Penangkapan Non-Osseous Technetium-99m Methylene Diphosphonate (Tc-99m MDP) pada Pemeriksaan Sidik Tulang
DOI:
https://doi.org/10.46799/jhs.v4i4.878Keywords:
non-osseous uptake; Tc-99m MDP; bone scintigraphyAbstract
Non-osseous uptake on Tc-99m methylene diphosphonate can be caused by the processing of neoplasms, trauma, inflammatory processes, ischemic, and artifacts. Using Tc-99m MDP in bone scintigraphy imaging can show the changes in the metabolism of non-osseous lesions. Bone scintigraphy can show soft tissue lesions due to increased focal area activity. This study aimed to determine the non-osseous uptake of Tc-99m MDP in bone scintigraphy. The methods of this article were an article review of the current literature published in the last ten years until 2022 that discusses the uptake of non-osseous Tc-99m MDP on bone scintigraphy. This study found that proper identification of non-osseous uptake on bone scintigraphy can provide a diagnostic clue to the pathologic process. In conclusion, imaging of Tc-99m MDP uptake on the bone scintigraphy can provide additional information to reduce the risk of misinterpretation of bone scintigraphy results.
References
Abe, K., Hashiguchi, H., Sonoki, K., Iwashita, S., & Takai, S. (2019). Tarsal navicular stress fracture in a young athlete: A case report. Journal of Nippon Medical School, 86(2), 122–125.
An, Y. S., Suh, C. H., Jung, J. Y., & Kim, H. A. (2015). Role of bone scan in the assessment of polymyositis/dermatomyositis. Clinical Rheumatology, 34(4), 699–706.
Asokendaran, M., & Lenzo, N. (2016). Laxative related primary hyperphosphatemic tumoral calcinosis identified by bone scintigraphy. World Journal of Nuclear Medicine, 15(03), 200–202.
Bermo, M., Behnia, S., Fair, J., Miyaoka, R. S., & Elojeimy, S. (2018). Review of Extraskeletal Activity on Tc-99m Methylene Diphosphonate Bone Scintigraphy and Value of Cross-Sectional and SPECT-CT Imaging Correlation. Current Problems in Diagnostic Radiology, 47(5), 324–332.
Biassoni, L., Easty, M., & Sinha, C. (2015). Technetium-99m-pertechnetate scintigraphy in children with symptomatic Meckel’s diverticulum. Nuclear Medicine Communications, 36(4), 406–407.
Caobelli, F., Paghera, B., Pizzocaro, C., & Guerra, U. P. (2013). Extraosseous myocardial uptake incidentally detected during bone scan: Report of three cases and a systematic literature review of extraosseous uptake. Nuclear Medicine Review, 16(2), 82–87.
Cheon, M., & Yoo, J. (2022). A Case Report of a Gluteus Hematoma Detected on99mTc-MDP Bone Scan. Diagnostics, 12(6), 10–13.
Dadgar, H., Norouzbeigi, N., Jokar, N., & Zareizadeh, J. (2022). Comparison of 18 F-NaF Imaging , 99m Tc-MDP Scintigraphy , and 18 F-FDG for Detecting Bone Metastases.
Delaney, F. T., Dempsey, P., Welaratne, I., Buckley, B., O’Sullivan, D., & O’Connell, M. (2021). Incidental cardiac uptake in bone scintigraphy: increased importance and association with cardiac amyloidosis. BJR|case Reports, 7(3), 20200161.
Eberl, M., Fersing, C., Guillemard, S., Ilonca, D., Guiu, S., & Deshayes, E. (2022). Unusual Focal Lung Uptake without CT Abnormality on a Bone Scan : What Might It Mean ? 10–13.
Ghanem, M. A., Dannoon, S., & Elgazzar, A. H. (2020). The added value of SPECT-CT in the detection of heterotopic ossification on bone scintigraphy. Skeletal Radiology, 49(2), 291–298.
Gholami, A., & Jafaripour, I. (2022). Specific pattern of bone scan as a result of unintentional-intraarterial injection into the ulnar artery. Caspian Journal of Internal Medicine, 13(2), 439–441.
Govaert, G. A., IJpma, F. F., McNally, M., McNally, E., Reininga, I. H., & Glaudemans, A. W. (2017). Accuracy of diagnostic imaging modalities for peripheral post-traumatic osteomyelitis – a systematic review of the recent literature. European Journal of Nuclear Medicine and Molecular Imaging, 44(8), 1393–1407.
Heindel, W., Gübitz, R., Vieth, V., Weckesser, M., Schober, O., & Schäfers, M. (2014). The diagnostic imaging of bone metastases. Deutsches Ärzteblatt International, 111(44), 741–747.
Itani, M., Matesan, M., Behnia, S., & Elojeimy, S. (2017). Calciphylaxis on bone scan: correlation between molecular and cross-sectional findings. Radiology Case Reports, 12(1), 175–178.
