key: cord-0879841-v35ikvsb authors: Piciu, Andra; Manole, Simona; Piciu, Doina; Dreve, Teodora; Roman, Andrei title: Asymptomatic COVID–19 cancer patients incidentally discovered during F18-FDG PET/CT monitoring date: 2021-01-29 journal: Med Pharm Rep DOI: 10.15386/mpr-1776 sha: a6ba2f2a46328cf4771d0926cab68405e2dfe39f doc_id: 879841 cord_uid: v35ikvsb BACKGROUND: The aim of the study was to present the PET/CT imaging features in a small series of asymptomatic patients with known cancer pathologies, infected with the SARS-CoV-2 virus, which were incidentally discovered during their monitoring scan of F18-FDG PET/CT. METHODS: We included in our study a number of five cases (3 female and 2 male) out of 478 patients examined by F18-FDG PET/CT between March – April 2020, with confirmed diagnostic of cancer. Four patients had lung damages suggestive for the mentioned viral infection and 1 patient had multiple lung metastases from thyroid cancer. All patients were asymptomatic for acute respiratory disease at the time of examination, being subsequently confirmed for the viral infection by specific PCR analysis. RESULTS: The asymptomatic positive SARS-CoV-2 cancer patients discovered incidentally in PET/CT F18-FDG represent 0.83% and their imaging characteristics were suggestive for high FDG activity in the lung despite the lack of respiratory symptoms. CONCLUSION: The SARS CoV-2 viral infection in asymptomatic cancer patients is a very rare possibility, but represents a challenging scenario both for the differential diagnosis in cancer and also for the epidemiologic context. A coronavirus is any virus belonging to the family Coronaviridae. In late 2019 a virus apparently closely related to already known SARS (Severe Acute Respiratory Syndrome) coronavirus that causes a highly contagious respiratory disease, emerged in Wuhan, China and was named severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) [1] . By early 2020, it had spread throughout regions of China and had reached the Europe and United States, when WHO declared the outbreak a pandemic [2] . People with COVID-19 disease have reported a wide range of manifestations, from mild symptoms to severe illness, which could appear within 2-14 days after exposure to the virus. The main symptoms are: cough, shortness of breath or difficulty breathing, fever, chills, muscle pain, sore throat, loss of taste or smell [3] . Less common manifestations have been reported, including gastrointestinal symptoms like nausea, vomiting, or diarrhea [3] . Like other respiratory illnesses, COVID-19, can cause lasting lung damage. In COVID-19 pneumonias, the lungs become filled with fluid and inflamed, leading to breathing difficulties. The pneumonia tends to take hold in both lungs. While most people recover from pneumonia without any lasting lung damage, the pneumonia associated with COVID-19 may be severe. Even after the infection has passed, lung injury may result in breathing difficulties that might take months to improve [3, 4] . An important number of subjects remain asymptomatic, despite the presence of the virus in organism. A particular situation is the occurrence of SARS-CoV-2 viral infection in cancer patients. Some cancer patients have a fragile immune system due to oncologic therapy or to the cancer itself. Patients with hematologic cancers, after bone marrow transplants, or those actively receiving chemotherapy or radiotherapy are at higher risk of immune deficiency. The UK Coronavirus Cancer Monitoring Project published in Lancet Oncology [5] that patients with specific types of cancer might be at an increased risk of COVID-19, with reports highlighting the high proportion of patients with lung cancer who are at a higher risk of developing severe complications following their infection by SARS-CoV-2 [6] [7] [8] . The role of F18-fluorodeoxyglucose positron emission tomography/computed tomography (F18-FDG PET/CT) is not yet well established in COVID-19 disease [9] [10] [11] [12] [13] [14] [15] [16] , but its fundamental role in the initial diagnosis, staging, prognosis, response evaluation and follow-up in cancer disease is well known and well established. Recent studies have found a potential role of F18-FDG PET/CT in the evaluation of positive patients during recovery [17] . The aim of this study is to analyze the incidental findings of COVID-19 in asymptomatic cancer patients evaluated by F18-FDG PET/CT; due to the fact that this pandemic situation of COVID-19 is a new scenario in our daily practice, the authors would also like to raise the attention about the issue of asymptomatic cancer patients referred for PET/CT investigations, as a potential source of infection for the medical staff. We analyzed retrospectively the F18-FDG PET/ CT scans performed in a tertiary center between March-April 2020. A number of 478 patients were evaluated for different types of cancer during their oncologic protocol. Inclusion criteria: confirmed cancer, indication for PET/CT in initial staging, follow-up, monitoring of the treatment response. Exclusion criteria: none of these patients were symptomatic for an acute respiratory disease and all of them passed through an epidemiologic screening including: clinical data, information about a possible contact with an infected person, travel in known COVID-19 areas. All patients presenting fever, cough, shortness of breath or respiratory distress, thoracic pain or hemoptysis, symptoms that might be attributed to lung cancer, lung metastases or to viral lung infections, were not sent for investigation in the PET/CT center, the examination being postponed, until the status for SARS-CoV-2 infection was established. All patients with any acute respiratory symptoms were excluded from the study. All patients signed the informed consent for the evaluation and for using their medical data for scientific purposes. All patients were investigated by the same protocol. The F18-FDG PET/CT was performed on a GE Optima 560 equipment, with the following protocol: patient fasted for at least 6 h, serum glucose level ≤180 mg/dL, an activity of 2.3 MBq/kg body weight of F18-FDG was injected intravenously; the images were acquired at 50-60 min after tracer administration. The scan parameters of a low-dose CT were as follows: 110-130 kV, 80-100 mA; in the PET sequence we used 2.5 min/bed acquisition time; 4-8 beds were acquired, with the standardized uptake value (SUV) expressed in lean body mass (SUVlbm) as maximum uptake value (SUVlbm max). The results were interpreted by a nuclear medicine physician and an experimented radiologist; among the 478 asymptomatic patients we found 4 patients with pathologic lung imaging with highly suspicion for SARS-CoV-2 pneumonia and 1 