Imaging

Those who care for patients with pulmonary, critical care or sleep disorders rely heavily on chest radiology and pathology to determine diagnoses. The Southwest Journal of Pulmonary, Critical Care & Sleep publishes case-based articles with characteristic chest imaging and related pathology.

The editor of this section will oversee and coordinate the publication of a core of the most important chest imaging topics. In doing so, they encourage the submission of unsolicited manuscripts. It cannot be overemphasized that both radiologic and pathologic images must be of excellent quality. As a rule, 600 DPI is sufficient for radiographic and pathologic images. Taking pictures of plain chest radiographs and CT scans with a digital camera is strongly discouraged. The figures should be cited in the text and numbered consecutively. The stain used for pathology specimens and magnification should be mentioned in the figure legend. Those who care for patients with pulmonary, critical care or sleep disorders rely heavily on chest radiology and pathology to determine diagnoses. The Southwest Journal of Pulmonary, Critical Care & Sleep publishes case-based articles with characteristic chest imaging and related pathology. The editor of this section will oversee and coordinate the publication of a core of the most important chest imaging topics. In doing so, they encourage the submission of unsolicited manuscripts. It cannot be overemphasized that both radiologic and pathologic images must be of excellent quality. As a rule, 600 DPI is sufficient for radiographic and pathologic images. Taking pictures of plain chest radiographs and CT scans with a digital camera is strongly discouraged. The figures should be cited in the text and numbered consecutively. The stain used for pathology specimens and magnification should be mentioned in the figure legend.

Rick Robbins, M.D. Rick Robbins, M.D.

Medical Image of the Week: Granulomatous Amoebic Encephalitis

Figure 1. Progressively worsened encephalitis with increasing T2/FLAIR hyperintensity, with restricted diffusion and increasing cortical enhancement in the left anterior/medial temporal lobe and inferior frontal lobe, multifocal areas of hemorrhage, mass effect and interval development of multiple progressive areas of rim enhancement with small areas of restricted diffusion suggested new abscess formation.

 

Figure 2. Necrotizing granulomas with acute inflammation and microorganisms with the morphologic features of amoeba (H & E stained slides: 500X and 1000X).

 

A 64-year-old woman with history of deceased donor kidney transplantation presented with altered mental status. MRI of the brain showed new region of T2/FLAIR hyperintensity with restricted diffusion and slight cortical enhancement in the left middle temporal lobe (Figure 1, Panel A). Her neurological exam was notable for expressive aphasia and right-sided weakness. Initial diagnosis of ischemic stroke was further evaluated due to immunosuppressive status. Her CSF showed a WBC of 12 cells/microL with 80% lymphocytes, glucose 61 mg/dL, and protein 53 mg/dL. Follow up MRI showed progression of T2/FLAIR hyperintensity, intraparenchymal hemorrhage, and peripheral patchy enhancement in the left anterior/medial temporal lobe and inferior frontal lobe suspicious for encephalitis (Figure 1, Panel B). Left temporal lobe biopsy revealed granulomatous encephalitis with microorganisms morphologically consistent with amoeba (Figure 2), and tissue cultures grew MRSA. Acanthamoeba species was confirmed by the Centers for Disease Control and Prevention (CDC) with antibody testing. Immunosuppression was tapered. She was treated with vancomycin and a CDC approved regimen of pentamidine, sulfadiazine, flucytosine, fluconazole, azithromycin, and miltefosine. Repeat MRI revealed continued progression of encephalitis with increased T2/FLAIR hyperintensity, mass effect, multifocal hemorrhage and new abscess formation (Figure 1, Panel C). Despite aggressive medical management, her neurologic status continued to deteriorate. Given her grim prognosis and failure to show clinical improvement, her family decided to pursue hospice care.

Granulomatous amebic encephalitis is a life-threatening central nervous system infection caused by the free-living amoebae Acanthamoeba spp., Balamuthia mandrillaris and Sappinia pedata. Onset is subacute to chronic affecting predominantly the immunocompromised population. The diagnosis requires high index of suspicion, and early diagnosis is crucial to survival. Radiological findings are nonspecific and can be seen in CNS tuberculosis, neurocysticercosis, disseminated encephalomyelitis, viral encephalitis etc. Multiple antibiotics targeting various proteins or receptors are required for successful treatment. A combination of surgical and medical interventions may be required to prevent morbidity and mortality.

