Double Trouble: Ductal Origin of Right Pulmonary Artery with Contralateral Embolism

A 60-year-old male patient underwent coronary angiography for acute myocardial infarction. Angiograms revealed significant multivessel disease and an abnormal branch arising from the proximal right coronary artery and extending backwards, likely to the right lung (Fig. 1A). Both internal thoracic arteries were patent; notably, the calibre of the right one was markedly larger than the left. Although chest radiograph showed anomalies such as right-lung hypoplasia and ipsilateral mediastinal shift (Fig. 1B), further investigation was skipped as the patient underwent urgent coronary artery bypass grafting. The postoperative course was complicated by respiratory impairment; thus a computed tomography pulmonary angiogram (CTPA) was performed, revealing the absence of the mediastinal segment of the right pulmonary artery (PA) (Fig. 1C). Interestingly, a small vascular outpouching representing the remnant lumen of a closed right-sided ductus arteriosus was identified at the base of the right innominate artery (Fig. 1D). Based on these findings, the patient was diagnosed with isolated ductal origin of pulmonary artery (DOPA). A left lower lobe segmental pulmonary embolism (PE) was also identified as the precipitating cause of respiratory distress (Fig. 2A); therefore, heparin was started. Two weeks later, a lung perfusion scan showed the resolution of PE (Fig. 2B).Figure 2(A) Sagittal angiogram revealing a pulmonary embolus in the posteromedial basal segmental branch of the left pulmonary artery (arrowhead). (B) Lung perfusion scan showing no radioisotope activity in the right lung and normal perfusion of the left lung.View Large Image Figure ViewerDownload Hi-res image Download (PPT) Isolated DOPA is a rare vascular malformation that may remain undiagnosed until advanced age, often manifesting with nonspecific symptoms such as recurrent bronchopneumonia, haemoptysis, and dyspnea.1Mery C.M. Molina K.M. Krishnamurthy R. Fraser Jr., C.D. Justino H. Pulmonary artery resuscitation for isolated ductal origin of a pulmonary artery.J Thorac Cardiovasc Surg. 2014; 148: 2235-22344.e1Google Scholar In the present case, the ventilation-perfusion mismatch associated with DOPA was exacerbated by contralateral PE, potentially explaining the postoperative respiratory distress. Lack of a connection between the main and affected branch PA, resulting from the involution of the ventral sixth aortic arch, led to the erroneous definition of unilateral pulmonary artery agenesis.1Mery C.M. Molina K.M. Krishnamurthy R. Fraser Jr., C.D. Justino H. Pulmonary artery resuscitation for isolated ductal origin of a pulmonary artery.J Thorac Cardiovasc Surg. 2014; 148: 2235-22344.e1Google Scholar,2Anand S.H. Jasper A. Mani S.E. Joseph E. Mathai J. Proximal interruption of the pulmonary artery: a case series.J Clin Diagn Res. 2015; 9: TD04-TD06Google Scholar Instead, the term DOPA more accurately describes this malformation, as a well-formed, albeit hypoplastic, true pulmonary artery is invariably present, the hilar PA being connected to the dorsal sixth aortic arch (ductus arteriosus) in foetal life.1Mery C.M. Molina K.M. Krishnamurthy R. Fraser Jr., C.D. Justino H. Pulmonary artery resuscitation for isolated ductal origin of a pulmonary artery.J Thorac Cardiovasc Surg. 2014; 148: 2235-22344.e1Google Scholar After birth, the ductus usually involutes to become the ligamentum arteriosum, sometimes appearing on angiograms as a small outpouching from the innominate or subclavian artery ipsilateral to the affected side. Subsequently, the affected lung can be supplied by compensatory systemic collaterals originating from bronchial, internal thoracic, and coronary arteries,2Anand S.H. Jasper A. Mani S.E. Joseph E. Mathai J. Proximal interruption of the pulmonary artery: a case series.J Clin Diagn Res. 2015; 9: TD04-TD06Google Scholar as our case shows. Interestingly, DOPA could be suspected by jointly considering the anomalies detected by coronary angiography and chest radiograph. Despite not providing direct visualization of DOPA, these diagnostic modalities could offer subtle but important clues to this rare malformation, ultimately confirmed by CTPA.Novel Teaching Points•Chest radiograph may provide relevant clues to the diagnosis of DOPA.•CTPA is the method of choice for noninvasive diagnostic confirmation.•Key diagnostic findings are a well-formed but hypoplastic pulmonary artery and a ductal diverticulum on the aortic arch or the base of an epiaortic vessel. •Chest radiograph may provide relevant clues to the diagnosis of DOPA.•CTPA is the method of choice for noninvasive diagnostic confirmation.•Key diagnostic findings are a well-formed but hypoplastic pulmonary artery and a ductal diverticulum on the aortic arch or the base of an epiaortic vessel. The study was conducted according to the criteria set by the declaration of Helsinki. No funding was received for this study.