TY - JOUR

T1 - A simple new formula to assess liver weight

AU - Yoshizumi, T.

AU - Gondolesi, G. E.

AU - Bodian, C. A.

AU - Jeon, H.

AU - Schwartz, M. E.

AU - Fishbein, T. M.

AU - Miller, C. M.

AU - Emre, Sukru

N1 - Funding Information:
Supported in part by a grant from the Uehara Memorial Foundation. Liver tramsplant: donor and recipient transplant evaluation

PY - 2003/6

Y1 - 2003/6

N2 - Introduction. In cadaveric or segmental liver transplantation, accurate assessment of graft volume is desirable but not always easy to achieve based on donor morphometric data. We sought to establish a simple, reliable formula for accurate prediction of liver volume. Methods. Data from 1,413 cadaveric adult and pediatric liver donors were analyzed using simple and multiple regression analysis. Liver weight (LW) was plotted against age, height, body weight (BW), body surface area (BSA) or body mass index (BMI); a formula was developed using simple regression: LW (g) = 772 (g/m2) × BSA, r = 0.73, P < .01. For donors with BSA ≤1.0, a pediatric factor (PF) of 1.0 was included, resulting in the formula: LW (g) = 772 (g/m2) × BSA - 38PF, r = 0.73, P < .01. We then applied our formula on 5 published formulae to estimate LW of our donors. Results. Among donors with BSA >1.0, there was no significant difference between the actual and the estimated mean LW as calculated by the new formula. For pediatric donors, there was no significant difference between estimated and actual mean liver weight with any formula. When the new formula was applied, the difference between the actual and the estimated liver weight was acceptable (<20%) in 1040 (73.6%) cases. In all races, there was no significant difference between actual and estimated mean liver weight as calculated by this formula. Conclusion. A simple formula to calculate liver weight in donors with BSA >1.0 is: LW = 772 × BSA, and for donors with BSA ≤1.0: Liver Weight = 772 × BSA - 38.

AB - Introduction. In cadaveric or segmental liver transplantation, accurate assessment of graft volume is desirable but not always easy to achieve based on donor morphometric data. We sought to establish a simple, reliable formula for accurate prediction of liver volume. Methods. Data from 1,413 cadaveric adult and pediatric liver donors were analyzed using simple and multiple regression analysis. Liver weight (LW) was plotted against age, height, body weight (BW), body surface area (BSA) or body mass index (BMI); a formula was developed using simple regression: LW (g) = 772 (g/m2) × BSA, r = 0.73, P < .01. For donors with BSA ≤1.0, a pediatric factor (PF) of 1.0 was included, resulting in the formula: LW (g) = 772 (g/m2) × BSA - 38PF, r = 0.73, P < .01. We then applied our formula on 5 published formulae to estimate LW of our donors. Results. Among donors with BSA >1.0, there was no significant difference between the actual and the estimated mean LW as calculated by the new formula. For pediatric donors, there was no significant difference between estimated and actual mean liver weight with any formula. When the new formula was applied, the difference between the actual and the estimated liver weight was acceptable (<20%) in 1040 (73.6%) cases. In all races, there was no significant difference between actual and estimated mean liver weight as calculated by this formula. Conclusion. A simple formula to calculate liver weight in donors with BSA >1.0 is: LW = 772 × BSA, and for donors with BSA ≤1.0: Liver Weight = 772 × BSA - 38.

UR - http://www.scopus.com/inward/record.url?scp=0038434554&partnerID=8YFLogxK

U2 - 10.1016/S0041-1345(03)00482-2

DO - 10.1016/S0041-1345(03)00482-2

M3 - Article

C2 - 12826175

AN - SCOPUS:0038434554

SN - 0041-1345

VL - 35

SP - 1415

EP - 1420

JO - Transplantation Proceedings

JF - Transplantation Proceedings

IS - 4

ER -