Radionuclide scintigraphy in monitoring reparative processes in irradiated bone replants

A. A. Kurilchik; Курильчик А. А.; V. A. Bizer; Бизер В. А.; M. A. Perekhrest; Перехрест М. А.; G. T. Kudryavtseva; Кудрявцева Г. Т.

doi:10.17816/vto200310271-73

Radionuclide scintigraphy in monitoring reparative processes in irradiated bone replants

Authors: Kurilchik A.A.¹, Bizer V.A.¹, Perekhrest M.A.¹, Kudryavtseva G.T.¹
Affiliations:
1. Medical Radiological Research Center of the Russian Academy of Medical Sciences
Issue: Vol 10, No 2 (2003)
Pages: 71-73
Section: Original study articles
URL: https://journal-vniispk.ru/0869-8678/article/view/48200
DOI: https://doi.org/10.17816/vto200310271-73
ID: 48200

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Abstract

The remodeling of irradiated bone re-implant placed into simultaneously irradiated bed was studied by scintigraphy method using 99Tc-labeled drug (TcLD) (perfoteh). The data obtained were compared with data of radiologic control. The study included 11 patients with osteogenic sarcoma who were operated on after chemo-radiotherapy course. The peculiarities of operation were as follows. Resected bone with tumor was irradiated by single 60 G dose, after that the bone was re-implanted. It was revealed that 1 month postoperatively TcLD retention in contact zone of bone fragments was 2—2.5 times higher as compared with the symmetric zone of healthy bone. Remodeling peak was observed 1.5—2 months after operation. Over that interval TcLD retention decreased gradually and by 18 months the contact zone was not detected on scintigrams. According to the data of radiologic control the peak of remodeling took place at 6—8 months after operation. The study showed that irradiated re-implant preserved mechanical stiffness and worked as a biologic prosthesis while substituting the newly formed bone. Scintigraphy is an additional method the earlier assessment of reparative processes in extracorporal irradiated reimplant as compared to the assessment of radiologic control.

Keywords

radionuclide scintigraphy, replant

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About the authors

A. A. Kurilchik

Medical Radiological Research Center of the Russian Academy of Medical Sciences

Email: info@eco-vector.com
Russian Federation, Obninsk

V. A. Bizer

Medical Radiological Research Center of the Russian Academy of Medical Sciences

Email: info@eco-vector.com
Russian Federation, Obninsk

M. A. Perekhrest

Medical Radiological Research Center of the Russian Academy of Medical Sciences

Email: info@eco-vector.com
Russian Federation, Obninsk

G. T. Kudryavtseva

Medical Radiological Research Center of the Russian Academy of Medical Sciences

Author for correspondence.
Email: info@eco-vector.com
Russian Federation, Obninsk

References

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2. Fig. 1. Characteristics of the accumulation of the radiopharmaceutical in the maternal bone (—), in the diaphysis of the replant (- • ) and at the junction of the fragments (• • •). I - curve of increase, II - curve of decrease in binding of technetium. The abscissa axis (X) shows the logarithm of time after surgery (in months): Хmax — 1.67 months — the peak of radiopharmaceutical accumulation at the junction of the replant with the maternal bone (Lg 1.67 months = 0.2); Хmax = 4.05 months — peak of RP accumulation in the diaphysis of the maternal bone (Lg 4.05 months = 0.6); Хmax = 4.39 months — peak of RP accumulation in the diaphysis of the replant (Lg 4.39 months = 0.64); along the y-axis, the logarithm of technetium accumulation (%).

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3. Fig. 2. Scans and radiographs of a 14-year-old patient K.: a — 1 month after surgery; b — after 3 months; c - after 1.5 years.

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