key: cord-0784204-64wk5b3c
authors: Sanli, Deniz Esin Tekcan; Yildirim, Duzgun; Sanli, Ahmet Necati; Turkmen, Suha; Erozan, Neval; Husmen, Guray; Altundag, Aytug; Tuzuner, Filiz
title: A practical approach to imaging characteristics and standardized reporting of COVID-19: a radiologic review
date: 2021-01-24
journal: Mil Med Res
DOI: 10.1186/s40779-021-00301-y
sha: 8a9d9294501ef1d5e0bf1c4fa23969175f9410aa
doc_id: 784204
cord_uid: 64wk5b3c

Novel coronavirus (2019-nCoV), also known as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), is a pathogen that has caused a rapidly spreading pandemic all over the world. The primary mean of transmission is inhalation with a predilection for respiratory system involvement, especially in the distal airways. The disease that arises from this novel coronavirus is named coronavirus disease 2019 (COVID-19). COVID-19 may have a rapid and devastating course in some cases leading to severe complications and death. Radiological imaging methods have an invaluable role in diagnosis, follow-up, and treatment. In this review, radiological imaging findings of COVID-19 have been systematically reviewed based on the published literature so far. Radiologic reporting templates are also emphasized from a different point of view, considering specific distinctive patterns of involvement. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s40779-021-00301-y.

studies conducted on cases with clinically significant findings ( Fig. 1) [3, [8] [9] [10] . The routine use of CT scanning for follow-up purposes in daily practice is hampered by the relatively high radiation dose. Therefore, COVID-19 is used serially in the radiological follow-up of patients with initial positive CT findings, especially to assess for developing consolidations in patients with poor prognostic factors [11] .

Although the effectiveness of ultrasound is controversial, it can be used in selected cases for its ability to detect effusion and wide consolidations. Additionally, ultrasound allows effusion drainage in the same session in immobile progressive patients, especially in intensive care units [12] .

Although CT is more likely to be positive after the onset of symptoms (especially after 3 days of symptoms onset), CT findings can even be seen during the asymptomatic period [13] . CT positivity 3 days before real timepolymerase chain reaction (RT-PCR) positivity has been reported in some studies [14, 15] .

In a recent study, the positive CT finding rate was reported as high as 97% in COVID-19 cases confirmed by RT-PCR [11] . When these findings are encountered on CT, they support the diagnosis or raise the differential diagnosis in suspicious cases. Bilateral multilobar, lowerlobe dominated posterobasal and peripheral distribution, either patchy or round ground-glass opacities are the most common and pathognomonic findings of the disease [16] [17] [18] [19] . Other findings include ground-glass opacities with surrounding consolidation termed as peripheral halo sign, interlobular septal thickening, crazy-paving pattern, ground-glass opacities accompanied by interlobular septal thickening with visualized background lung parenchyma, consolidation which distributed similarly as ground-glass opacity, and subpleural lines (Fig. 2 ) [4, 18] . Failure to protect the subpleural areas and pleural thickening at the point of contact is expected radiological features of the disease. In a meta-analysis that included 13 studies on CT findings of COVID-19, the most common of distributions were bilateral lung involvement (78.2%) and peripheral distribution (76.95%). The right lower lobe (87.21%), left lower lobe (81.41%), and bilateral lower lobes (65.22%) were the most affected lobes [20] . There is no significant difference between the two graphics. The chest radiography is mostly normal, especially during the early disease period. c-d. CT of the same patient on the same date as the second X-ray (March 23, 2020) shows ground-glass opacities (black arrows) in the right middle and bilateral lower lungs and findings were suspicious for COVID-19. The sensitivity of chest radiograph is always lower in demonstrating ground-glass opacities of these sizes and low density Generally, lesions in ground-glass opacity show bilateral-multilobar involvement in a peripheral-basal and subpleural distribution. The spread of lesions to the upper lobes may occur in a short time. Other forms of involvement are ground-glass opacities surrounded by fibrotic halo (reverse halo), vascular enlargement within the lesion, bronchiectasis or deformation or vascular dilatation (vascular enlargement sign) in the affected area, air bubble that usually develops within the lesion during the healing period (vacuolar sign) are typical imaging features for COVID-19 pneumonia (Fig. 2 , Additional file 1) [21] .

Non-COVID-19 related pneumonia is mostly in the form of consolidation that affects a single lobe accompanied by mediastinal lymphadenopathy and air bronchograms. The tree-in-bud view is generally detected in the early period or as an accompanying finding of ground-glass opacities (Fig. 3 ) [22] .

Stages of the disease and associated CT findings Ultra early stage (incubation period, 1-2 weeks after contact)

Asymptomatic period. No imaging changes may be observed since the disease has not developed yet. Single/ multiple focal ground-glass opacities, patchy consolidative densities, pulmonary nodules with groundglass halos, air bronchograms.

Early stage (1-3 days after the onset of symptoms)

Symptomatic period. Single/multiple ground-glass opacities, ground-glass opacity ± interlobular septal thickening.

