Figure 1. Chest x-ray showing irregular patchy regions of ill-defined consolidation in the left upper lobe and lingula, as well as suggestion of cystic changes (arrow).

Figure 2. Chest CT axial views, soft tissue and lung windows at the level of the aortic arch (A), right pulmonary artery (B) and the heart (C) showing mixed consolidative and nodular left lung opacities suggestive of pulmonary contusions, as well as contrecoup injury in the right lung, in addition to multiple cystic spaces containing air-fluid levels consistent with pulmonary lacerations.

Figure 3. Chest CT coronal views, soft tissue and lung windows showing consolidative and nodular lung opacities as well as fluid layering in cystic spaces (red arrows). A shattered spleen (yellow arrow) is also seen.

A 17-year-old man was brought to the emergency room after a fall from a 50-foot bridge. He was hypoxemic on presentation, requiring endotracheal intubation. Chest computed tomography (CT) revealed bilateral airspace opacities consistent with pulmonary contusions, and multiple air-fluid levels diagnostic of pulmonary lacerations (Figures 1-3).

Pulmonary lacerations are rare complications of blunt chest trauma (1). They can be contained within the lung parenchyma or may extend through the visceral pleura causing a pneumothorax. Due to its elastic recoil, the surrounding lung tissue pulls back from the laceration resulting in a round or oval cavity that may fill with air (pneumatocele), blood (hematocele) or both (hematopneumatocele). Lacerations are often obscured on chest x-ray as they are usually surrounded by contusion, requiring a CT for detection (2). They are classified into four types according to the mechanism of injury: Type 1 (compression rupture injury, most common type, usually centrally located), Type 2 (shearing against the thoracic spine, involving the paraspinal region of the lower lobes), Type 3 (rib penetration into the lung periphery, usually associated with a pneumothorax) and Type 4 (adhesion tear, in regions of pleuropulmonary adhesions) (3). Pulmonary lacerations heal more slowly than contusions and may last up to several months, over time becoming increasingly filled with blood, before regressing (2).

Our patient underwent an exploratory laparotomy with a splenectomy. The pulmonary lacerations were managed conservatively. He was successfully extubated on day#10 and discharged home on day#14 with a plan to follow his lacerations with monthly chest radiography.

Udit Chaddha MD¹, Darren Maehara MD¹, Ioan Puscas DO¹, Ashley Prosper MD², and Ramyar Mahdavi MD¹

¹Division of Pulmonary, Critical Care and Sleep Medicine and ²Department of Radiology

Keck School of Medicine of the University of Southern California

Los Angeles, CA USA

References

1. Nishiumi N, Maitani F, Tsurumi T, Kaga K, Iwasaki M, Inoue H. Blunt chest trauma with deep pulmonary laceration. Ann Thorac Surg. 2001;71(1):314-8. [CrossRef] [PubMed]
2. Kaewlai R, Avery LL, Asrani AV, Novelline RA. Multidetector CT of blunt thoracic trauma. Radiographics. 2008;28(6):1555-70. [CrossRef] [PubMed]
3. Wagner RB, Crawford WO, Schimpf PP. Classification of parenchymal injuries of the lung. Radiology. 1988;167(1):77-82. [CrossRef] [PubMed]

Cite as: Chaddha U, Maehara D, Puscas I, Prosper A, Mahdavi R. Medical image of the week: hematopneumatoceles from pulmonary lacerations. Southwest J Pulm Crit Care. 2017;15(1):46-8. doi: https://doi.org/10.13175/swjpcc078-17 PDF 

Figure 1. A) Chest x-ray PA view demonstrating an oblong soft tissue density in the retrocardiac region overlying the medical aspect of the left hemidiaphragm. B) Chest x-ray lateral view demonstrating the same opacity anterior to a lower thoracic vertebral body, suspicious for a lung mass.

Figure 2. Chest computed tomography A) axial and B) coronal sections demonstrating a lobulated, cystic structure within the left lower lobe with a feeding artery off the aorta, consistent with a pulmonary sequestration.

A 49-year-old woman was incidentally found to have a lung mass on a pre-operative chest x-ray done prior to an elective cholecystectomy (Figure 1). Chest computed tomography, ordered to further characterize this mass revealed a left lower lobe lobulated, cystic opacity with a feeding artery from the aorta, consistent with bronchopulmonary sequestration (BPS) (Figure 2). Given that she has not had any complications of BPS we elected to manage her conservatively with observation.

