key: cord-0973129-x9q9il66 authors: Borghetti, Paolo; Toraci, Cristian; Imbrescia, Jessica; Volpi, Giulia; Lucchini, Silvia; Guerini, Andrea Emanuele; Magli, Alessandro; Spiazzi, Luigi; Reginelli, Alfonso; Cappabianca, Salvatore; Magrini, Stefano Maria; Nardone, Valerio title: The potential role of SPECT/CT in the clinical management of COVID-19 lung cancer patients undergoing radiotherapy date: 2021-07-28 journal: Ann Nucl Med DOI: 10.1007/s12149-021-01662-z sha: 10dec8eec825344effef4064f5abe2fece217eb9 doc_id: 973129 cord_uid: x9q9il66 nan Dear Sir, we read with great interest the paper of Ozturk et al. [1] , investigating the clinical benefit of Q-SPECT/CT in diagnosing perfusion defects and the tendency to thrombosis in COVID-19 patients. At this regard, we would like to suggest the potential role of this examination in the clinical management of lung cancer patients with a previous pneumonitis of COVID-19. Early reports of late effects of pandemic on pulmonary functions are worrisome [2] , and especially lung fibrosis could be a serious concern for lung cancer patients who need to undergo radiotherapy, thus the assessment of the lung functionality before RT is pivotal. In this regard, SPECT/CT is able to provide a quantitative assessment of the function in vascular/alveolar units [3] , which can be used in RT planning to reduce the risk of radiation-induced toxicity [4] . We performed a SPECT/CT examination in a locally advanced lung cancer patient with a previous COVID-19 pneumonitis, to understand the correlation between CT and SPECT/CT imaging and to optimize RT plan, taking in consideration the lung functionality. SPECT/CT examination showed hypoperfusion at known lung neoplastic lesion and a globally nonhomogeneous perfusion in the remaining segments. No pronounced areas of hypofixation were described. Volumes of initial pneumonia were 411 cm 3 and 413 cm 3 on the right and left lung, respectively. Volumes of residual interstitial pneumonia at the restaging CT before cCRT were 13.3 cm 3 and 10.4 cm 3 on the right and left lung, respectively (see Fig. 1 ). Despite the clear reduction at standard CT, the co-registration of these areas with SPECT/CT demonstrated that the areas of previous COVID pneumonia showed a remarkable residual hypoperfusion. Presumably, the changes of lung parenchyma such as the fibrosis are unlikely to regress in patients with severe COVID-19 who survive, although long-term functional impairment is still unknown [2] . With these premises, in the next years, an increasing number of the patients diagnosed with lung cancer could wear the lung scars of a previous pandemic infection. When these patients will be referred for radiotherapy, the poor lung functionality could jeopardize the achievement of a curative approach. Mean lung dose (MLD) and volume of lung receiving 20 Gy (V20) represent the most commonly used lung dose constraints in clinical practice. It is important to underline that there is no absolute cut-off of these dose constraints below which there is no risk for radiation pneumonitis, despite that it is generally recommended to limit MLD to < 20/23 Gy and V20 < 30-35% [5] . SPECT/CT is able to provide information on the distribution of pulmonary blood flow, where perfused areas equate with normal functioning lung [3] . These spatial information can be used to calculate functional dose constraints (fDC), with different techniques. It is noteworthy to underline that despite the literature evidence, SPECT/CT examinations are not performed routinely in the clinical management of lung cancer patients undergoing RT. Conversely, in the case reported, we have shown the potential of the quantitative assessment of the lung function with SPECT/CT in the RT planning of a COVID patient. Concluding, SPECT/CT has already proved to be useful to predict RT-induced lung toxicity, so that in the next future this examination could be essential in patients with a previous COVID infection and a poor lung functionality. Investigation of perfusion defects by Q-SPECT/CT in patients with mild-to-moderate course of COVID-19 and low clinical probability for pulmonary embolism Pulmonary fibrosis secondary to COVID-19: a call to arms? Dose-effect relations for local functional and structural changes of the lung after irradiation for malignant lymphoma Inclusion of functional information from perfusion SPECT improves predictive value of dose-volume parameters in lung toxicity outcome after radiotherapy for nonsmall cell lung cancer: a prospective study All the authors report no conflict of interest concerning the materials or method used in this study or the findings specified in this paper.