Multidetector CT chest with bronchial and pulmonary angiography determining causes, site and vascular origin of bleeding in patients with hemoptysis

High risk and low incidence diseases: Massive hemoptysis

BACKGROUND

Massive hemoptysis (MH) is a serious condition that carries with it a high rate of morbidity and mortality.

OBJECTIVE

This review highlights the pearls and pitfalls of massive hemoptysis, including presentation, diagnosis, and management in the emergency department (ED) based on current evidence.

DISCUSSION

MH is a rare but deadly condition. It is defined clinically as any bleeding from the tracheobronchial tree that compromises respiratory or circulatory function. The bronchial artery system is the primary source in the majority of cases of MH. The most common cause is tuberculosis worldwide, but bronchiectasis, bronchogenic carcinoma, and mycetoma are more common causes in the U.S. Patients with MH require rapid assessment and management, as decompensation can be rapid. Patients with altered mental status, inability to clear their sections, respiratory distress, or hemodynamic compromise require emergent airway intervention. The imaging modality of choice is computed tomography angiography with pulmonary arterial phase contrast. A reasonable order or sequence of management includes initial stabilization; assessment for the need for airway intervention; reversal of any coagulopathy; advanced imaging; and emergent consultation of pulmonary, cardiothoracic surgery, and interventional radiology. Ongoing resuscitation including blood products may be required in some patients with MH until definitive hemostasis is achieved.

CONCLUSIONS

An understanding of MH can assist emergency clinicians in diagnosing and managing this dangerous disease. Providing a prompt evaluation, obtaining intravenous access, pursuing advanced imaging, providing reversal of coagulopathy, supporting hemodynamics, and appropriate consultation are key interventions in MH.

A novel approach to the diagnosis and treatment of hemoptysis in infants: A case series

INTRODUCTION

Hemoptysis in children is an uncommon presenting symptom but can be life-threatening if massive. Cardiac catheterization and coil embolization of aorto-pulmonary collateral vessels (APCs) is uncommon in pediatric hemoptysis patients without congenital heart disease.

METHODS

We present a series of seven infants (≤12 months of age) with hemoptysis, all of whom underwent cardiac catheterization to look for and intervene upon APCs, if found. Only those patients who underwent both bronchoscopy as well as cardiac catheterization from January 1995 to January 2015 were included in this retrospective review.

RESULTS

Seven patients met inclusion criteria, and three had a history of recurrent hemoptysis. The mean age was 3 months. Four had evidence of bleeding on bronchoscopy. All seven had respiratory distress which necessitated ICU admission; five required mechanical ventilation. Cardiac catheterization showed significant APCs (>2 mm) in six of the seven studied patients, all of which were coil embolized. One patient had no significant APCs and therefore, no embolization. All patients had complete resolution with no recurrences during the 10-20-year outpatient follow-up period. Chest CT scans were not helpful in delineating the site or etiology of bleeding in any patient.

CONCLUSIONS

APCs should be considered as a differential diagnosis for pulmonary hemorrhage in infants after more common causes have been ruled out.

Single-phase Split-bolus Dual Energy Computed Tomography Angiography for Evaluation of Hemoptysis: A Novel Application

PURPOSE

The purpose of this study was to assess feasibility and overall utility of single-phase split-bolus dual energy computed tomography (DECT) angiography (DECTA) for evaluation of hemoptysis, and to establish an injection protocol for evaluation of hemoptysis, by comparing 2 contrast injection protocols.

MATERIALS AND METHODS

Using dual-source (80 and 140 kV), 2×128-slice equipment, DECTA was performed using 400 mg iodine/mL, 50 to 80 mL iodinated contrast in 257 patients (189 male individuals, 68 female individuals, age range: 15 to 76 y) presenting with hemoptysis. Initially, 50 patients were randomized into 2 groups for 2 different injection protocols (A and B). Images were assessed quantitative and qualitatively. Later, 207 patients were randomized using protocol B, which was technically simpler, and single-CT acquisition, for simultaneous opacification of systemic and pulmonary vessels.

RESULTS

Injection protocol A resulted in higher vessel attenuation, both in the aorta and in the pulmonary artery and its segmental branches; however, the difference was not statistically significant. No significant difference was noted in signal-to-noise ratio, contrast-to-noise ratio, as well as subjective image quality parameters. Overall optimal opacification of both systemic and pulmonary arteries was achieved in 247/257 patients. A total of 308 abnormal bronchial arteries were noted. A total of 392 nonbronchial systemic arteries were noted, the majority arising from posterior intercostals and subclavian artery branches. The pulmonary source of hemoptysis was identified in 9 patients (3 pulmonary thromboembolisms, 5 pulmonary artery pseudoaneurysms, and 1 pulmonary venous ectasia).

CONCLUSION

Combined DECTA is a novel technique that enables simultaneous evaluation of both systemic and pulmonary vascular cause of hemoptysis in a single acquisition with small contrast dose. Both injection protocols "A" and "B" were equally efficacious in simultaneous opacification of both the aorta and pulmonary arteries. To the best of our knowledge, such a protocol has never been described for hemoptysis evaluation.

Occult lawn mower projectile injury presenting with hemoptysis

We present the case of a 72-year-old man with hemoptysis after a thoracic projectile injury, which occurred while mowing the lawn. Chest radiograph followed by a computed tomography angiogram revealed a metallic foreign body in the right middle lobe of the lung. The patient underwent a right anterolateral thoracotomy where the object was successfully retrieved. The patient had an uneventful postoperative recovery.

[The role of imaging in thoracic tuberculosis]

Tuberculosis is an infectious disease mostly due to Mycobacterium tuberculosis. It is frequent in developing countries and its incidence is rising in developed countries. Lungs are the most involved organs of the chest but other structures can be affected. Imaging is fundamental in the management of the disease. Confirmation of diagnosis can be made only by bacteriologic and/or histologic exams. The first approach of diagnosis is based on clinical symptoms and chest X-ray signs. Radiologic signs depend on patient's age, his immune status and his previous contact with M. tuberculosis. Conventional chest X-ray remains the first-line exam to realize. It can suggest the diagnosis on the appearance and location of the lesions. CT scan is recommended for the positive diagnosis in case of discrepancy between clinical and radiographic signs, as for the diagnosis of parenchymal, vascular, lymph nodes, pleural, parietal or mediastinal complications. It is also essential for the evaluation of parenchyma sequelae. MRI and PET-scan have limited indications. The purpose of this article is to illustrate different radiological forms of chest tuberculosis, its sequelae and complications and to highlight the role of each imaging technique in the patient's management.