TC-99(M)-MDP GLOBAL SKELETAL UPTAKE AND MARKERS OF BONE METABOLISM IN PATIENTS WITH BONE-DISEASES

被引：15

作者：

RUBINI, G

LAURIERO, F

RUBINI, D

DADDABBO, A

机构：

[1] Centro lnterdipartimentale di Biocibernetica e Tecniche Radioisotopiche, Cattedra di Medicina Nucleare, Università di Bari, Bari, Policlinico, Piazza Giulio Cesare

来源：

NUCLEAR MEDICINE COMMUNICATIONS | 1993年 / 14卷 / 07期

关键词：

D O I：

10.1097/00006231-199307000-00009

中图分类号：

R8 [特种医学]; R445 [影像诊断学];

学科分类号：

1002 ; 100207 ; 1009 ;

摘要：

Tc-99m-methylene diphosphonate (MDP) global skeletal uptake (4 h GSU) was determined by quantitative measurement of activity on bone scan images 4 h after injection in whole skeleton regions of interest (ROI) in 16 normal subjects, in five patients with hypertrophic pulmonary osteoarthropathy (HPO) and in 12 with Paget's disease. Values were correlated with those of whole body retention (24 h WBR), and serum bone gla protein (BGP), i.e. osteocalcin, alkaline phosphatase (AP) and type 1 procollagen (P1CP). They were 40% higher in HPO than in the normal controls, while in Paget's disease they increased more in polyostotic than in monostotic patients. A statistically significant difference was noted between 4 h GSU and 24 h WBR values in the two groups of patients compared with the controls. Of the bone metabolism markers, serum AP and P1CP were higher in the patients and positively correlated with their enhanced 4 h GSU values, whereas BGP was always within the normal range. This method may thus be regarded as a useful way of simultaneously determining bone Tc-99m-MDP uptake and altered bone turnover sites, especially in patients with systemic bone disease.

引用

页码：567 / 572

页数：6

共 31 条

[1]

D'addabbo A., Rubini G., Mele M., Et al., A new method for assessing 99mTc-MDP bone uptake from a bone scan image: Quantitative measurement of radioactivity in global skeletal regions of interest, Nuci Med Comm, 13, pp. 55-60, (1992)

[2]

Caniggia A., Vattimo A., Kinetics of 99mtechnetium-tin- methylene diphosphonate in normal subjects and pathological conditions: A simple index of bone metabolism, Calcif Tiss Hit, 30, pp. 5-13, (1980)

[3]

Thomsen K., Nilas L., Mogensen T., Et al., Determination of bone turnover by urinary excretion of 99mTc-MDP, Eur J Nuci Med, 12, pp. 342-345, (1986)

[4]

Thomsen K., Johansen J., Nilas I., Et al., Whole body retention of 99Tc-diphosphonale, Relation to biochemical indices of bone turnover and to total body calcium, Eur J Nuci Med, 13, pp. 32-35, (1987)

[5]

Taubman M.B., Goldberg B., Sherr C.J., Et al., Radioimmunoassay for human procollagen, Science, 186, pp. 1115-1117, (1974)

[6]

Taubman M.B., Goldberg B., Antigenic relatedness of primate procollagen as determinated by a competitive radioimmunoassay, Comp Biochem Physiol, 59, pp. 47-48, (1978)

[7]

Slovik D.M., Gundberg C.M., Neer R.M., Et al., Clinical evaluation of bone turnover by serum osteocalcin measurements in a hospital setting, J Clin F.Ndocrinal Metab, 59, pp. 228-230, (1984)

[8]

McAfee J.G., Radionuclide imaging in metabolic and systemic skeletal disease, Semin Nuci Med, pp. 334-349, (1987)

[9]

Makler P.T., Charkes N.D., Studies in skeletal tracer kinetics. IV: Optimum time delay for 99Tc (Sn) methvlene- diphosphonate bone imaging, J Nuci Med, (1980)

[10]

Charkes N.D., Makler T., Studies in skeletal tracer kinetics, V: Computer-Simulated Wmtc (Sn) MDP Bone- Scan Changes in Some Systemic Disorders: Concise Communication. J Nuci Med, 22, pp. 601-605, (1981)

← 1 2 3 4 →