key: cord-0777303-la40ecv6
authors: Cobes, Nina; Guernou, Mohamed; Lussato, David; Queneau, Mathieu; Songy, Bernard; Bonardel, Gérald; Grellier, Jean-François
title: Ventilation/perfusion SPECT/CT findings in different lung lesions associated with COVID-19: a case series
date: 2020-06-18
journal: Eur J Nucl Med Mol Imaging
DOI: 10.1007/s00259-020-04920-w
sha: 555c46ad521d4892547a69fc8ffd56dbb17076be
doc_id: 777303
cord_uid: la40ecv6

PURPOSE: The aim of this series of cases is to show the aspects of ventilation/perfusion single-photon emission computed tomography combined with computed tomography (V/Q SPECT/CT) in patients hospitalized for COVID-19 pneumonia, with the worsening of respiratory symptoms raising the suspicion of a pulmonary embolism. Patients did not benefit from CT angiography for various reasons: a contraindication, unavailability of the CT angiography, or a low clinical probability for pulmonary embolism. METHODS: We retrospectively describe the results of the V/Q SPECT/CT of five patients hospitalized for COVID-19 pneumonia in the nuclear medicine departments of the Centre Cardiologique du Nord and of the Delafontaine hospital in Saint-Denis (Ile-de-France, France) between April 2, 2020, and April 10, 2020. These patients had persistent dyspnea or chest pain suggesting pulmonary embolism. RESULTS: The V/Q SPECT/CT allowed to diagnose a pulmonary embolism in one of these five patients. We also noted several characteristics of the perfusion and ventilation depending on the lung lesions on the CT scan. The areas affected by COVID-19 were most often responsible for ventilatory anomalies with a relatively preserved perfusion. In more advanced cases of pneumonia, with alveolar fillings, the perfusion was also reduced or absent in accordance with large ventilation defects. In addition, the healthy parenchyma appeared to benefit from an uptake in ventilation and perfusion. CONCLUSION: V/Q SPECT/CT can play a role in the management of patients hospitalized for COVID-19 for the diagnosis of embolic complications with meticulous hygienic precautions. The different characteristics of the ventilatory and perfusion anomalies related to COVID-19 pneumonia will be confirmed with the next cases. In addition, in this pandemic context and facing a significant infectious risk, the utility of ventilation will also have to be specified.

Outbreaking in December 2019, the epidemic related to the new coronavirus of severe acute respiratory syndrome (SARS-CoV2), identified in the city of Wuhan, Hubei Province in China, is now spreading around the world [1] .

Although most often responsible for mild symptoms, the infection, also called COVID-19, can cause severe pneumonia [2] . Patients hospitalized for respiratory distress due to COVID-19 can develop multiple complications, including coagulation disorders. This is linked both to the conditions of prolonged bed rest and to the coagulopathy caused by the infection [3] with a major thromboembolic risk (deep vein thrombosis (DVT) and pulmonary embolism (PE)) [4] . Several cases of PE were thus reported and diagnosed through CT angiography [5] .

It is in this context that the ventilation/perfusion singlephoton emission computed tomography combined with computed tomography (V/Q SPECT/CT) can be used to search for a pulmonary embolism complication in patients with COVID-19 pneumonia.

We retrospectively present here five cases of V/Q SPECT/CT performed in patients with COVID-19, referred for worsening of dyspnea or chest pain raising suspicion of PE. They benefited from their V/Q SPECT/CT between April 2 and April 10, 2020, in the n u c l e a r m e d i c i n e d e p a r t m e n t s o f t h e C e n t r e Cardiologique du Nord and of the Delafontaine hospital in Saint-Denis, Ile-de-France, France.

Methods V/Q scans were performed using hybrid SPECT-CT cameras (GE Optima NM/CT 640 and GE Discovery; GE Healthcare) with injection of Technetium 99m Tc macro-aggregated albumin for the perfusion and inhalation of either 81m Kr-Krypton or Technegas® for the ventilation.

