key: cord-0698977-pufzkefw authors: Aayilliath K, Adarsh; Singh, Komal; Ray, Animesh; Wig, Naveet title: Platypnoea–orthodeoxia syndrome in COVID-19 date: 2021-05-05 journal: BMJ Case Rep DOI: 10.1136/bcr-2021-243016 sha: bb558b5e47dd27e050b50ee37e5d20dd001157b5 doc_id: 698977 cord_uid: pufzkefw Platypnoea–orthodeoxia syndrome (POS) is a rare entity characterised by respiratory distress and/or hypoxia developing in the sitting/upright posture, which is relieved in the supine posture. It is caused by cardiac, pulmonary and non-cardiopulmonary diseases. COVID-19 can have varying respiratory manifestations including acute respiratory distress syndrome (ARDS) and sequelae-like pulmonary fibrosis. POS has been rarely reported in patients with COVID-19. Here we report a case of POS in a patient recovering from severe COVID-19 ARDS. As he was gradually mobilised after his improvement, he had worsening dyspnoea in the sitting position with significant relief on assuming a supine posture. He was diagnosed with POS after ruling out other causes of POS. He was treated with oxygen support in upright posture and chest physiotherapy was continued, to which he showed improvement. POS is a rare manifestation of COVID-19 which needs awareness as it can be diagnosed easily and can respond to continued supportive care. COVID-19 is caused by the SARS-CoV-2 virus, and respiratory system is the most commonly involved organ system in COVID-19. 1 The respiratory manifestations of COVID-19 range from mild upper respiratory symptoms to life-threatening severe acute respiratory distress syndrome (ARDS) requiring invasive mechanical ventilatory support. CT of the chest shows typically bilateral groundglass opacities predominantly in the lower lobes, mainly in a peripheral and subpleural location. Patients with COVID-19 can have postural variation of respiratory distress, and this fact is used in the strategy of awake proning in the management of COVID-19 ARDS. 2 However, platypnoea-orthodeoxia syndrome (POS) is a rare manifestation in COVID-19 and has been sparsely reported. Here we report an interesting case of COVID-19 who showed characteristic features of POS during the recovery phase. A 46-year-old man from Delhi presented with fever of 7 days and breathlessness of 3 days' duration. At the time of presentation, the patient had modified Medical Research Council (mMRC) grade 4 dyspnoea and complained of severe breathlessness both in lying down as well as upright postures. There was no history of cough, expectoration, haemoptysis or chest pain. He had a history of diffuse large B-cell lymphoma for which he underwent chemotherapy and autologous stem cell transplantation 5 years ago. On examination, he was conscious, oriented, with mild pallor, tachycardia and tachypnoea. His blood pressure was 110/70 mm Hg, but oxygen saturation of haemoglobin in room air was 90% and 94% with oxygen via non-rebreathing mask at 10 L/min. Respiratory system examination showed normal vesicular breath sounds with bilateral coarse diffuse crepitations without any wheeze or stridor. Examination of other systems including the cardiovascular system was also within normal limits. His COVID-19 reverse transcription-PCR (RT-PCR) of throat and nasopharyngeal swab came out positive and he was transferred to a COVID-19 facility. Hence, a diagnosis of severe COVID-19 ARDS was made, and he was initiated on treatment with dexamethasone and remedesivir as per institutional guidelines. 3 Arterial blood gas (ABG) estimation was suggestive of type I respiratory failure (pH 7.41, PO 2 54 mm Hg, PCO 2 29 mm Hg). His complete blood count showed pancytopenia. Serum creatinine, transaminases, blood sugar and electrolytes were normal. Oxygen support was initiated with high-flow nasal cannula at 60 L/min and 60% FiO 2 . He was also encouraged to assume prone positioning, which he tolerated well. He was given broad-spectrum antibiotics in view of neutropenia and packed red blood cells and platelet transfusion for anaemia and thrombocytopenia, respectively. Heparin was withheld in view of thrombocytopenia. His oxygen requirement gradually decreased, and on day 3, he was maintaining saturation 94% with oxygen of 4 L/min via nasal prongs. However, on day 4 of admission, he complained of increasing dyspnoea specifically in the sitting position, which reversed on assuming the supine position. His SpO 2 as measured by pulse oximeter (DrTrust) decreased from 94% in the supine position to 88% in the recumbent position. The finding was confirmed with the help of another pulse oximeter (AccuSure). An ABG analysis was done in the sitting position and repeated in the supine posture, which showed a decrease in SaO 2 by 7% and PaO 2 by 13 mm Hg in the upright posture. Hence, a diagnosis of POS was made. By day 5, he was on 2 L oxygen via nasal cannula; however, his positional variation of saturation persisted and he was further evaluated for the likely cause. The results of routine blood and urine investigations are enumerated as follows (table 1) . His inflammatory markers including ferritin, lactate dehydrogenase, C reactive protein and interleukin-6 were elevated. His chest radiograph showed non-uniform diffuse bilateral predominantly peripheral ground-glass opacities in mid and lower zones of the lungs (figure 1). A high-resolution CT of the thorax was done, which showed bilateral ground-glass opacities throughout the lung fields. However, consolidation and crazy pavement appearance were noted involving predominantly lower zones (figure 2A-C). ECG showed normal sinus rhythm. A 2D echocardiography was done, which showed good left and right ventricular functions without any pericardial effusion and no evidence of pulmonary embolism. A bubble contrast echocardiography could not be done owing to technical difficulty in the midst of the COVID-19 pandemic. An ultrasound abdomen revealed normal echotexture and size of the liver. Chest physiotherapy was continued, along with other supportive treatment and oxygen. His steroids were discontinued after 10 days (from initiation) as per protocol. His POS improved and his oxygen support was withdrawn by day 8 of hospitalisation. He was subsequently discharged 3 days after discontinuation of oxygen therapy. When he had his first follow-up after 1 month of discharge, he was relieved of his symptoms. POS is a rare entity characterised by dyspnoea in upright posture which is relieved on supine posture (platypnoea) and concomitant arterial oxygen desaturation in upright posture (orthodeoxia). A fall in SaO 2 of >5% or PaO 2 of >4 mm Hg from supine to upright/sitting position is essential for diagnosis. 