%0 Journal Article
%T 99mTc-MDP bone scintigraphy-based growth evaluation and prediction of epiphysis around the knee: a study of paediatric limb salvage for malignant bone tumours.
%A Li Y
%A Ji T
%A Wang Q
%A Guo W
%J Clin Radiol
%V 78
%N 8
%D 2023 08 17
%M 37308349
%F 3.389
%R 10.1016/j.crad.2023.05.002
%X To investigate the feasibility of bone scintigraphy in the assessment and prediction of bone growth potential after limb-salvage surgery in children with bone tumours.
Fifty-five skeletally immature patients with primary bone malignancies in distal femur was enrolled. Thirty-two patients received epiphysis minimally invasive endoprosthesis (EMIE) reconstruction, seven received hemiarthroplasty, and 16 received adult-type rotation-hinged endoprosthesis (ATRHE) reconstruction. All enrolled patients underwent radiographic examination at regular intervals and followed-up for >12 months. The actual limb length discrepancy (LLDa) of the tibia was measured on the radiography image. The expected LLD of tibia (LLDp) was calculated according to multiplier method. The uptake ratio of the ipsilateral epiphysis to the contralateral epiphysis (Ri/c) was calculated at bone scintigraphy. The Ri/c value was accommodated in the formula of multiplier method for a modification. The difference and correlation between the modified expected LLD (LLDm), LLDp and LLDa were analysed.
The growth potential of ipsilateral epiphysis was reserved in all patients who underwent hemiarthroplasty and one fourth of EMIE reconstruction. The Ri/c values in the hemiarthroplasty endoprosthesis group were significantly higher than the EMIE and ATRHE groups. There was no significant difference in Ri/c values between the EMIE and ATRHE group. Data from the 26 patients who reached bone maturation showed that there was a significant difference between LLDp and LLDa. LLDm showed a higher correlation with LLDa than LLDp.
Bone scintigraphy is helpful to evaluate the growth potential of epiphysis after surgery. The multiplier method modified by Ri/c value improves prediction accuracy of bone growth.