Specific protocol and circuit for COVID-19 patients had been implemented:

1. Precautions before performing V/Q SPECT/CT: V/Q SPECT/CT were all performed on a time slot dedicated to COVID-19 positive patients, at the end of the day. No more non-COVID patients were present in the department, and no examination was scheduled at the same time or after. No more than two COVID patients per day.

The patients did not station in the hallways and wore a mask on arrival in the department.

We had established a delimitation with "clean areas" and "contaminated areas" in contact with the patient. Material unnecessary for the exam was removed from the room. The bin for contaminating objects was placed at the entrance of the room. The room and the equipment were decontaminated before and after each patient.

The personnel had to wear high-protection clothing combining an FFP2 mask, a disposable overcoat, overshoes, a cap, protective glasses, and two pairs of non-sterile gloves. Protective clothing was changed after each patient. One manipulator was in charge of the console, and another one was in contact with the patient.

A syringe of Technetium 99m Tc macro-aggregated albumin ( 99m Tc-MAA) was prepared just before the patient arrived and then injected in the supine position to avoid sedimentation of macroaggregates into the lung bases. The doses injected depend on the ventilation tracers used: 185 MBq f or Kr ypt on and 240 MBq f or Technegas®.

a. Krypton 81 m

We used a new ventilation kit with disposable masks and tubes. The kit includes a disposable filter between the mask and the tubing set containing a bidirectional membrane to prevent cross-contamination. According to the supplier, the filter is supposed to be 99.9% effective in stopping bacteria and viruses. After the filter, a tube with two-way valves directs, on the one hand, the flow of Krypton air from the generator to the patient and, on the other hand, the exhaled air from the patient's lungs to the ventilation unit. This part of the tubing set is also for single use and was changed after each patient.

Gas particles were inhaled through a hose and a mouthpiece containing a filter. The mouthpiece and filter were disposable and changed between each patient. A suction bell was located above the patient to prevent the spread of aerosols. Hose disinfection was realized before and after each patient.

The following scanner settings were applied: 120 keV/ 148 mAs, spacing 1.25 mm, 512 × 512 matrix.

Application of a decontaminant on the examination table, the machine, and the patient's environment, leaving to act for 15 min after each patient.

Case 1 (Fig. 1) The first case was a 53-year-old man with dyspnea, tachycardia (heart rate (HR) 120 bpm), and a typical electrocardiographic appearance of S 1 Q 3 with extended S wave in lead I and Q wave in lead III. Clinical parameters and laboratory data of the patient are available on Table 1 .

V/Q SPECT/CT found a segmental pulmonary embolism with a mismatch perfusion defect of the apical segment of the right lower lobe, representing an amputation of the total pulmonary vascular bed of approximately 5%.

CT scan showed moderate COVID-19 pulmonary involvement (25-50% of total volume), mainly consisting of subpleural ground glass and rare interlobular reticulations. These areas of hyperdensity, few in number, appeared correctly perfused, and ventilated.

The second case was a 71-year-old man with an increase of dyspnea under oxygen therapy. On arrival in the nuclear medicine department, the HR was 100 bpm and the oxygen saturation under 15 L per minute at 97%. Laboratory test showed a significant increase in D-dimers (> 20,000 μg/mL). All the clinical parameters and laboratory data of the patient are available on Table 1 . The V/Q SPECT/CT did not find PE. Ventilation was very heterogeneous: (1) the hyperdensities areas related to COVID-19 pneumonitis on the CT scan were clearly hypoventilated in scintigraphy with several large ventilatory defects, and (2) there was an accumulation of Technegas® in healthy parenchyma zones.

Compared to ventilation, the perfusion was well preserved; however, (1) it was partially reduced in the areas of ground glass, and (2) hypoperfusion seemed to be more pronounced in areas of denser parenchymal consolidation in accordance with large ventilatory defects.

In this patient, CT scan showed a critical extent of COVID-19 pulmonary involvement (> 75% of total volume).

Case 3 (Fig. 3) The third case was a 63-year-old man referred for worsening of respiratory symptoms under oxygen therapy. On arrival in the nuclear medicine department, the patient had an episode of desaturation to 82% under 15 L per minute of oxygen using a high concentration mask. His heart rate was 100 bpm.

