Your search keyword '"Terumitsu Hasebe"' showing total 2 results

1. CT-guided bone biopsy using electron density maps from dual-energy CT

Author

Shota Yamamoto, MD, Shunsuke Kamei, MD, Kosuke Tomita, MD, Chikara Fujita, BS, RT, Kazuyuki Endo, BS, RT, Shinichiro Hiraiwa, MD, and Terumitsu Hasebe, MD, PhD

Subjects

Bone metastasis, Computed tomography-guided intervention, Bone biopsy, Dual energy computed tomography, Electron density, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Computed tomography (CT) -guided bone biopsy is a diagnostic procedure performed on the musculoskeletal system with a high diagnostic yield and low complications. However, CT-guided bone biopsy has the disadvantage that it is difficult to confirm the presence of tumor cells during the biopsy procedure. Recently, the clinical benefits of dual-energy CT (DECT) over single-energy CT have been revealed. DECT can provide material decomposition images including calcium suppression images, and effective atomic number (Zeff) and electron density (ED) maps. ED maps have been reported to indicate cellularity. A 61-year-old woman with a history of breast cancer surgery was admitted to our hospital and underwent a CT-guided bone biopsy of the right ilium using ED maps. As a result, she was diagnosed with breast cancer metastases of intertrabecular bone. A comparison of ED maps with a pathological specimen revealed that high ED values occurred exclusively in the tumor area with high cellularity. This study indicates that ED maps produced using DECT may have potential utility in the accurate identification of metastases with high cellularity in bone lesions.

Published

2021

2. CT-guided bone biopsy using electron density maps from dual-energy CT

Author

Shunsuke Kamei, Terumitsu Hasebe, Shinichiro Hiraiwa, Kosuke Tomita, Chikara Fujita, Kazuyuki Endo, and Shota Yamamoto

Subjects

Bone biopsy, business.industry, R895-920, Bone metastasis, Dual-Energy Computed Tomography, medicine.disease, Medical physics. Medical radiology. Nuclear medicine, Breast cancer, Bone lesion, Computed tomography-guided intervention, Dual energy computed tomography, Interventional Radiology, medicine, Radiology, Nuclear Medicine and imaging, Dual energy ct, Nuclear medicine, business, Material decomposition, Biopsy procedure, Electron density

Abstract

Computed tomography (CT) -guided bone biopsy is a diagnostic procedure performed on the musculoskeletal system with a high diagnostic yield and low complications. However, CT-guided bone biopsy has the disadvantage that it is difficult to confirm the presence of tumor cells during the biopsy procedure. Recently, the clinical benefits of dual-energy CT (DECT) over single-energy CT have been revealed. DECT can provide material decomposition images including calcium suppression images, and effective atomic number (Zeff) and electron density (ED) maps. ED maps have been reported to indicate cellularity. A 61-year-old woman with a history of breast cancer surgery was admitted to our hospital and underwent a CT-guided bone biopsy of the right ilium using ED maps. As a result, she was diagnosed with breast cancer metastases of intertrabecular bone. A comparison of ED maps with a pathological specimen revealed that high ED values occurred exclusively in the tumor area with high cellularity. This study indicates that ED maps produced using DECT may have potential utility in the accurate identification of metastases with high cellularity in bone lesions.

Published

2021