key: cord-0786484-o3b3n5dg authors: Das, Jeeban P.; Yeh, Randy; Schöder, Heiko title: Clinical utility of perfusion (Q)-single-photon emission computed tomography (SPECT)/CT for diagnosing pulmonary embolus (PE) in COVID-19 patients with a moderate to high pre-test probability of PE date: 2020-09-22 journal: Eur J Nucl Med Mol Imaging DOI: 10.1007/s00259-020-05043-y sha: 4d04251a1822f7c0e531cc0fcfc70d6f7e111430 doc_id: 786484 cord_uid: o3b3n5dg PURPOSE: We reviewed the clinical utility of perfusion (Q)-single-photon emission computed tomography (SPECT)/CT for diagnosing pulmonary embolus (PE) in patients hospitalized with severe acute respiratory syndrome coronavirus 2 (SARS-CoV2). METHODS: Following the World Health Organization’s declaration of a global pandemic, our department policy recommended Q-only SPECT/CT for all patients undergoing nuclear medicine evaluation for suspected PE to reduce the risk of aerosolization of respiratory droplets. We performed a retrospective review of sequential patients admitted with COVID-19 imaged with Q-SPECT/CT between March 17, 2020, and June 30, 2020, at Memorial Sloan Kettering Cancer Center. We recorded patient demographics, clinical symptoms, Wells score (to stratify patients according to pre-test probability for PE prior to Q-SPECT/CT), and noted ancillary imaging findings on CT. RESULTS: Of the 33 patients imaged with Q-SPECT/CT, 6 patients (3 men, 3 women) had a laboratory confirmed diagnosis of COVID-19 (mean age, 55, ± 11.4 years, range 33–68). All patients had a current diagnosis of malignancy and had a moderate or high pre-test probability for PE (mean Wells score 2.8, range 2–4). Q-SPECT/CT was positive in 4/6 (67%) of patients. Distribution of pulmonary emboli was bilateral and segmental in 75% of patients. Ancillary acute findings on SPECT/CT included bilateral parenchymal ground glass opacities (n = 5), pleural effusions (n = 2), and pneumomediastinum (n = 1). CONCLUSION: Q-SPECT/CT has clinical utility for diagnosing PE in patients with COVID-19 where there is a contraindication for iodinated contrast media and a moderate or high pre-test probability for PE. The novel coronavirus disease 2019 , caused by the severe acute respiratory syndrome coronavirus 2 (SARS-COV2) originating in Wuhan, China, in December 2019, has now spread globally and was declared a pandemic by the World Health Organization in March 2020 [1] . Hospitalized patients most commonly present with mild respiratory symptoms but can undergo rapid clinical deterioration as a result of severe pneumonia requiring intubation and ventilation [2] . Venous thromboembolic (VTE) disease diagnosed in patients with COVID-19 has been identified as a potential cause of accelerated clinical decline, potentiated by endothelial damage and excessive inflammation resulting in a prothrombotic state and disseminated intravascular coagulation [3] . Indeed, the incidence of pulmonary embolus (PE) has been reported in up to 37% on CT pulmonary angiography (CTPA) in hospitalized COVID-19 patients suspected to have a pulmonary embolus [4] . CTPA remains the most widely used imaging study for diagnosing PE; however, contraindications to iodinated intravenous (IV) contrast including acute kidney injury (AKI) and significant allergy to iodine-based contrast agents may preclude select patients suspected to have PE from undergoing CTPA [5] . AKI can develop in up to 37% of patients admitted to hospital with COVID-19 leaving physicians with the difficult decision of deciding whether the benefit of the imaging study to rule out PE outweighs the risk of administering IV contrast [6] . Ventilation (V)-Perfusion (Q) SPECT/CT has been validated as both safe and acceptable for evaluating PE and can accurately establish the diagnosis even in the presence of chronic cardiopulmonary disease or pneumonia as well as having no contraindications [7, 8] . Nevertheless, the risk of nosocomial infection and healthcare worker exposure as a result of the potential aerosolization of SARS-CoV2 virus particles during the imaging acquisition of the ventilation component of V/Q scanning poses cause for concern. In addition, poor respiratory effort in COVID-19 patients may cause inhaled particles to localize to the trachea and central bronchi and not demonstrate alveolar ventilation. Satisfactory disinfection of the ventilation system following ventilation scanning during the COVID-19 pandemic may also be prohibitively time consuming in a high-volume nuclear medicine department [9] [10] [11] . Since the rapid emergence of the COVID-19 pandemic, diagnostic algorithms for the evaluation of PE which minimize the performance of ventilation studies have been proposed, limiting the potential for aerosolization and exposure of COVID-19 to patients and staff members [10] [11] [12] [13] . However, prior societal guidelines have suggested the use of both perfusion and ventilation scans in patients suspected to