Ateefa Chaudhury MD1, Christopher Geffre MD2, and Tauseef Afaq Siddiqi MD3

1 Department of Medicine

2 Department of Pathology

3 Division of Pulmonary, Allergy, Critical Care and Sleep Medicine

The University of Arizona, Tucson, AZ

Reference

  1. Parija SC, Dinoop K, Venugopal H. Management of granulomatous amebic encephalitis: Laboratory diagnosis and treatment. Trop Parasitol. 2015;5(1):23-8. [CrossRef] [PubMed]

Reference as: Chaudhury A, Geffre C, Siddiqi TA. Medical image of the week: granulomatous amoebic encephalitis. Southwest J Pulm Crit Care. 2015;10(6):330-1. doi: http://dx.doi.org/10.13175/swjpcc051-15 PDF 

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Rick Robbins, M.D. Rick Robbins, M.D.

May 2015 Imaging Case of the Month

Michael B. Gotway, MD 

Department of Radiology

Mayo Clinic Arizona

Scottsdale, AZ

  

Clinical History: A 66 year-old woman presented with a history of hypothyroidism on replacement therapy, and a past medical history of pancreatitis, presented to her gastroenterologist with complaints of abdominal pain and loose stools. The episodes of pancreatitis began over a decade earlier with epigastric pain that was ultimately attributed to cholecystitis, for which endoscopic retrograde cholangiopancreatography (ERCP) was performed; this procedure precipitated her first episode of pancreatitis. During the ERCP procedure, her common bile duct was noted to be narrowed and several stones were removed, with placement of a stent, after which her epigastric pain resolved. A second stent placement procedure was required for recurrent epigastric pain approximately three weeks later, with good result.

Nearly a decade later, the patient presented with loose stools and fecal urgency associated with abdominal pain. Upper endoscopy showed mild gastric erosions (the patient was taking non-steroidal anti-inflammatory agents for intermittent back pain) and colonoscopy showed mild, non-specific colitis. The paint was diagnosed with pancreatic insufficiency and enzyme replacement therapy was begun, with symptomatic improvement.

During the course of her gastrointestinal consult, a frontal chest radiograph (Figure 1) was performed.

 

Figure 1. Frontal chest radiograph.

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

Reference as: Gotway MB. May 2015 imaging case of the month. Southwest J Pulm Crit Care. 2015;10(5):223-34. doi: http://dx.doi.org/10.13175/swjpcc070-15 PDF

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Rick Robbins, M.D. Rick Robbins, M.D.

Medical Image of the Week: Nocardiosis

Figure 1. Panel A: Thoracic CT scan showing enlarged left upper lobe mass. Panel B: CT scan from one month earlier showing a smaller lesion.

 

Figure 2. Panel A: GMS Silver stain showing Nocardia (200X magnification). Panel B: GMS silver stain showing Nocardia (400X magnification).

 

Figure 3. MRI Brain with arrows pointing to the lesion.

 

A 67 year-old man with advanced adenocarcinoma of the lung on chemotherapy and severe steroid dependent chronic obstructive pulmonary disease (COPD) was admitted for treatment of acute on chronic respiratory failure. He was admitted to the intensive care unit and required non-invasive positive pressure ventilation. He had a chest computed tomography scan (Figure 1A), with a left upper lobe mass, which was significantly larger than noted on a previous PET/CT scan (Figure 1B) from one month ago. He was placed on empiric broad-spectrum antibiotics and clinically improved. He underwent a transthoracic lung biopsy (Figure 2), which revealed the presence of organisms consistent with Nocardia on silver stain.  A brain MRI (Figure 3) showed the presence of a 4 mm enhancing lesion likely consistent with Nocardia.

