RT Journal Article SR Electronic T1 Changes in Patterns of 99mTc-Macroaggregated Albumin Use Between 2000 and 2015 JF Journal of Nuclear Medicine Technology JO J. Nucl. Med. Technol. FD Society of Nuclear Medicine SP 111 OP 113 DO 10.2967/jnmt.117.192401 VO 45 IS 2 A1 Ponto, James A. YR 2017 UL http://tech.snmjournals.org/content/45/2/111.abstract AB Since the early 2000s, the method of evaluating pulmonary embolism has shifted from 99mTc-macroaggregated albumin (MAA) perfusion lung scans to CT angiography. 99mTc-MAA continues to be applied for patients with contraindications to CT angiography and for other uses. A reduced number of 99mTc-MAA particles is administered to patients with pulmonary hypertension or other risk factors. This study assessed the changing patterns of 99mTc-MAA use between 2000 and 2015 at a single institution by comparing snapshots of the procedures performed in those two years. Methods: Records for all patients receiving 99mTc-MAA in 2000 and 2015 were reviewed, making note of the type of imaging procedure, whether there was any contraindication to CT angiography, and whether a reduced number of 99mTc-MAA particles was administered. Results: In 2000, 99mTc-MAA was used for 489 lung scans for pulmonary embolism, 2 for peritoneovenous shunts, and 1 for a cardiac shunt. Of the lung scan patients, 46 (9%) had pulmonary hypertension. A reduced number of particles was administered to the pulmonary hypertension and cardiac shunt patients (47/492, or 9%). In 2015, 99mTc-MAA was used for 263 lung scans for pulmonary embolism, 33 for presurgical planning, 33 for patients with a lung transplant, 16 for pulmonary artery stenosis, 5 to determine hepatic artery microsphere eligibility, and 1 for a peritoneovenous shunt. Of the lung scans for pulmonary embolism, 256 of the 263 patients (97%) had a contraindication to CT angiography or a nondiagnostic CT angiogram, including 99 (38%) with pulmonary hypertension. A reduced number of particles was administered to the pulmonary hypertension patients, presurgical patients, and lung-transplant patients (165/351, or 47%). Conclusion: Comparing 2015 with 2000, lung scans for pulmonary embolism decreased 46%, from 489 to 263, apparently because of a shift to CT angiography, whereas other uses rose from 3 to 88. Administration of a reduced number of particles rose significantly from 9% to 47% of 99mTc-MAA doses. Although the total number of 99mTc-MAA doses dropped 29%, from 492 to 351, 99mTc-MAA remains an important radiopharmaceutical for both pulmonary embolism and other uses.