Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodine

Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodine

Abstract Rationale Salivary glands are highly perfused and express the prostate-specific membrane antigen (PSMA) receptor as well as the sodium—iodide symporter. As a consequence, treatment with 177Lu/225Ac-PSMA for prostate cancer or 131I for thyroid cancer leads to a high radiation dose in the sal...

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Main Authors: V. Mohan, N. M. Bruin, M. E. T. Tesselaar, J. P. de Boer, E. Vegt, J. J. M. A. Hendrikx, A. Al-Mamgani, J. B. van de Kamer, J.-J. Sonke, W. V. Vogel
Format: Article
Language:English
Published: SpringerOpen 2021-03-01
Series:EJNMMI Research
Subjects:
Salivary glands
Toxicity
PSMA
Iodine
Radionuclide therapy
Online Access:https://doi.org/10.1186/s13550-021-00770-1
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spelling doaj-89be928797504856aaceb657b35603a22021-03-14T12:12:07ZengSpringerOpenEJNMMI Research2191-219X2021-03-011111910.1186/s13550-021-00770-1Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodineV. Mohan0N. M. Bruin1M. E. T. Tesselaar2J. P. de Boer3E. Vegt4J. J. M. A. Hendrikx5A. Al-Mamgani6J. B. van de Kamer7J.-J. Sonke8W. V. Vogel9Department of Radiation Oncology, The Netherlands Cancer InstituteDepartment of Radiation Oncology, The Netherlands Cancer InstituteDepartment of Medical Oncology, The Netherlands Cancer InstituteDepartment of Medical Oncology, The Netherlands Cancer InstituteDepartment of Radiation Oncology, The Netherlands Cancer InstituteDepartment of Radiation Oncology, The Netherlands Cancer InstituteDepartment of Radiation Oncology, The Netherlands Cancer InstituteDepartment of Radiation Oncology, The Netherlands Cancer InstituteDepartment of Radiation Oncology, The Netherlands Cancer InstituteDepartment of Radiation Oncology, The Netherlands Cancer InstituteAbstract Rationale Salivary glands are highly perfused and express the prostate-specific membrane antigen (PSMA) receptor as well as the sodium—iodide symporter. As a consequence, treatment with 177Lu/225Ac-PSMA for prostate cancer or 131I for thyroid cancer leads to a high radiation dose in the salivary glands, and patients can be confronted with persistent xerostomia and reduced quality of life. Salivation can be inhibited using an antimuscarinic pharmaceutical, such as glycopyrronium bromide (GPB), which may also reduce perfusion. The primary objective of this work was to determine if inhibition with GPB could provide a considerable (> 30%) reduction in the accumulation of administered 123I or 68Ga-PSMA-11 in salivary glands. Methods Ten patients who already received a whole-body 68Ga-PSMA-11 PET/CT scan for (re)staging of prostate cancer underwent a repeat PET/CT scan with tracer administration at 90 min after intravenous injection of 0.2 mg GPB. Four patients in follow-up after thyroid cancer, who had been treated with one round of ablative 131I therapy with curative intent and had no signs of recurrence, received 123I planar scintigraphy at 4 h after tracer administration without GPB and a repeated scan at least one week later, with tracer administration at 30 min after intramuscular injection of 0.4 mg GPB. Tracer uptake in the salivary glands was quantified on PET and scintigraphy, respectively, and values with and without GPB were compared. Results No significant difference in PSMA uptake in the salivary glands was seen without or with GPB (Mean SULmean parotid glands control 5.57, intervention 5.72, p = 0.50. Mean SULmean submandibular glands control 6.25, intervention 5.89, p = 0.12). Three out of 4 patients showed increased 123I uptake in the salivary glands after GPB (Mean counts per pixel control 8.60, intervention 11.46). Conclusion Muscarinic inhibition of salivation with GPB did not significantly reduce the uptake of PSMA-ligands or radioiodine in salivary glands, and can be dismissed as a potential strategy to reduce toxicity from radionuclide therapies.https://doi.org/10.1186/s13550-021-00770-1Salivary glandsToxicityPSMAIodineRadionuclide therapy
collection DOAJ
language English
format Article
sources DOAJ
author V. Mohan
N. M. Bruin
M. E. T. Tesselaar
J. P. de Boer
E. Vegt
J. J. M. A. Hendrikx
A. Al-Mamgani
J. B. van de Kamer
J.-J. Sonke
W. V. Vogel
spellingShingle V. Mohan
N. M. Bruin
M. E. T. Tesselaar
J. P. de Boer
E. Vegt
J. J. M. A. Hendrikx
A. Al-Mamgani
J. B. van de Kamer
J.-J. Sonke
W. V. Vogel
Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodine
EJNMMI Research
Salivary glands
Toxicity
PSMA
Iodine
Radionuclide therapy
author_facet V. Mohan
N. M. Bruin
M. E. T. Tesselaar
J. P. de Boer
E. Vegt
J. J. M. A. Hendrikx
A. Al-Mamgani
J. B. van de Kamer
J.-J. Sonke
W. V. Vogel
author_sort V. Mohan
title Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodine
title_short Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodine
title_full Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodine
title_fullStr Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodine
title_full_unstemmed Muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of PSMA-ligands or radioiodine
title_sort muscarinic inhibition of salivary glands with glycopyrronium bromide does not reduce the uptake of psma-ligands or radioiodine
publisher SpringerOpen
series EJNMMI Research
issn 2191-219X
publishDate 2021-03-01
description Abstract Rationale Salivary glands are highly perfused and express the prostate-specific membrane antigen (PSMA) receptor as well as the sodium—iodide symporter. As a consequence, treatment with 177Lu/225Ac-PSMA for prostate cancer or 131I for thyroid cancer leads to a high radiation dose in the salivary glands, and patients can be confronted with persistent xerostomia and reduced quality of life. Salivation can be inhibited using an antimuscarinic pharmaceutical, such as glycopyrronium bromide (GPB), which may also reduce perfusion. The primary objective of this work was to determine if inhibition with GPB could provide a considerable (> 30%) reduction in the accumulation of administered 123I or 68Ga-PSMA-11 in salivary glands. Methods Ten patients who already received a whole-body 68Ga-PSMA-11 PET/CT scan for (re)staging of prostate cancer underwent a repeat PET/CT scan with tracer administration at 90 min after intravenous injection of 0.2 mg GPB. Four patients in follow-up after thyroid cancer, who had been treated with one round of ablative 131I therapy with curative intent and had no signs of recurrence, received 123I planar scintigraphy at 4 h after tracer administration without GPB and a repeated scan at least one week later, with tracer administration at 30 min after intramuscular injection of 0.4 mg GPB. Tracer uptake in the salivary glands was quantified on PET and scintigraphy, respectively, and values with and without GPB were compared. Results No significant difference in PSMA uptake in the salivary glands was seen without or with GPB (Mean SULmean parotid glands control 5.57, intervention 5.72, p = 0.50. Mean SULmean submandibular glands control 6.25, intervention 5.89, p = 0.12). Three out of 4 patients showed increased 123I uptake in the salivary glands after GPB (Mean counts per pixel control 8.60, intervention 11.46). Conclusion Muscarinic inhibition of salivation with GPB did not significantly reduce the uptake of PSMA-ligands or radioiodine in salivary glands, and can be dismissed as a potential strategy to reduce toxicity from radionuclide therapies.
topic Salivary glands
Toxicity
PSMA
Iodine
Radionuclide therapy
url https://doi.org/10.1186/s13550-021-00770-1
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