Nocardiosis is a gram-positive bacterial infection caused by aerobic actinomycetes and is an important opportunistic pulmonary infection. It should be considered in the differential diagnosis of pulmonary infiltrates in immunosuppressed patients, including those with neoplasms, after organ transplantation, advanced HIV disease and those receiving chronic corticosteroid therapy or chemotherapy (1). Of importance to pulmonologists, in two reviews, COPD was a common underlying condition, representing over 20% of patients with Nocardiosis in these reports (2,3). Nocardia species are found in soil and infection is generally acquired through inhalation. The most common symptoms are fever, cough, pleuritic chest pain and headache. Common chest radiographic findings include consolidation, nodules, cavities and pleural effusions. Nocardia infections can disseminate to any organ but it has a predilection for spread to the central nervous system and patients with pulmonary Nocardia infections should have brain imaging to evaluate for cerebral dissemination. Antibiotics that are typically effective in Nocardia infections include trimethoprim-sulfamethoxazole (TMP-SMX), imipenim, amikacin, ceftriaxone and cefotaxime. However, antibiotic susceptibilities should be obtained and treatment tailored accordingly. It is recommended to treat severe systemic infections with two or three intravenous agents while awaiting susceptibility results. Treatment is usually prolonged because of the tendency of Nocardia infections to relapse or progress.  For patients with serious pulmonary infections and immunocompromised patients, duration of therapy is often at least 6 to 12 months or longer. Our patient was treated with TMP-SMX and meropenem and clinically improved. His steroids were rapidly tapered. Sputum cultures grew Nocardia farcinica.

Aarthi Ganesh MD, Muna Omar MD, James Knepler MD, and Linda Snyder MD

Department of Pulmonary and Critical Care

Banner University Medical Center

Tucson, AZ

References

  1. Grigor LM, Hoover SE. Nocardiosis at a university medical center in the American southwest. Infect Dis Clin Pract 2014:22:279-82. [CrossRef]
  2. Minero MV, Marín M, Cercenado E, Rabadán PM, Bouza E, Mu-oz P. Nocardiosis at the turn of the century. Medicine (Baltimore). 2009;88(4):250-61. [CrossRef] [PubMed]
  3. Martínez Tomás R, Menéndez Villanueva R, Reyes Calzada S, Santos Durantez M, Vallés Tarazona JM, Modesto Alapont M, Gobernado Serrano M. Pulmonary nocardio-sis: risk factors and outcomes. Respirology. 2007;12(3):394-400. [CrossRef] [PubMed]

Reference as: Ganesh A, Omar M, Knepler J, Snyder L. Medical image of the week: nocardiosis. Southwest J Pulm Crit Care. 2015;10(5):220-2. doi: http://dx.doi.org/10.13175/swjpcc046-15 PDF

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Rick Robbins, M.D. Rick Robbins, M.D.

February 2015 Imaging Case of the Month

Michael B. Gotway, MD

 

Department of Radiology

Mayo Clinic Arizona

Scottsdale, AZ

 

Clinical History: A 37-year-old man, a former smoker (quit 10 years ago) presented to his physician as an outpatient with complaints of intermittent chest pain, malaise, and intermittent fever. Stress ECG and upper endoscopy were negative. His previous medical history was otherwise unremarkable. Various physicians told the patient his symptoms were due to “stress”; presumptive antibiotic treatment had no effect.

Frontal chest radiography (Figure 1) was performed.

Figure 1. Frontal 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 five panels)

Reference as: Gotway MB. February 2015 imaging case of the month. Soutwest J Pulm Crit Care. 2015:10(2):70-6. doi: http://dx.doi.org/10.13175/swjpcc018-15 PDF

 

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Rick Robbins, M.D. Rick Robbins, M.D.

Medical Image of the Week: Paradoxical Stroke

Figure 1. Vegetation seen on the tricuspid valve on the transthoracic echocardiogram (arrow). RA=right atrium, RV=right ventricle.

 

Figure 2. Patent foramen ovale (PFO) with right to left shunt of the agitated saline contrast on the trans-esophageal echocardiogram (arrow). RA=right atrium, LA=left atrium.

 

Figure 3. Acute left cerebellar stroke, hyper-dense lesion on T2 weighted MRI of the brain. (encircled).

 

A 23-year-old man with a history of intravenous drug abuse (IVDA) was admitted to the intensive care unit (ICU) secondary to sepsis. His blood cultures were positive for methicillin sensitive Staphylococcus aureus. Transthoracic echocardiogram showed vegetation on the tricuspid valve (Figure 1). He had multiple systemic emboli leading to suspicion for right to left shunt, which was confirmed by the agitated saline test during the echocardiogram (Figure 2). Cerebellar strokes likely secondary to posterior circulation embolic phenomenon was also seen (Figure 3). Overall, after a protracted ICU course complicated by multi-organ failure, he improved and is continuing treatment and rehabilitation at this time.