Jiang, R. F., Zhang, L., Cheng, B., Huang, Z., Li, D. L., Wang, M. M., Lu, X. T., Zhang, Y. X., & Cao, W. (2015). Increased uptake of Tc-99m-methylene diphosphonate in the jaw. Clinical Imaging, 39(6), 1068–1072.
Kannivelu, A., Padhy, A. K., Srinivasan, S., & Ali, S. Z. (2013). Extraosseous uptake of technetium-99m methylene diphosphonate by an acute territorial cerebral infarct in a classical biodistribution pattern. Indian Journal of Nuclear Medicine, 28(4), 240–242.
Khor, L. K., Tan, K. B., Loi, H. Y., & Lu, S. J. (2013). Nephrogenic systemic fibrosis in a patient with renal failure demonstrating a “reverse superscan” on bone scintigraphy. Clinical Nuclear Medicine, 38(3), 203–204.
Kim, C., Lee, S. J., Kim, J. Y., Hwang, K. T., & Choi, Y. Y. (2017). Comparative Analysis of 99mTc-MDP Three-Phase Bone Scan with SPECT/CT and 99mTc-HMPAO-Labeled WBC SPECT/CT in the Differential Diagnosis of Clinically Suspicious Post-traumatic Osteomyelitis. Nuclear Medicine and Molecular Imaging, 51(1), 40–48.
Kousik, V., & Ram, S. (2021). Suprapatellar bursitis presenting as unilateral “Hot” patella sign on 99mTc-methylene diphosphonate skeletal scintigraphy. World Journal of Nuclear Medicine, 20(04), 408–410.
Kumar, N., Verma, S., Singh, R. K. R., Datta, D., Kheruka, S. C., & Gambhir, S. (2017). Contamination, a major problem in nuclear medicine imaging: How to investigate, handle, and avoid it. Journal of Nuclear Medicine Technology, 45(3), 241–242.
Liu, S., Xie, J., Yu, F., Cai, H., Wu, F., Zheng, H., Ma, C., Lv, Z., & Wang, H. (2020). 99mTc-methylene diphosphonate uptake in soft tissue tumors on bone scintigraphy differs between pediatric and adult patients and is correlated with tumor differentiation. Cancer Management and Research, 12, 2449–2457.
Lou, J., Wen, G., Dong, K., & Zhang, Y. (2017). Early monitoring of osteoporosis treatment response by technetium-99m-methylene diphosphonate bone scan. Nuclear Medicine Communications, 38(10), 854–857.
Love, C., & Palestro, C. J. (2016). Nuclear medicine imaging of bone infections. Clinical Radiology, 71(7), 632–646.
Mandegaran, R., Dhillon, S., & Jen, H. (2019). Beyond the bones and joints: A review of ligamentous injuries of the foot and ankle on 99mTc-MDP-SPECT/CT. British Journal of Radiology, 92(1104).
Manganaro, M. S., Millet, J. D., Brown, R. K. J., Viglianti, B. L., Wale, D. J., & Wong, K. K. (2019). The utility of bone scintigraphy with SPect/ct in the evaluation and management of frostbite injuries. British Journal of Radiology, 92(1094).
Minamimoto, R., Loening, A., Jamali, M., Barkhodari, A., Mosci, C., Jackson, T., Obara, P., Taviani, V., Gambhir, S. S., Vasanawala, S., & Iagaru, A. (2015). Prospective comparison of 99mTc-MDP scintigraphy, combined 18F-NaF and 18F-FDG PET/CT, and whole-body MRI in patients with breast and prostate cancer. Journal of Nuclear Medicine, 56(12), 1862–1868.
Mir, K. B., Fatima, S., Batool, S., Marwat, N., Faheem, M., & Ammar, A. (2022). Extraosseous soft tissue uptake-in Multiple Myeloma. JPMA. The Journal of the Pakistan Medical Association, 72(7), 1454–1455.
Mujtaba, B., Taher, A., Fiala, M. J., Nassar, S., Madewell, J. E., Hanafy, A. K., & Aslam, R. (2019). Heterotopic ossification: Radiological and pathological review. Radiology and Oncology, 53(3), 275–284.
Orcajo-Rincon, J., Muñoz-Langa, J., Sepúlveda-Sánchez, J. M., Fernández-Pérez, G. C., Martínez, M., Noriega-Álvarez, E., Sanz-Viedma, S., Vilanova, J. C., & Luna, A. (2022). Review of imaging techniques for evaluating morphological and functional responses to the treatment of bone metastases in prostate and breast cancer. Clinical and Translational Oncology, 24(7), 1290–1310.
Parihar, A. S., Schmidt, L. R., Crandall, J., Dehdashti, F., & Wahl, R. L. (2022). Adverse clinical events at the injection site are exceedingly rare following reported radiopharmaceutical extravasation in patients undergoing 99m Tc-MDP whole body bone scintigraphy: A 12-year experience . Journal of Nuclear Medicine, jnumed.122.264994.