BPS is a rare congenital malformation of the lower airways characterized by abnormal lung tissue that does not communicate with the tracheobronchial tree and receives its blood supply from the systemic circulation (1). Our patient’s BPS was intralobar in location, occurring within a normal lobe but lacking its own visceral pleura. The posterior basal left lower lobe is the most common intralobar location. Among cases that escape clinical detection in infancy, BPS comes to light in childhood or adulthood as either an incidental radiographic finding or as a symptomatic presentation of a lung infection. While surgical resection is generally considered to be the treatment of choice given the risk of developing infection, hemorrhage or malignancy (2), some asymptomatic adults with BPS may be managed conservatively with observation with serial imaging (3).

Udit Chaddha MD¹, Niusha Damaghi MD¹, Ashley Prosper MD², and Ching-Fei Chang MD¹

¹Division of Pulmonary, Critical Care and Sleep Medicine and ²Department of Radiology

Keck School of Medicine

University of Southern California

Los Angeles, CA USA

References

1. Biyyam DR, Chapman T, Ferguson MR, Deutsch G, Dighe MK. Congenital lung abnormalities: embryologic features, prenatal diagnosis, and postnatal radiologic-pathologic correlation. Radiographics. 2010 Oct;30(6):1721-38. [CrossRef] [PubMed]
2. Azizkhan RG, Crombleholme TM. Congenital cystic lung disease: contemporary antenatal and postnatal management. Pediatr Surg Int. 2008 Jun;24(6):643-57. [CrossRef] [PubMed]
3. Stanton M, Njere I, Ade-Ajayi N, Patel S, Davenport M. Systematic review and meta-analysis of the postnatal management of congenital cystic lung lesions. J Pediatr Surg. 2009 May;44(5):1027-33. [CrossRef] [PubMed]

Cite as: Chaddha U, Damaghi N, Prosper A, Cha C-F. Medical image of the week: bronchopulmonary sequestration. Southwest J Pulm Crit Care. 2017;14(4):168-9. doi: https://doi.org/10.13175/swjpcc036-17 PDF

Michael B. Gotway, MD

Department of Radiology

Mayo Clinic Arizona

Scottsdale, Arizona USA

Clinical History: A 49-year-old man presented with complaint of slow worsening of shortness of breath over a period of several months. He was otherwise healthy with no significant past medical history.

Laboratory data, include white blood cell count, coagulation profile, and serum chemistries were within normal limits. Oxygen saturation on room air was 94%.

Frontal and lateral chest radiographs (Figure 1) were performed.

Figure 1. Frontal (A) and lateral (B) chest radiography.

Which of the following statements regarding the chest radiograph is most accurate? (Click on the correct answer to proceed to the second of nine pages)

1. Frontal and lateral chest radiography shows a right paratracheal mass
2. Frontal and lateral chest radiography shows basal reticulation suggesting possible fibrotic disease
3. Frontal and lateral chest radiography shows left-sided lung nodules
4. Frontal and lateral chest radiography shows lobulated left-sided pleural disease
5. Frontal and lateral chest radiography shows numerous small nodules

Cite as: Gotway MB. February 2017 imaging case of the month. Southwest J Pulm Crit Care. 2017;14(2):73-84. doi: https://doi.org/10.13175/swjpcc020-17 PDF

Figure 1. CT scan of the chest shows bilateral masses (white arrows), left sided pleural effusion and endobronchial mass (black arrow).

Figure 2: Endobronchial mass (A) before and (B) after removal.

A 51-year-old woman with known rectal cancer currently receiving systemic chemotherapy presented with 2 weeks of worsening dyspnea on exertion. The day prior to admission she developed persistent inspiratory and expiratory wheeze. CT scan demonstrated right main stem endobronchial mass and a heterogeneous mass comprising the entire left hemithorax (Figure 1). Flexible bronchoscopy demonstrated a fungating mass at the carina extending down both main stems (Figure 2). The mass was snared and removed with cryotherapy and pathology was consistent with metastatic rectal adenocarcinoma.

Michael Insel MD, Naser Mahmoud MD and Afshin Sam MD

Division of Pulmonary, Allergy, Critical Care and Sleep

Banner-University Medical Center Tucson

Tucson, AZ USA

Cite as: Insel M, Mahmoud N, Sam A. Medical image of the week: pulmonary metastases of rectal cancer. Southwest J Pulm Crit Care. 2017;14(2):43-4. doi: https://doi.org/10.13175/swjpcc008-17 PDF