TY - JOUR
T1 - Intraperitoneal α-Emitting Radioimmunotherapy with 211At in Relapsed Ovarian Cancer
T2 - Long-Term Follow-up with Individual Absorbed Dose Estimations
AU - Hallqvist, Andreas
AU - Bergmark, Karin
AU - Bäck, Tom
AU - Andersson, Håkan
AU - Dahm-Kähler, Pernilla
AU - Johansson, Mia
AU - Lindegren, Sture
AU - Jensen, Holger
AU - Jacobsson, Lars
AU - Hultborn, Ragnar
AU - Palm, Stig
AU - Albertsson, Per
N1 - © 2019 by the Society of Nuclear Medicine and Molecular Imaging.
PY - 2019/8
Y1 - 2019/8
N2 - Eliminating microscopic residual disease with α-particle radiation is theoretically appealing. After extensive preclinical work with α-particle-emitting 211At, we performed a phase I trial with intraperitoneal α-particle therapy in epithelial ovarian cancer using 211At conjugated to MX35, the antigen-binding fragments-F(ab')2-of a mouse monoclonal antibody. We now present clinical outcome data and toxicity in a long-term follow-up with individual absorbed dose estimations. Methods: Twelve patients with relapsed epithelial ovarian cancer, achieving a second complete or nearly complete response with chemotherapy, received intraperitoneal treatment with escalating (20-215 MBq/L) activity concentrations of 211At-MX35 F(ab')2.Results: The activity concentration was escalated to 215 MBq/L without any dose-limiting toxicities. Most toxicities were low-grade and likely related to the treatment procedure, not clearly linked to the α-particle irradiation, with no observed hematologic toxicity. One grade 3 fatigue and 1 grade 4 intestinal perforation during catheter implantation were observed. Four patients had a survival of more than 6 y, one of whom did not relapse. At progression, chemotherapy was given without signs of reduced tolerability. Overall median survival was 35 mo, with a 1-, 2-, 5-, and 10-y survival of 100%, 83%, 50%, and 25%, respectively. Calculations of the absorbed doses showed that a lower specific activity is associated with a lower single-cell dose, whereas a high specific activity may result in a lower central dose in microtumors. Individual differences in absorbed dose to possible microtumors were due to variations in administered activity and the specific activity. Conclusion: No apparent signs of radiation-induced toxicity or decreased tolerance to relapse therapy were observed. The dosimetric calculations show that further optimization is advisable to increase the efficacy and reduce possible long-term toxicity.
AB - Eliminating microscopic residual disease with α-particle radiation is theoretically appealing. After extensive preclinical work with α-particle-emitting 211At, we performed a phase I trial with intraperitoneal α-particle therapy in epithelial ovarian cancer using 211At conjugated to MX35, the antigen-binding fragments-F(ab')2-of a mouse monoclonal antibody. We now present clinical outcome data and toxicity in a long-term follow-up with individual absorbed dose estimations. Methods: Twelve patients with relapsed epithelial ovarian cancer, achieving a second complete or nearly complete response with chemotherapy, received intraperitoneal treatment with escalating (20-215 MBq/L) activity concentrations of 211At-MX35 F(ab')2.Results: The activity concentration was escalated to 215 MBq/L without any dose-limiting toxicities. Most toxicities were low-grade and likely related to the treatment procedure, not clearly linked to the α-particle irradiation, with no observed hematologic toxicity. One grade 3 fatigue and 1 grade 4 intestinal perforation during catheter implantation were observed. Four patients had a survival of more than 6 y, one of whom did not relapse. At progression, chemotherapy was given without signs of reduced tolerability. Overall median survival was 35 mo, with a 1-, 2-, 5-, and 10-y survival of 100%, 83%, 50%, and 25%, respectively. Calculations of the absorbed doses showed that a lower specific activity is associated with a lower single-cell dose, whereas a high specific activity may result in a lower central dose in microtumors. Individual differences in absorbed dose to possible microtumors were due to variations in administered activity and the specific activity. Conclusion: No apparent signs of radiation-induced toxicity or decreased tolerance to relapse therapy were observed. The dosimetric calculations show that further optimization is advisable to increase the efficacy and reduce possible long-term toxicity.
U2 - 10.2967/jnumed.118.220384
DO - 10.2967/jnumed.118.220384
M3 - Journal article
C2 - 30683761
SN - 0161-5505
VL - 60
SP - 1073
EP - 1079
JO - Journal of nuclear medicine : official publication, Society of Nuclear Medicine
JF - Journal of nuclear medicine : official publication, Society of Nuclear Medicine
IS - 8
ER -