patient with multiple lung metastases from thyroid cancer, who were tested positive for specific virus infection, by The cancer patients scanned between March and April 2020 have the distribution according to their oncologic pathology, presented in figure 1. Among the patients there were 4 (four) subjects (0.83%) discovered with lung damage highly suspicious for COVID-19 diseases and 1 patient with lung metastases from thyroid cancer, who was tested positive one day after the PET/CT, before starting the systemic oncologic therapy (case 3). No other suspicion lesions for viral pneumonia were seen in the rest of patients. The main characteristics of these patients are presented in table I. According to the data presented in table I, the majority of patients were female, 4, and only 1 male, the mean±SD age was 61.4±11.95 years and among the primary cancer pathologies, 2 were with head and neck cancers (nasopharyngeal and maxillary sinus cancers). We would like to underline the observation that 2 out 5 patients had associated diabetes mellitus, 3 out of 5 had high blood pressure and one had associated hypothyroidism due to total thyroidectomy and radioiodine therapy. The five cases are presented with their results of F18-FDG PET/CT scans in figure 2, figure 3, figure 4 , figure 5 and figure 6. In the present case is important to underline that lesions are mainly located in the right middle lobe, not bilateral, as the majority of authors have reported at that time; the standardized uptake value (SUVlbm) was 3.24, not significantly increased. Recently published recommendations [18, 19] and also the specific guidelines have suggested that this possibility of occurrence is not very rare [20, 21] (Figure 2) . The SUVlbm max in the lung lesions was 6.8, significantly increased. The lesions were disseminated mainly subpleurally in both lungs, and were associated with metastatic nodules, that were already known in this patient from previous examinations (Figure 3) . The uptake in the lung lesions was significantly increased SUVlbm max being 3.8 ( Figure 5 ). In this case, the lung fibrosis caused by radiotherapy was difficult to be differentiated from the aspect of "ground glass" due to viral infection; the F18-FDG uptake SUVlbm max was 3.7 ( Figure 6 ). All patients were referred to dedicated COVID-19 medical units and started the combined treatment with azithromycin and chloroquine, the oncological treatments being postponed. All patients are alive and under medical observation. The COVID-19 is a highly contagious respiratory disease [1] [2] [3] [4] and due to the fact that the serial screening by PCR-RT tests was almost impossible in large groups, since March 2020 until end April, an important number of subjects without a known epidemiologic course of exposure, were positive and asymptomatic, being a source of infection. As other authors described [9, 10, [18] [19] [20] [21] , the cases are characterized by the presence of peripheral "ground glass" lesions and/or consolidative opacities in more than two pulmonary lobes and all of these lesions showed a high tracer uptake, rarely being possible that the changes occur only in one lobe, as we described in figure 2 . Also, the association with lung fibrosis and lung nodules suggestive for metastasis make the diagnosis even more difficult. The F18-FDG uptake was not in all cases very increased. The mean ± SD SUVlbm max was 4.18±1.32 (min 3.24 and max 6.8). We note that there was no dissemination in other organs that might be attributed to COVID-19, fact similar mentioned by other authors [10, 12, 15] . The cases with head and neck cancers were 2 out 5 positive patients; the risk factors in head and neck cancer patients, like smoking, male gender and age over 40 yearsold are also risk factors involved in COVID-19 disease [3, 22] . Also, very important from the clinical point of view is the fact that despite the severe lung damage, there were no symptoms, no specific recent changes in the clinical status of these patients and they did not express any other complaints that might be suggestive for the occurrence of another severe disease. Even if F18-FDG PET/CT scan has no routine indication in an emergency setting and is generally not recommended for acute infection [9, 21] , our results shows that in cancer patients, where PET/CT is made on a regular basis, we need to pay special attention to the imaging work flow of these asymptomatic patients, taking into account that any image of suspicious lung damage needs to be urgently remitted to the referring physician with the recommendation of specific SARS-CoV-2 tests. The reports published on this topic in the recent months are still on small series [13] , so any additional experience would improve our approach on this patients. Also, a special remark needs to be made for the possible contamination of healthcare staff. Because at the beginning of March 2020, the highly contagious potential of this category of patients was not reported and well documented, the PET/CT unit and the medical staff had no specific procedures regarding the epidemic viral context; the guidelines regarding the nuclear medicine procedures in case of suspected or positive SARS-Cov-2 patients have been published in May [21] and July [20] . Consequently, with the usual protection in a non-COVID-19 medical departments, the possibility of infection is high. Healthcare workers must use personal protective equipment (PPE) to shield themselves not only from radioactive sources, but also from droplets from coughs, sneezes or other body fluids from infected patients, and contaminated surfaces that might infect them. This new PPE were not common for nuclear medicine staff in PET/CT units. In this new pandemic situation, from our experience, for the nuclear medicine community we would like to raise a special attention, suggesting that in every unit of PET/CT any oncologic patient would be better to be tested before the examination and if is not, the staff should consider him as a possible positive person, taking all the necessary protective measures into consideration. The SARS-CoV-2 viral infection in asymptomatic cancer patients is a rare possibility, but it represents a challenging scenario both for the diagnosis and also regarding the epidemiologic context. Our mission is to provide useful information to guide the management of patients with oncologic diseases, while keeping the patients and healthcare staff safe during the COVID-19 Pandemic. This article does not contain any studies with human participants or animals performed by any of the authors. Informed consent was obtained from all individual participants included in the study. 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