Right-sided infective endocarditis (IE) incidence is low, accounting for 5-10% of all cases of IE (1). IVDA is a well-known cause of tricuspid valve endocarditis. Usual features of tricuspid endocarditis are fever, bacteremia and pulmonary septic emboli. Patent foramen ovale (PFO) is estimated in up to 25% of the general population. Management of PFO for secondary stroke prevention remains controversial. Closure can be achieved surgically or percutaneously. The efficacy of closure of a PFO on the rate of recurrent stroke has not been established.

Laila Abu Zaid MD1, Evbu Enakpene MD2 and Bhupinder Natt MD3

1Department of Internal Medicine

2Division of Cardiovascular Diseases

3Division of Pulmonary, Allergy, Critical Care and Sleep Medicine

University of Arizona Medical Center

Tucson, AZ.

Reference

  1. Akinosoglou K, Apostolakis E, Marangos M, Pasvol G. Native valve right sided infective endocarditis. Eur J Intern Med. 2013;24(6):510-9. [CrossRef] [PubMed]

Reference as: Zaid LA, Enakpene E, Natt B. Medical image of the week: paradoxical stroke. Southwest J Pulm Crit Care. 2014;9(5):278-80. doi: http://dx.doi.org/10.13175/swjpcc135-14 PDF

 

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Rick Robbins, M.D. Rick Robbins, M.D.

Medical Image of the Week: Cervical Fracture and Dislocation

Figure 1. Panel A: Computerized tomography (CT) scan of the neck showing C5-C6 fracture and dislocation (arrow). Panel B: Accompanying magnetic resonance imaging (MRI) of the neck.

A 25 year old woman was a restrained driver in a rollover motor vehicle accident (MVA) and suffered a C5-C6 fracture-dislocation with spinal cord injury (Figure 1). She developed neurogenic stunned myocardium, symptomatic bradycardia and neurogenic shock. Her cardiac ultrasound has been previously presented and can be viewed by clicking here. After developing the adult respiratory distress syndrome and multi-system organ failure she had multiple cardiac arrests and died after 5 days in the intensive care unit.

Evan D. Schmitz, MD

Richland, Washington

Reference as: Schmitz ED. Medical image of the week: cervical fracture and dislocation. Southwest J Pulm Crit Care. 2014;8(4):204. doi: http://dx.doi.org/10.13175/swjpcc030-14 PDF 

             

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Rick Robbins, M.D. Rick Robbins, M.D.

Medical Image of the Week: Leptomeningeal Carcinomatosis

Figure 1. PET/CT scan showing metabolic activity in the mid 3rd of the left breast without significant adenopathy (arrows).

 

Figure 2. Panel A: Brain MRI T1 pre contrast image shows normal signal intensity in cerebrum, brain stem and cerebellum with no evidence of acute infarction. Panels B and C: Post contrast images show diffuse leptomeningeal enhancement involving bilateral cerebellar folia and around the surface of brainstem (arrows).

A 65 year old woman with a history of breast cancer presented to the emergency department (ED) with dizziness and disequilibrium, which started a week prior to admission. A year ago, she was diagnosed with locally advanced lobular carcinoma confined to the left breast (Figure 1). She underwent mastectomy followed by chemoradiation including taxol, sunitinib, cyclophosphamide and doxorubicin with remarkable response, and achieved complete remission. In the ED, her neurologic status deteriorated rapidly, she developed tonic-clonic seizures and became unresponsive to verbal and painful stimuli. CT of the head showed no evidence of acute intracranial abnormality or metastatic lesion, however, a brain MRI brain showed contrast enhancement and increased fluid attenuated inversion recovery (FLAIR) signal of the leptomeninges in cranial nerves III, V, VII and VIII as well as cerebellar surface, suggesting meningeal carcinomatosis (Figure 2B and 2C). A lumbar puncture demonstrated malignant cells in the cerebospinal fluid confirming the diagnosis of leptomeningeal carcinomatosis. Palliative radiation therapy with thiotepa was planned, however, her family opted for comfort care only and the patient passed away 6th day of hospital stay.