Three to seven days after the onset of symptoms. Widemild consolidations and air bronchograms.

2nd week of symptoms onset. Regression can be seen in the size and density of the consolidations.

Two to three weeks later. Patchy consolidations, reticular opacities, bronchial wall thickening and interlobular septal thickening [23] .

CT findings vary based on age [24] [25] [26] . The most common finding younger than 50 years of age is groundglass opacity seen in 77% of cases. Consolidations are detected at a lower rate (23%). The most common finding in elderly cases is ground-glass opacities, too, with 55% of cases. The incidence of the disease in the form of consolidation has been reported in 45% of cases older than 50 years of age [17, 27] . In addition, atypical imaging findings for COVID-19 are more common in elderly patients (Additional file 1). This also underlines why the disease beginning with consolidation or atypical findings has a poor prognostic factor [17] . In 20% of pediatric cases, there is no imaging finding to suggest pneumonia [28] . In general, an infiltration pattern detected as ground-glass opacity is seen, similar to that of adults. On the contrary, it may start with direct consolidation and peripheral halo and progress rapidly in the form of atypical CT findings [29] .

Early stage (after the onset of symptoms (days 0-4)

The most common and initial finding is generally focal or patchy ground-glass opacities showing lower lobe peripheral-basal dominance. Although it is usually multiple, it may also appear as a single focus in the early period of the disease. Consolidations may accompany or appear later (42%). Consolidations can be seen alone or accompanied by peripheral ground-glass density (halo sign). Consolidations also show posterobasal, peripheral and lower lobe dominance similar to ground-glass opacities. 17% of the cases had no early CT findings.

This is the stage where consolidations with bilateralmultilobar involvement, developing from a new focus, formed by conversion of the ground-glass opacity or increased in size are observed. Additionally, this is the phase where interlobular septal thickening is observed in ground-glass opacities, and the paving stone appearance (crazy-paving pattern) can be detected.

Parenchyma findings begin to regress, disappear completely or remain in the form of fibrotic bands. Although most of these fibrotic bands disappear completely, they have been reported to persist for a long time at a low rate (Fig. 4) [30] .

While evaluating chest CT images, coronal and sagittal sections should be examined as well as axial sections. Multiplanar evaluation minimizes overlooking or overdiagnosing lesions that would otherwise be misinterpreted on a single section. Basal-peripheral-central distribution of the lesions and lower-upper lobe involvement can be evaluated better by multiplanar imaging (Figs. 5 and 6 ) [19, [31] [32] [33] .

Advanced age and comorbid disease are the most important prognostic factors for COVID-19 pneumonia [34, 35] . In addition, some poor prognostic factors have been identified based on CT imaging features [35] . The appearance of atypical findings, such as widespread consolidated areas, rapid infiltration into the upper lobes, pleural effusion, and mediastinal lymphadenopathy, are poor prognostic indicators. Rare findings, such as diffuse lesions, structural distortion, traction bronchiectasis, intrathoracic enlarged lymph nodes, and pleural effusion, are more common in the critical group [28, [35] [36] [37] . Multiple lobe involvement and subsegmental consolidations were detected to be the most common findings in patients who need subsequent intensive care units [30] . CT is important for disease progression as well as diagnosis. More serious findings detected by CT may be decisive in the follow-up and treatment algorithm (follow-up, isolation, drug administration, hospitalization) [16, 27, 38, 39] . 

Although RT-PCR sensitivity is reported as 70% on average, it varies according to the sampling method, the time of sampling, the provider collecting the specimen and the sensitivity of the kits [11, 40] . RT-PCR positivity is generally correlated with CT findings, with some exceptions. It was observed that RT-PCR became positive afterwards in patients with initial negative RT-PCR and positive CT findings [11, 41] . However, in a study of 167 patients, the CTs of seven patients who were RT-PCR positive were reported as normal, and one of these patients had positive CT findings developing 5 days later. In other words, both CT and RT-PCR, especially RT-PCR, can be negative in the early stages of the disease [42] . RT-PCR can be negative for up to 2-3 weeks from the onset of symptoms [11] . On the contrary, the CT findings become positive between 6 and 11 days (median 10th day) [11] . Patients without symptoms but with abnormal CT findings may develop symptoms 2-6 days later [4, 11] . If CT findings are present, there are management algorithms that accept cases as COVID-19 positive even if RT-PCR is negative. The most commonly accepted approach for the use of CT and RT-PCR during initial diagnosis is as follows: In the absence of typical-significant or suspicious findings for pneumonia, CT findings do not indicate COVID-19 positivity. It should be remembered that even if parenchymal involvement occurs within the first 3 days after symptoms begin, it is too early to reflect on imaging and imaging findings may appear after the 4th day. On the other hand, although it varies according to the local test type and sampling methods, the diagnostic value of CT taken, especially on the 3rd or later days after the onset of symptoms, is higher than RT-PCR (Fig. 7) [11, 41] . If there are clinical and laboratory findings or CT findings in RT-PCR negative case, the test should be repeated after 24 h [4, 11, 23] . In COVID-19 diagnosis, the possibility of misdiagnosis with CT was reported as 3.9%. In addition, COVID-19 may not be distinguished from pneumonia-related to other viral agents, especially SARS, Middle East respiratory syndrome (MERS) and adenovirus, based on CT findings [37] . However, in the presence of typical clinical findings, there is the potential to ensure correct triage in most of the cases when used with the appropriate indication [4, 42] . These cases should be considered positive for COVID-19, even if RT-PCR is negative [43] . Fig. 6 Visualization of the organized pneumonia pattern seen in the disease with X-ray and CT. a. A 52-year-old man. The chest X-ray obtained due to weakness shows peripheral-weighted focal density increases in the bilateral middle and lower zones (arrow). There is an organized pneumonia pattern in the form of crazy-paving accompanied by focal consolidation (arrow), suggesting diffuse alveolar damage and pneumonic infiltration in the coronal b and axial c CT sections of the same patient Fig. 7 Positive CT finding in RT-PCR negative case with a history of contact. In this 34-year-old male patient with negative RT-PCR results and with COVID-19 positive family members. There is only a single millimeter-sized lesion in ground-glass opacity, subpleurally located in the right lobe medial lower lobe, significant in terms of involvement on CT (arrow)