Clinical parameters and laboratory data of the patient are available on Table 1 .

The V/Q SPECT/CT did not find PE. Ventilation showed very large defects in the subpleural areas and at the bases, corresponding to COVID-19 pulmonary lesions on the CT scan.

In comparison, the perfusion was relatively well preserved, especially in the areas of consolidation. There were rare defects matched in ventilation and perfusion within the lesions of consolidation. However, in those mixed defects areas, ventilation anomalies were predominant. Note as in the previous case the uptake not only of the ventilation tracer but also of the perfusion tracer in the healthy parenchyma areas.

The CT scan showed an aggravation of the pulmonary lesions in comparison with the CT scan performed 2 days earlier, on April 1, with a critical pulmonary involvement (> 75% of the parenchyma versus 25-50% previously). Faced with the worsening of COVID-19 pneumonia, the patient was transferred to intensive care following the completion of his V/Q SPECT/CT. Case 4 (Fig. 4) The fourth case was a 40-year-old man presenting dyspnea with a saturation of oxygen at 95% under 4 L of oxygen, associated with tachycardia at 90 bpm and right lower chest pain. Clinical parameters and laboratory data of the patient are available on Table 1 .

The V/Q SPECT/CT did not find PE. There was a heterogeneous perfusion with partial hypoperfusion zones and complete perfusion defects perfectly consistent with ventilation. These matched defects correspond to pulmonary lesions such as consolidations and organized pneumonitis.

CT scan showed a moderate extent of COVID-19 pulmonary involvement (25-50% of total volume) predominant in the lower lobes.

Case 5 (Fig. 5) The fifth case was a 69-year-old woman with persistent dyspnea on oxygen therapy. On arrival in the department, the patient was under 2 L of oxygen with an oxygen saturation at 96% and a HR at 87 bpm.

Clinical parameters and laboratory data of the patient are available on Table 1 .

V/Q SPECT/CT did not find PE. The perfusion was generally homogeneous and preserved. Pure ventilation anomalies were observed with respect to subpleural ground glass areas. The extent of pulmonary involvement of COVID-19 lung disease on the CT scan was moderate (25-50% of total volume) mainly consisting in ground glass opacity.

Infection with SARS-CoV2 renamed COVID-19 by the World Health Organization (WHO) [1] is now a pandemic responsible for severe respiratory problems. Soon, the various acute complications impacting the prognosis of hospitalized patients were described, including coagulopathy [3] . Indeed, coagulation disorders are common in respiratory tract infections and have been identified in other SARS viruses [6] . In the same way, during the SARS-Cov2 infection, an important inflammatory syndrome can be observed with the production of pro-inflammatory cytokines and activation of the coagulation factors causing a state of hypercoagulation [7] . A significant increase of D-dimers and fibrin degradation products, suggesting hyperfibrinolysis, has also been observed and associated with a poor prognosis [8] . Moreover, patients hospitalized for COVID-19 pneumonia often have, in addition to bed rest and sepsis, intrinsic risk factors for thromboembolic disease (obesity, high age).

The diagnosis of thromboembolic disease therefore seems essential in the management of the patient.

COVID-19 is also associated with a significant risk of renal failure [9] , which may contraindicate the injection of iodinated contrast agent on the CT scan as well as the allergy to iodinated contrast agents. In this case, pulmonary scintigraphy becomes the examination of choice for diagnosing PE.

In the five cases of COVID-19 patients that we have reported, we note different patterns and characteristics of the V/ Q SPECT/CT:

1) The pulmonary lesions of COVID-19 did not interfere with the diagnosis of thromboembolic disease.

2) The areas affected by COVID-19 on the CT scan were most often responsible for ventilatory defects with a relatively preserved perfusion, little or not diminished, particularly at an early stage of the disease with only ground glass opacities. 3) At an advanced stage of pneumonia, associating alveolar fillings and parenchymal anomalies of organized pneumopathy, the perfusion seemed more damaged with perfusional defects matched in ventilation.