Leptomeningeal carcinomatosis (LC) is a devastating complication of systemic cancer that can occur in patients with solid or hematologic malignancies. LC has been described in 5% to 10% of patients with solid tumors, more frequently breast adenocarcinoma, lung adenocarcinoma and melanoma (1,2). LC may be the first manifestation of cancer in 5% to 11% of patients and maybe the sole site of relapse in patients successfully treated for cancer (2). Treatment of LC is currently palliative for most patients, with an expected median survival of less than 6 months (1,2)

Roberto Bernardo MD, Seongseok Yun MD PhD, Ateefa Chaudhury MD, Keri Maher DO, and Tauseef Siddiqi MD

Department of Medicine, University of Arizona, Tucson, AZ

References

  1. Bruna J, González L, Miró J, Velasco R, Gil M, Tortosa A. Leptomeningeal carcinomatosis: prognostic implications of clinical and cerebrospinal fluid features. Cancer. 2009;115(2):381–9. [CrossRef] [PubMed] 
  2. Kesari S, Batchelor TT. Leptomeningeal metastases. Neurol Clin. 2003:21(1): 25-66. [CrossRef] [PubMed]

Referece as: Bernardo R, Yun S, Chaudhury A, Maher K, Siddiqi T. Medical image of the week: leptomeningeal carcinomatosis. Southwest J Pulm Crit Care. 2014;8(3):190-1. doi: http://dx.doi.org/10.13175/swjpcc028-14 PDF

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Rick Robbins, M.D. Rick Robbins, M.D.

Medical Image of the Week: Massive Cerebral Infarction

 

Figure 1. Movie of head CT scan.

 

Figure 2. Movie of head MRI.

A 77 year old man with a history of chronic heart failure was admitted to the hospital complaining of left sided hemiparesis for about an hour. He was oriented but had slurred speech and was unable to move his left arm or leg. His pulse was irregular and ECG showed atrial fibrillation. A CT scan of the head (Figure 1) was interpreted as relatively unremarkable. Magnetic resonance imaging (MRI) of the head (Figure 2) showed massive right brain infarction. These studies illustrate the higher sensitivity of MRI in comparison to CT in the detection of stroke, especially early after the onset on symptoms (1).

Nijamudin Samani, MD; Yong-Jie Yin, MD; Sanjaya Karki, MD; and Jing-Xiao Zhang, MD

Department of Emergency and Critical Care

Second Hospital of Jilin University

Norman Bethune College of Medicine

Changchun, China

Reference

  1. Chalela JA, Kidwell CS, Nentwich LM, Luby M, Butman JA, Demchuk AM, Hill MD, Patronas N, Latour L, Warach S. Magnetic resonance imaging and computed tomography in emergency assessment of patients with suspected acute stroke: a prospective comparison. Lancet. 2007;369(9558):293-8. [CrossRef] [PubMed]

Reference as: Samani N, Yin YJ, Karki S, Zhang JX. Medical image of the week: massive cerebral infarction. Soutwest J Pulm Crit Care. 2013;7(1):25-6. doi: http://dx.doi.org/10.13175/swjpcc084-13 PDF

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Rick Robbins, M.D. Rick Robbins, M.D.

Medical Image of the Week: MRI of Wernicke’s Encephalopathy

Figure 1:  Thalamic enhancement (arrows)

A 61 year old male presented to the ED with altered mental status after being found down at home with several beer cans around him.  He was noted to have horizontal nystagmus on hospital day 2 and a MRI was performed.  MRI showed bilateral thalamic enhancement (Figure 1, arrows) on flair imaging consistent with Wernicke’s encephalopathy.  His thiamine dose was increased with improvement in his mental status.

Nathaniel Reyes, MD and Jarrod Mosier, MD

Division of Pulmonary and Critical Care Medicine

Arizona Respiratory Center

University of Arizona

Tucson, AZ

Reference as: Reyes N, Mosier J. Medical image of the week: MRI of Wernicke's encephalopathy. Southwest J Pulm Crit Care. 2013;6(2):83. PDF

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