Thorax CT is a sensitive diagnostic approach in the early period in RT-PCR test negative COVID-19 cases. When the RT-PCR test is not available, resources are scarce, or the COVID-19 test is negative, imaging is recommended to support the patient's faster triage (Fig. 8) [43] . CT imaging is not recommended for COVID-19 positive with mild symptoms and without risk factors for disease progression [44] . CT imaging is recommended to assess secondary abnormalities, such as COVID-19 progression, pulmonary embolism, or secondary bacterial pneumonia, when the patient's clinical condition worsens [4, [43] [44] [45] [46] [47] .

Routine use of CT is not recommended for evaluation of response to treatment during follow-up of COVID-19 patients. Clinical and laboratory parameters are more sensitive in patient assessment. Radiological findings may not always correlate with the clinical status of patients. Nonetheless, radiological findings provide important insight into disease progression and development. If additional pathology that may affect the treatment decision is considered, imaging can be performed [4, 11, 43] .

During and after CT screening of patients diagnosed with COVID-19, infection control protocol must be followed. In addition, every patient coming for CT should be considered as infected and personal protective equipment should be used by the technician and the patient. After the screening, the [23, [48] [49] [50] .

Thorax CT scans continue to be used at increasing rates all over the world due to the current pandemic. According to the explanations and recommendations of the Radiological Society of North America Expert Consensus (RSNA) on COVID-19 on April 1, 2020, the term COVID-19 pneumonia should not be used in the report; other viral pneumonia, especially influenza, drug intoxication, connective tissue diseases, hypersensitivity pneumonia, other causes that cause diffuse alveolar damage, idiopathic organized pneumonia may also create the same pattern as COVID-19. CT should be preferred as a supportive modality in the overall context of the clinical examination, laboratory findings, and PCR. In this way, it will be possible to minimize unnecessary anxiety of patients and their relatives while the diagnostic load of radiology is reduced [51] . RSNA Statement on Reporting Chest CT Findings related to COVID-19 and the British Society of Thoracic Imaging (BSTI) provided more discrete reporting samples by classifying the lesions better [51, 52] . We presented a sample report format in the Additional file 2. In the technical part, it is worth noting that the screenings were taken with a low dose and no contrast was administered. In the findings part, parenchymal, bronchial, pleural and the other changes should be described in detail. In the conclusion section, whether the involvement pattern suggests pandemic type viral infiltration should be stated. We use the RSNA recommendations in the results-suggestions sections of the report in our own clinic.

In the literature and on the web, there are many different classification and reporting formats. Each institute can edit and tailor one of these formats based on the institution's needs [51] [52] [53] .

Thoracic radiological imaging has a critical role in the diagnosis and management of COVID-19 pneumonia. The first goal in chest imaging should be "to detect COVID-19 pneumonia" and "differentiate cases without lung involvement". Another preferential goal should be to identify specific patterns that have the potential to predict the disease course. This will be extremely useful, especially for cases with advanced age and comorbidities. Low-dose CT can be used to reveal normal, typical, atypical parenchymal findings and to evaluate patients' follow-up and treatment response, especially in appropriate indications. In particular, clear identification of the findings part and standardization of the resultrecommendation part of the CT reports will provide fast and effective communication between radiologists and clinicians.

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Not applicable.

The online version contains supplementary material available at https://doi. org/10.1186/s40779-021-00301-y.Additional file 1:. CT imaging findings for COVID-19.Additional file 2:. An institutional sample organized template of the report format. Availability of data and materials Not applicable.Ethics approval and consent to participate Not applicable.

Not applicable.