Pirayesh, E., Rakhshan, A., Amoui, M., Rakhsha, A., Poor, A. S., & Assadi, M. (2013). Metastasis of femoral osteosarcoma to the abdominal wall detected on 99m Tc-MDP skeletal scintigraphy. Annals of Nuclear Medicine, 27(5), 478–480.
Şahin, E., Elboǧa, U., & Kalender, E. (2014). An incidental finding of extraosseous uptake in technetium 99m methylene diphosphonate bone scintigraphy: Uterine leiomyoma. Journal of Medical Imaging and Radiation Sciences, 45(2), 141–143.
Saxena, A., Behan, S. A., Valerio, D. L., & Frosch, D. L. (2017). Navicular Stress Fracture Outcomes in Athletes: Analysis of 62 Injuries. Journal of Foot and Ankle Surgery, 56(5), 943–948.
Sha, Y., Hong, K., Liew, M. K. M., Lum, J. L., & Wong, R. C. W. (2019). Juxta-articular tumoral calcinosis associated with the temporomandibular joint: A case report and concise review. BMC Oral Health, 19(1), 1–7.
Shao, F., Li, N., Xie, P., Li, Y., & Zhang, H. (2019). Increased Muscular MDP Activity in the Lower Extremities Caused by Multiple Arterial Thromboses. 44(2), 2018–2020.
Shen, Y. Y., Wu, Y. C., Kao, C. H., & Hsieh, T. C. (2014). Huge primary soft tissue sarcoma of the breast on bone scan. Clinical Nuclear Medicine, 39(1), 99–101.
Sonavane, S. T., Marwah, A., Shah, H., & Jaiswar, R. (2013). Abnormal extraosseous activity in both lungs and stomach in pre-transplant 99mTc-MDP bone scan disappearing after renal transplant. Indian Journal of Nuclear Medicine, 28(3), 165–167.
Soundararajan, R., Naswa, N., Sharma, P., Karunanithi, S., Nazar, A. H., Das, K. J., Bal, C., Malhotra, A., & Kumar, R. (2013). SPECT-CT for characterization of extraosseous uptake of 99mTc-methylene diphosphonate on bone scintigraphy. Diagnostic and Interventional Radiology, 19(5), 405–410.
Sun, G., Zhang, Y. X., Liu, F., & Tu, N. (2020). Whole-body magnetic resonance imaging is superior to skeletal scintigraphy for the detection of bone metastatic tumors: A meta-analysis. European Review for Medical and Pharmacological Sciences, 24(13), 7240–7252.
Torres, L. P., Hernandez, M. A., Avellaneda, T. M., & Ramírez, A. I. G. (2021). Findings in bone scintigraphy with [99mTc] Tc-MDP of a mandibular ameloblastic carcinoma. Nuclear Medicine Review, 24(1), 27–28.
Verma, S., Kumar, N., Kheruka, S. C., & Gambhir, S. (2016). Extraosseous 99mTc-methylene diphosphonate uptake on bone scan: Unusual scenario. Indian Journal of Nuclear Medicine, 31(4), 280–282.
Verrall, G., & Dolman, B. (2016). Deducing a mechanism of all musculoskeletal injuries. Muscles, Ligaments and Tendons Journal, 6(2), 174–182.
Wale, D. J., Wong, K. K., Savas, H., Kandathil, A., Piert, M., & Brown, R. K. J. (2015). Extraosseous findings on bone scintigraphy using fusion SPECT/CT and correlative imaging. American Journal of Roentgenology, 205(1), 160–172.
Wright, C. L., & Sharma, A. (2015). Unusual appearance for urinary bladder obstruction detected with 99mTc-MDP bone scintigraphy. Clinical Nuclear Medicine, 40(12), 967–968.
Zhang, L., He, Q., Zhou, T., Zhang, B., Li, W., Peng, H., Zhong, X., Ma, L., & Zhang, R. (2019). Accurate characterization of 99mTc-MDP uptake in extraosseous neoplasm mimicking bone metastasis on whole-body bone scan: Contribution of SPECT/CT. BMC Medical Imaging, 19(1).
Zhang, R., Dong, F., Meng, Z., & Tan, J. (2018). Multiple heterotopic ossification of the intestine detected by 99mTc-MDP bone scan in a patient with primary peritoneal cancer. Clinical Nuclear Medicine, 43(10), 749–751.
Zhong, Z. A., Peck, A., Li, S., VanOss, J., Snider, J., Droscha, C. J., Chang, T. A., & Williams, B. O. (2015). 99mTC-Methylene diphosphonate uptake at injury site correlates with osteoblast differentiation and mineralization during bone healing in mice. Bone Research, 3, 1–8.
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