Quantitative 166Ho-microspheres SPECT derived from a dual-isotope acquisition with 99mTc-colloid is clinically feasible

M Stella, Arthur Braat, Marnix Lam, Hugo de Jong, Rob van Rooij

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Abstract

Purpose: Accurate dosimetry is essential in radioembolization. To this purpose, an automatic protocol for healthy liver dosimetry based on dual isotope (DI) SPECT imaging, combining holmium-166 ( 166Ho)-microspheres, and technetium-99 m ( 99mTc)-colloid was developed: 166Ho-microspheres used as scout and therapeutic particles, and 99mTc-colloid to identify the healthy liver. DI SPECT allows for an automatic and accurate estimation of absorbed doses, introducing true personalized dosimetry. However, photon crosstalk between isotopes can compromise image quality. This study investigates the effect of 99mTc downscatter on 166Ho dosimetry, by comparing 166Ho-SPECT reconstructions of patient scans acquired before ( 166Ho-only) and after additional administration of 99mTc-colloid ( 166Ho-DI). Methods: The 166Ho-only and 166Ho-DI scans were performed in short succession by injecting 99mTc-colloid on the scanner table. To compensate for 99mTc downscatter, its influence was accounted for in the DI image reconstruction using energy window-based scatter correction methods. The qualitative assessment was performed by independent blinded comparison by two nuclear medicine physicians assessing 65 pairs of SPECT/CT. Inter-observer agreement was tested by Cohen’s kappa coefficient. For the quantitative analysis, two volumes of interest within the liver, VOI TUMOR, and VOI HEALTHY were manually delineated on the 166Ho-only reconstruction and transferred to the co-registered 166Ho-DI reconstruction. Absorbed dose within the resulting VOIs, and in the lungs (VOI LUNGS), was calculated based on the administered therapeutic activity. Results: The qualitative assessment showed no distinct clinical preference for either 166Ho-only or 166Ho-DI SPECT (kappa = 0.093). Quantitative analysis indicated that the mean absorbed dose difference between 166Ho-DI and 166Ho-only was − 2.00 ± 2.84 Gy (median 27 Gy; p value < 0.00001), − 5.27 ± 8.99 Gy (median 116 Gy; p value = 0.00035), and 0.80 ± 1.08 Gy (median 3 Gy; p value < 0.00001) for VOI HEALTHY, VOI TUMOR, and VOI LUNGS, respectively. The corresponding Pearson’s correlation coefficient between 166Ho-only and 166Ho-DI for absorbed dose was 0.97, 0.99, and 0.82, respectively. Conclusion: The DI protocol enables automatic dosimetry with undiminished image quality and accuracy. Clinical trials: The clinical study mentioned is registered with Clinicaltrials.gov (NCT02067988) on 20 February 2014.

Original languageEnglish
Article number48
Number of pages12
JournalEJNMMI Physics
Volume7
Issue number1
DOIs
Publication statusPublished - 14 Jul 2020

Keywords

  • Dual isotope
  • Holmium-166
  • Radioembolization
  • SPECT/CT
  • Scatter correction
  • Technetium
  • CT
  • SPECT

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