklar I, "Effects of Renal Transplantation on Body Composition" 30 : 831-832, 1998

17 El Haggan W, "Early evolution of nutritional status and body composition after kidney transplantation" 40 : 629-637, 2002

18 Hoffer EC, "Correlation of whole-body impedance with total body water volume" 27 : 531-534, 1969

19 Plum J, "Comparison of body fluid distribution between chronic haemodialysis and peritoneal dialysis patients as assessed by biophysical and biochemical methods" 16 : 2378-2385, 2001

20 Cooper BA, "Comparing different methods of assessing body composition in end-stage renal failure" 58 : 408-416, 2000

21 Wong HS, "Body composition by bioelectrical impedance analysis in renal transplant recipients" 36 : 2186-2187, 2004

22 Coroas AS, "Body composition assessed by impedance changes very early with declining renal graft function" 104 : P115-P120, 2006

23 Coroas A, "Bioimpedance analysis highlights changes in body composition at the early stages of impairment of kidney transplant function" 14 : 157-163, 2004

24 Lee SW, "Assessment of total body water from anthropometry-based equations using bioelectrical impedance as reference in Korean adult control and haemodialysis subjects" 16 : 91-97, 2001

25 Chamney PW, "A new technique for establishing dry weight in hemodialysis patients via whole body bioimpedance" 61 : 2250-2258, 2002