4 Burchell and Wood reported the first case of POS in 1949 in a patient with post-traumatic intrathoracic arteriovenous shunts. 5 The terms platypnoea and orthodeoxia were coined by Altman and Robin, respectively. 6 The basic pathophysiology of arterial desaturation is mixing of deoxygenated venous blood with oxygenated arterial blood through a shunt. Both anatomical and functional aberrations are usually needed for this shunting to occur, and the shunting is exaggerated in the upright posture, resulting in the characteristic feature of POS. This pathophysiology is responsible for most of the cardiac causes of POS like patent foramen ovale, atrial septal defect, atrial septal aneurysm, etc. 7 In POS due to lung-related causes, shunting occurs outside the heart, for example, pulmonary arteriovenous malformation (AVM). In upright posture, the gravity-dependent increased blood flow to the dependent portions of the lungs causes an increase in shunting through the pulmonary AVM causing POS. 8 In the supine posture, there is less shunting resulting in improvement in oxygenation. This mechanism is also seen in advanced cirrhosis with hepatopulmonary syndrome. 9 However, POS is also observed in parenchymal lung diseases like emphysema, interstitial lung diseases and consolidation involving preferentially the lung bases, which leads to severe ventilation-perfusion (V/Q) mismatch in the upright posture owing largely to the effect of gravity-driven preferential blood flow to the bases. 10 In COVID-19, there may be preferential involvement of the lung parenchyma of posterior and lower zones. 11 So, the gravitational shunting of blood to the poorly ventilated lower and posterior segments can cause significant V/Q mismatch. Wasted ventilation is also thought to be exaggerated in the presence of pulmonary microangiopathy and microthrombosis seen in severe COVID-19. 12 The proposed mechanisms of POS in COVID-19-related POS are enumerated as follows (table 2). 13 As our patient was not given heparin due to thrombocytopenia, we hypothesise that this could have predisposed to microthrombosis in pulmonary vasculature and might have played a part in the pathogenesis of POS. COVID-19-related POS may be reversible. 14 Our patient also responded to chest physiotherapy and other supportive management. This case report highlights a rare manifestation of COVID-19 pneumonia. Although peripheral and lower lobe lung involvement is commonly encountered in COVID-19, POS has been rarely reported with this novel disease. The possible reasons can be (1) postural variation of saturation is only rarely checked in most patients, especially intubated patients; by the time the patient is mobilised and made to sit up, the lung lesions would have started resolving, leading to resolution of hypoxaemia; (2) there is also a lack of awareness of this entity among physicians, which leads to under-reporting of cases. We also reviewed the existing literature to look for similar cases of POS reported in the backdrop of COVID-19 (table 3) . I was admitted with shortness of breath and was tested to be positive for COVID-19. I was treated with oxygen, tablets and injectable medicines. Slowly, my symptoms resolved, but as I started to sit up on my bed, I got more and more breathless. I was worried that my lungs had permanent damage and I could not understand why it was happening even though the fever had gone. My doctors confirmed that oxygen level in blood was falling when I was sitting up but not when I was lying on the bed. They also did a study of the heart and other tests, which were normal. They suggested that I continue to use oxygen while sitting up and also to undergo chest physiotherapy diligently. After a few days, I felt better, my oxygen level became normal and I got discharged. I am relieved that it all turned out well. ► A high index of suspicion is needed to diagnose platypnoeaorthodeoxia syndrome (POS) because the symptoms are subtle, and postural variation may be missed if not specifically sought. ► POS can occur in the backdrop of COVID-19. ► One should actively consider/rule out its presence when the symptoms and/or signs are suggestive. Management of COVID-19 from the pulmonologist's perspective: a narrative review Management of critically ill adults with COVID-19 Interim clinical guidelines for management of COVID-19 Platypnea-orthodeoxia syndrome in review: defining a new disease Reflex orthostatic dyspnea associated with pulmonary hypotension Platypnea (diffuse zone I phenomenon?) The multiple dimensions of Platypnea-Orthodeoxia syndrome: a review Orthodeoxia and postural orthostatic tachycardia in patients with pulmonary arteriovenous malformations: a prospective 8-year series Hepatopulmonary syndrome--a liver-induced lung vascular disorder Interstitial pneumonia with autoimmune features and platypnea-orthopnea syndrome The continuing evolution of COVID-19 imaging pathways in the UK: a British Society of thoracic imaging expert reference group update Pulmonary and cardiac pathology in African American patients with COVID-19: an autopsy series from new Orleans Reversible platypnea-orthodeoxia in COVID-19 acute respiratory distress syndrome survivors Platypnea-orthodeoxia in a patient with severe COVID-19 pneumonia The patient was under the care of AR. Report written by AA. Supervised by KS, AR and NW.Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors.Competing interests None declared. Provenance and peer review Not commissioned; externally peer reviewed.This article is made freely available for use in accordance with BMJ's website terms and conditions for the duration of the covid-19 pandemic or until otherwise determined by BMJ. You may use, download and print the article for any lawful, non-commercial purpose (including text and data mining) provided that all copyright notices and trade marks are retained. Animesh Ray http:// orcid. org/ 0000-0002-9434-5338