have PE to reduce the potential risk of false positive results [8, 14] . The addition of a low-dose CT to SPECT perfusion imaging has been shown to mitigate this potential risk and improve the specificity of the perfusion exam [7] . The objective of our study was to demonstrate the clinical utility of perfusion only (Q) SPECT/CT imaging in the diagnosis of PE in COVID-19 patients with a moderate to high pre-test probability for PE. This retrospective study received approval from the Memorial Sloan Kettering Cancer Center Institutional Review Board (IRB#20-194). The requirement for individual patient consent was waived. All patients referred for Q-only SPECT/CT to assess for PE between March 2020 and June 2020 were reviewed. Patients with a laboratory-confirmed diagnosis of COVID-19 who underwent Q-SPECT/CT were included in our final analysis. All patients had a positive real-time polymerase chain reaction COVID-19 nasopharyngeal swab test. Patient demographics, smoking history, and Wells score were recorded. Imaging data were recorded with the Precedence 6 (Philips Healthcare, Best, The Netherlands) or Symbia T2 (Siemens Medical Solution Inc., IL, USA) SPECT/CT scanning systems. Low-dose CT scans were recorded at 120 kVp, 15 to 30 mAs. No IV contrast was administered. Following CT acquisition, SPECT images of the chest were recorded for 20 s/step in a standard 128 × 128 matrix. Q-SPECT imaging data were reconstructed, fused with the corresponding CT image slices, and were displayed in axial, coronal, and sagittal planes. Images were analyzed using 3D viewing software suite (Hermes Hybrid Viewer, Hermes Medical Solutions). The planar and SPECT/CT scan datasets were interpreted clinically on separate occasions at time of imaging acquisition and rereviewed for the purpose of this manuscript using previously published criteria. PE was suspected on Q-SPECT/CT scans when ≥ 1 wedge-shaped peripheral defect estimated as greater than or equal to 50% of a pulmonary segment identified in all three orthogonal planes without a corresponding abnormality on CT [7] . Patient selection is shown in Fig. 1 . In brief, during the study period, 33 patients underwent Q-SPECT/CT imaging. Of these patients, six had a laboratory-confirmed diagnosis of COVID-19. All patients had a current diagnosis of malignancy. Two patients had a smoking history. No patient had a history of reactive airway disease or asthma. Patient demographics and clinical features are outlined in Table 1 . Five of six patients had acute kidney injury (AKI) or acute on chronic kidney injury with a serum creatinine ≥ 133 μmol/L. One patient had a history of severe allergic reaction to iodinated contrast media. Two patients underwent lower limb Doppler ultrasonography prior to Q-SPECT/CT demonstrating no evidence for deep vein thrombosis. Q-SPECT/ CT was positive in 4/6 (67%) of patients. One patient had a diagnosis of a segmental left upper lobe pulmonary embolus on CT pulmonary angiography study performed 2 weeks prior to Q-SPECT/CT imaging (subsequently performed for worsening dyspnea in the context of AKI) re-demonstrating the segmental PE (Fig. 2) . The distribution of pulmonary emboli was bilateral and segmental in 3/4 (75%) of COVID-19 patients with a positive Q-SPECT/CT study (Fig. 3) . In the non-COVID patient cohort who underwent Q-SPECT/CT, 4/27 (15%) had a positive diagnosis of PE. No Q-SPECT/CT imaging study was considered non-diagnostic in either the non-COVID or COVID-positive patient groups. Classic features of COVID-19 pneumonia were seen in five patients, including bilateral GGOs and consolidative opacities. Additional acute findings on chest CT were seen in three patients i ncluding pleural effusions (n = 2) and pneumomediastinum (n = 1). Non-acute CT findings included thoracic adenopathy (n = 2), pulmonary metastasis (n = 1), and pulmonary fibrosis (n = 1). The low-dose CT scan was entirely normal in only 1/6 patients (18%). The median time from hospital admission to Q-SPECT/CT imaging was 11.4 days (range 3-19 days). Of the six patients hospitalized with COVID-19, two were admitted to the Intensive Care Unit for mechanical ventilation following the diagnosis of pulmonary embolus and eventually expired. The mean duration of hospitalization was 40.5 days (range 6-61 days). The role of Q-SPECT/CT in COVID patients has been raised in several clinical editorials to date [11, [15] [16] [17] . We describe the clinical utility of Q-only SPECT/CT in diagnosing PE in COVID-19-positive patients with a contraindication to iodinated contrast media and a moderate-to-high risk of PE. In our cohort, 67% had a positive diagnosis of PE on Q-SPECT/CT. Classical features of COVID-19 pneumonia were seen in 5 patients and rare manifestations seen in 3 patients (pleural effusions n = 2, pneumomediastinum n = 1). CT imaging of the thorax in patients with COVID-19 plays a crucial role in patient evaluation in the both the diagnosis of COVID-19 pneumonia and in evaluating thromboembolic events [2, 18] . However, the clinical usefulness of Q-SPECT/CT in hospitalized COVID-19 patients with moderate to high risk of PE has yet to be evaluated. We used the Wells score, a clinically validated scoring system to evaluate for the presence of a venous thromboembolic event (VTE). A Wells score of ≤ 1 can reliably rule out the possibility of VTE in select patients with a score of 2 denoting a moderate risk and ≥ 3 a high risk [19] . We have demonstrated that the combination of Q-SPECT with low-dose CT is a useful modality to diagnose VTE in COVID-19 patients clinically suspected to have PE. In routine V/Q SPECT imaging studies, the ventilation component may improve the specificity of the perfusion study and there is already data showing that the addition of low-dose CT to the SPECT images, the corroborated reporting of the scans with the structural information leads to a higher sensitivity, comparable with that of CTPA [20, 21] . Cobes et al. retrospectively analyzed V/Q SPECT/CTs in 5 patients hospitalized with COVID-19 and determined that V/Q SPECT/ CT could play a role diagnosing embolic complications while following meticulous hygiene [22] . However, combining a low-dose chest CT with Q-only SPECT can also satisfactorily Fig. 1 Flowchart showing the patients included in our final analysis demonstrate etiologies of potential non-embolic false positive results, such as pulmonary emphysema or bullous disease [23] . Ventilation studies can contaminate staff members and equipment and in a high-volume nuclear medicine institution, the necessary decontamination steps may not be offset by the benefit of ventilation imaging in some patients during the COVID-19 pandemic. In addition, performing ventilation scans in clinically compromised COVID-19 patients may be both technically challenging and time consuming and may greatly increase the risk of viral transmission [24] . Diagnosing PE on Q-SPECT/CT has been validated in several previous studies. Lu et al. demonstrated that Q-SPECT/CT had a higher accuracy than planar V/Q imaging to diagnose PE in patients with a high pre-test probability for PE [7] . Mazurek et al. performed a retrospective review of 84 patients to evaluate the utility of Q-SPECT/CT in the diagnosis of PE. The authors reported a similar sensitivity and specificity to Lu et al. (100 and 83%, respectively) concluding that Q-SPECT/CT imaging had a high diagnostic efficacy in evaluating patients suspected to have PE. In addition, the inclusion of a chest CT (even at low dose) adds value by characterizing acute pulmonary pathology which could account for the patient's clinical presentation [23] . In addition, based on the current European Association of Nuclear Medicine guidelines, Q-only SPECT is already recommended as standard of care, for example in pregnant patients with suspected PE [8] . Several prior studies have described the frequently seen COVID-19 imaging findings on CT chest. The most common imaging features include multifocal bilateral peripheral GGOs and subsegmental and subpleural patchy consolidations predominating in the lower lung lobes [2] . The image quality of low-dose CT studies can be considered comparable with that of higher dose CT for the detection of gross mediastinal and parenchymal lung changes [25, 26] . Of the five patients with acute findings on the low-dose CT chest, all demonstrated these classical features of COVID-19 pneumonia. Three patients showed rare findings associated with COVID-19. Pleural effusions, considered a rare feature of COVID-19, were seen in 33% of our patient cohort but are typically seen in only 1-3% of reported hospitalized COVID-19 cases [2, 12] . This may be explained by our unique patient population, all with a diagnosis of active malignancy at time of imaging. Of the two patients with pleural effusions, both had thoracic nodal or pulmonary metastases. Pneumomediastinum (seen in one patient) has thus far only been described in case reports of patients with COVID-19 but may indicate a further potential clinical decline and is an important ancillary finding on companion chest CT of Q-only SPECT/CT [27, 28] . We note several limitations of our study. In the first instance, we are limited by our small sample size and the retrospective nature of our analysis. Secondly, selection bias may have impacted the decision to pursue Q-SPECT/CT as an imaging modality for certain patients with COVID-19 who experienced a clinical decline during hospitalization. Thirdly, our entire patient population was derived from a single cancer-specialist center and all had an active malignancy at time of imaging limiting generalizability to other hospital populations. In conclusion, Q-SPECT/CT is a reasonable first choice imaging modality for diagnosing PE in COVID-19 patients with a medium to high probability of PE. 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