There are several hypotheses regarding these areas of hypoperfusion:

-An adaptive mechanism with hypoxic pulmonary vasoconstriction and redistribution of the perfusion in adjacent well-ventilated areas [10] . -A destructive mechanism, with the occurrence of an alveolar destruction with involvement of the capillary walls, damaging the perfusion. At this stage, we can assume the onset of a pulmonary fibrosis which could also lead to an alteration of the perfusion. -An embolism mechanism, with the occurrence of pulmonary infarction in areas of consolidation [11] . This hypothesis is unlikely since in patients with these patterns, no other embolic signs were found (no mismatched perfusion defects find on the V/Q SPECT/CT).

Areas of healthy parenchyma on the CT scan had an uptake of the tracers of perfusion (toggle of flow) and ventilation ("luxury ventilation"-in Technegas® and in Krypton) probably related to an adaptive mechanism and a redistribution of the perfusion and ventilation towards the healthy parenchyma.

The nuclear physician will have to pay attention to the technical parameters of the V/Q SPECT/CT, in particular to Recently, publications came out discouraging nuclear medicine physicians to use ventilation due to the risk of aerosol contamination [12] . However, to date, no case of crosscontamination has been described with the use of Krypton and Technegas®. The French Society of Nuclear Medicine (SFMN) recommends maintaining V/Q scan with the ventilation to search for PE. According to its recommendations, the risk of contamination is extremely low [13] . Hygiene measures are obviously needed to limit the risk for healthcare workers as well as for patients (protective clothing, separate COVID+/COVID− circuits, cleaning of rooms, and equipment between each examination) [14] .

Furthermore, performing a V/Q scan without ventilation might decrease its specificity and provide a risk of falsepositives [15] . In the current context of a pandemic, utility of ventilation data must be studied in an appropriate research with a retrospective interpretation of the V/Q SPECT/CT by two readers: one using perfusion and ventilation for diagnosing PE and the other using only perfusion and the CT scan, in order to have more information on the most efficient and secure method for diagnosing PE in COVID-19 patients.

V/Q SPECT/CT not only is a tool allowing the diagnosis of pulmonary embolism in a single modality, but it can also, with the associated CT scanner, assess the degree of pulmonary involvement of COVID-19 while avoiding the risk of renal failure linked to the injection of iodinated contrast medium particularly to patients at risk.

Continuing to collect data will confirm the different patterns highlighted on the scintigraphy. In addition, in this pandemic context and facing a significant infectious risk, the utility of ventilation will also have to be specified.

Data availability Not applicable.

Conflict of interest The authors declare that they have no conflict of interest.

Ethics approval -Informed consent was obtained for all patients.

-This series of cases was approved by the local ethics committee of the Centre Cardiologique du Nord, in Saint-Denis, Ile-de-France, France.

Code availability Not applicable. 

World Health Organization declares global emergency: a review of the 2019 novel coronavirus (COVID-19)

Epidemiological and clinical characteristics of 99 cases of 2019 novel coronavirus pneumonia in Wuhan, China: a descriptive study

Prominent changes in blood coagulation of patients with SARS-CoV-2 infection

Incidence of thrombotic complications in critically ill ICU patients with COVID-19

Findings of acute pulmonary embolism in COVID-19 patients

Pulmonary artery thrombosis in a patient with severe acute respiratory syndrome

Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study

Abnormal coagulation parameters are associated with poor prognosis in patients with novel coronavirus pneumonia

Identification of a potential mechanism of acute kidney injury during the COVID-19 outbreak: a study based on single-cell transcriptome analysis

Observations on the pulmonary arterial blood pressure in the cat

Detailed analysis of patients with matched ventilation-perfusion defects and chest radiographic opacities

Diagnostic evaluation of pulmonary embolism during the COVID-19 pandemic

SFMN. Recommandations pour la réalisation de la scintigraphie pulmonaire dans le contexte d'épidémie due au virus Covid-19

Suggestions for safety and protection control in Department of Nuclear Medicine during the outbreak of COVID-19

EANM guidelines for ventilation/perfusion scintigraphy: part 1. Pulmonary imaging with ventilation/perfusion single photon emission tomography

Publisher's note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations