Lewis J. Wesselius, MD

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ USA

History of Present Illness

The patient is a 60-year-old woman with dyspnea on exertion when she had a pulmonary embolism following knee surgery 3 years earlier. She smoked 1 pack per day for the past 40 years. She was seen at another hospital and had pulmonary function testing which showed only a DLco which was 66% of predicted. Serologic studies were negative for a rheumatologic disorder. A CT scan was also performed (Figure 1).

Figure 1. Representative images from thoracic CT scan in lung windows.

The CT scan was interpreted as showing a few small nodules and possible very early interstitial lung disease.

Which of the following are true? (Click on the correct answer to proceed to the second of five pages)

1. A pulmonary embolism can reduce the DLco
2. Her CT scan is characteristic of Langerhans cell histiocytosis
3. Smoking can reduce the DLco
4. 1 and 3
5. All of the above

Cite as: Wesselius LJ. August 2017 pulmonary case of the month. Southwest J Pulm Crit Care. 2017;15(2):54-60. doi: https://doi.org/10.13175/swjpcc096-17 PDF 

Robert W. Viggiano, MD

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ USA

History of Present Illness

The patient is a 19-year-old woman who went to a local Emergency Room 12/23/15 for chest pain she described as pleurisy. She was told she had pneumonia and a chest x-ray was reported to show a lingular infiltrate (Figure 1).

Figure 1. PA (A) and lateral (B) chest radiograph taken 12/23/15.

She was treated with antibiotics and improved. She was well until 9/2/16 when she again returned to the emergency room complaining of hemoptysis. A chest x-ray was reported as showing a lingular infiltrate (Figure 2). 

Figure 2. PA (A) and lateral (B) chest radiograph taken 9/2/16.

She was treated with azithromycin but her cough persisted sometimes with a small amount of blood in her sputum. She was referred because of her persistent symptoms and her abnormal chest x-ray.

Past Medical History, Social History and Family History

• She is now taking fluoxetine daily.
• She has a history of pediatric autoimmune neuropsychiatric disorder associated with Group A Streptococcus and was treated with antibiotics for 4-5 years.
• Nonsmoker.

Physical Examination

Her physical examination was unremarkable.

Which of the following are true? (Click on the correct answer to proceed to the second of five pages)

1. Her chest radiographs are consistent with pneumonia
2. Lung cancer is an unlikely consideration in a 19-year-old
3. The chest x-ray findings represent a well-known complication of pediatric autoimmune neuropsychiatric disorder
4. 1 and 3
5. All of the above

Cite as: Viggiano RW. July 2017 pulmonary case of the month. Southwest J Pulm Crit Care. 2017;15(1):1-6. doi: https://doi.org/10.13175/swjpcc082-17 PDF 

Robert Horsley, MD

Lewis J. Wesselius, MD 

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ USA

History of Present Illness

A 61-year-old woman presented to the emergency department for 3 days of fevers up to 102º F, malaise, and progressive shortness of breath. Her symptoms started immediately after he last naltrexone injection for alcohol use disorder.

Past Medical History, Social History and Family History

• Alcohol use disorder
• Treated with monthly naltrexone injections, received 3 doses total, and gabapentin
• No other previous medical issues
• Nonsmoker

Physical Examination

• Vital signs: Pulse 100, BP 108/90, respiratory rate 34, SpO2 93% 10L non-rebreathing mask
• Cyanotic on room air
• Lungs clear

Radiography

A portable chest x-ray was performed in the emergency department (Figure 1).

Figure 1. AP chest radiograph taken in the emergency department.

A thoracic CT scan was performed (Figure 2).

Figure 2. Representative images from thoracic CT in lung windows.

Laboratory

• CBC showed a white blood cell count of 12,000 cells/mcL.
• The differential showed a left shift.
• Lactate was 5.2 mmol/L

Which of the following is (are) true? (Click on the correct answer to proceed to the second of five pages)

1. A lactate level of 5.2 can be a normal finding in a critically ill patient
2. Her symptoms are likely an allergic reaction to naltrexone
3. The most likely diagnosis is an atypical pneumonia
4. 1 and 3
5. All of the above

Cite as: Horsley R, Wesselius LJ. June 2107 pulmonary case of the month. Southwest J Pulm Crit Care. 2017;14(6):255-61. doi: https://doi.org/10.13175/swjpcc063-17 PDF

Lewis J. Wesselius, MD

Robert W. Viggiano, MD

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ USA

History of Present Illness

A 69-year-old man with known heart failure, COPD and prostate cancer with presented with increased shortness of breath. He denied any fever, chills, cough or sputum.

Past Medical History, Social History and Family History

• Diastolic heart failure with a preserved ejection fraction
• Prostate cancer with bone metastasis treated with leuprolide (Lupron^®) 
• COPD treated with salmeterol/fluticasone and tiotropium
• He is married, retired and had quit smoking a number of years ago.
• Family history was unremarkable

Physical Examination

• Oxygen saturation (SpO2) was 93% on room air.
• Physical examination showed jugular venous distention (JVD), bilateral lung rales a laterally displaced pulse of maximal impulse (PMI) and 1+ pretibial edema.

Radiography

A chest x-ray was performed (Figure 1).

Figure 1. Admission chest x-ray.

Based on the history and chest x-ray which of the following is the most likely diagnosis? (Click on the correct answer to proceed to the second of six pages)

1. Community-acquired pneumonia
2. Congestive heart failure
3. COPD exacerbation
4. Metastatic prostate cancer
5. Pulmonary embolism

Cite as: Wesselius LJ, Viggiano RW. May 2017 pulmonary case of the month. Southwest J Pulm Crit Care. 2017;14(5):185-91. doi: https://doi.org/10.13175/swjpcc052-17 PDF

Lewis J. Wesselius, MD

Pulmonary Department

Mayo Clinic Arizona

Scottsdale, AZ USA

History of Present Illness

A 63-year-old woman with a prior diagnosis of possible rheumatoid arthritis was referred for dyspnea with more vigorous activities in Prescott where she now lives (elevation 5367 ft.). She is receiving hydroxychloroquine 400 mg/day.

Past Medical History, Social History and Family History

She has a past medical history of hypertension. She smoked about a pack per day from age 20 to 40. There is a history of colon cancer in her mother and  lung cancer in a sister.

Physical Examination

• Vitals: BP 155/102, SpO2 93% on room air
• Chest: slightly decreased breath sounds but clear
• Cardiovascular:  regular rhythm without murmur
• Extremities:  no cyanosis, clubbing or edema
• The remainder of the physical examination is normal

What testing would you perform at this time? (Click on the correct answer to proceed to the second of five pages)

1. Chest X-ray
2. Pulmonary function testing
3. Rheumatoid factor
4. 1 and 3
5. All of the above

Cite as: Wesselius LJ. April 2017 pulmonary case of the month. Southwest J Pulm Crit Care. 2017;14(4):129-33. doi: https://doi.org/10.13175/swjpcc040-17 PDF

Maxwell L. Smith, MD 

Department of Laboratory Medicine and Pathology

Mayo Clinic Arizona

Scottsdale, AZ USA

History of Present Illness

The patient is 52-year-old man who complained of dyspnea on exertion and a dry cough.

Past Medical History, Social History and Family History

He had a history of gastroesophageal reflux disease (GERD) and was taking a proton pump inhibitor.

He never smoked and had no known exposures.

Family history was noncontributory.

Physical Examination

Physical Examination was unremarkable.

Chest X-ray

A chest x-ray was reported as normal.

Which of the following are indicated? (Click on the correct answer to proceed to the second of five pages)

1. Chest CT scan
2. Endoscopy/bronchoscopy
3. Pulmonary function testing
4. 1 and 3
5. All of the above 

Cite as: Smith ML. March 2017 pulmonary case of the month. Southwest J Pulm Crit Care. 2017;14(3):89-93. doi: https://doi.org/10.13175/swjpcc014-17 PDF

Jamie Bering, MD

Lewis J. Wesselius, MD

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ

History of Present Illness

The patient is a 53-year-old woman transferred for acute respiratory failure and hemoptysis. She has a prior history of antiphospholipid syndrome and recurrent diffuse alveolar hemorrhage (DAH). She was admitted to another hospital about 2 weeks prior to transfer with hypoxic respiratory failure which ultimately required intubation. Bronchoscopy revealed a bloody aspirate raising concerns for recurrent DAH. She was started on high-dose solumedrol and extubated after 4 days. One week later, her respiratory status decompensated and her chest x-ray showed worsening diffuse bilateral opacities concerning for recurrent DAH. She was transferred to the Mayo Clinic Arizona for further evaluation. Upon arrival, she required 50% FiO2 by face mask to maintain adequate oxygenation and was started on broad-spectrum antibiotics. Her corticosteroids were tapered to 20 mg prednisone daily.

Past Medical History, Social History and Family History

She has a history of a mitral valve replacement with a St. Jude’s mechanical mitral valve and was on chronic anticoagulation with warfarin. In addition, there was a history of moderate aortic stenosis with moderate aortic insufficiency.

She had a history of diffuse alveolar hemorrhage, antiphospholipid antibody syndrome and possible systemic lupus erythematosus.

Medications

• Dapsone 100mg daily
• Ethacrynic acid 75mg daily
• Gabapentin 900mg QHS
• Lisinopril 20mg daily
• Meropenem 1g Q8 hrs
• Metoprolol 50 mg BID
• Prednisone 20mg daily
• Simvastatin 40mg QHS
• Vancomycin 1.5g Q12 hrs
• Warfarin 4mg T,F; 3mg SMWRSa

Physical Examination

• Vitals: T 36.3^◦ C; HR 79 beats/min; BP 100/63 mm Hg; RR 26 breaths/min; SpO2 99% face mask
• Gen: no acute distress
• HEENT: hematoma on chin
• Lungs: clear to auscultation and percussion
• Cardiac: Mechanical valve click

Laboratory

• CBC: WBC 15,900 cells per microliter (mcL); Hemoglobin 9.1 g/dL; hematocrit 29%; platelet count 156,000 cells per microliter.
• Electrolytes: within normal limits.
• BUN and creatinine: within normal limits.
• Blood sugar: 220 mg/dL.

Radiography

Her initial chest x-ray is shown in Figure 1.

Figure 1. Initial chest radiograph.

Which of the following best describes the chest x-ray? (Click on the correct answer to proceed to the second of four pages)

1. Diffuse lung consolidation
2. Previous median sternotomy
3. Previous mitral valve replacement
4. 1 and 3
5. All of the above

Cite as: Bering J, Wesselius LJ. January 2017 pulmonary case of the month. Southwest J Pulm Crit Care. 2016;14(1):1-5. doi: https://doi.org/10.13175/swjpcc146-16 PDF

Lewis J. Wesselius, MD

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ

Pulmonary Case of the Month CME Information

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive 0.25 AMA PRA Category 1 Credits™ for each case they complete. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity. 

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Lewis J. Wesselius, MD.  All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity.

Learning Objectives:
As a result of this activity I will be better able to:

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at Banner University Medical Center Tucson

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None

History of Present Illness

The patient is a 29-year-old man who presented to the emergency room with right-sided pleuritic chest pain, fever, cough, and progressive dyspnea over 2 weeks.

Past Medical History, Social History and Family History

He had no prior significant medical issues and had been well until 2 weeks ago. A native of India, he has been in the US for about 5 months and works at American Express. He is a nonsmoker. Family history is noncontributory.

Physical Examination

• Vitals signs: Temperature 38.0^◦ C, Blood Pressure 155/85 mm Hg, Heart Rate 140 beats/min, Respirations 24 breaths/min
• General: Appears to be in moderate pain and respiratory distress
• Lungs: Decreased breath sounds on the right
• Heart: regular rhythm with a tachycardia
• Abdomen: unremarkable
• Extremities: unremarkable
• Neurologic: unremarkable

Radiography

His initial chest x-ray is shown in Figure 1.

Figure 1. Initial chest radiograph.

Which of the following best describes the chest x-ray? (Click on the correct answer to proceed to the second of seven pages)

1. Elevated right hemidiaphragm
2. Large right pleural effusion
3. Right lower lobe and middle lobe consolidation
4. Right lung atelectasis
5. None of the above

Cite as: Wesselius LJ. December 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016;13(6):268-75. doi: https://doi.org/10.13175/swjpcc122-16 PDF

November 2016 Pulmonary Case of the Month

Anjuli M. Brighton, MB, BCh, BAO

Tania Jain, MBBS

Alan H. Bryce, MD

Ramachandra R. Sista, MD

Robert W. Viggiano, MD

Lewis J. Wesselius, MD

Pulmonary and Hematology/Oncology Departments

Mayo Clinic Arizona

Scottsdale, AZ USA

Pulmonary Case of the Month CME Information

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive 0.25 AMA PRA Category 1 Credits™ for each case they complete. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity. 

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Anjuli M. Brighton, MB.  All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity.

Learning Objectives:
As a result of this activity I will be better able to:

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at Banner University Medical Center Tucson

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None

History of Present Illness

Our patient is a 76-year-old gentleman  who was referred based on an abnormal CT scan. He has a history of metastatic melanoma and had begun immunotherapy with pembrolizumab 10 months prior to admission. He had low grade fevers and chills and some dyspnea on exertion and dry cough. He also had a 6-8 pound weight loss over 4 weeks.

PMH, SH and FH

He has a history of hairy cell leukemia since 2009; squamous and basal cell cancers; and diabetes on insulin. He is a retired commercial banker and has a 15 pack-year smoking history.

Physical Examination

Physical examination showed and SpO2 of 90% on room air. His lungs were clear. He had numerous depigmented lesions on his skin.

Radiography

A thoracic CT scan was performed (Figure 1) and compared to a scan done 3 months prior which was considered unremarkable.

Figure 1. Video of representative images of contrast-enhanced thoracic CT scan in lung windows.

Which of the following best describe the CT scan? (Click on the correct answer to proceed to the second of four pages)

1. Normal
2. Mosaic pattern of lung attenuation
3. Numerous bronchial-associated ground glass opacities
4. Numerous pulmonary nodules
5. Numerous pulmonary nodules with a halo sign

Cite as: Brighton AM, Jain T, Bryce AH, Sista RR, Viggiano RW, Wesselius LJ. November 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016:13(5):191-5. doi: http://dx.doi.org/10.13175/swjpcc098-16 PDF

Coya T Lindberg, BS¹

Ryan R Nahapetian, MD²

F Zahra Aly, MD, PhD, FRCPath³

¹University of Arizona College of Medicine Tucson, Tucson, AZ

²Division of Pulmonary, Allergy, Critical Care, and Sleep Medicine, University of Arizona, Tucson, AZ

³Brody School of Medicine at East Carolina University, NC

Pulmonary Case of the Month CME Information

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive 0.25 AMA PRA Category 1 Credits™ for each case they complete. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity. 

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Coya Lindberg, BS.  All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity.

Learning Objectives:
As a result of this activity I will be better able to:

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at Banner University Medical Center Tucson

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None

A 49-year-old man presented with chest discomfort to an outside medical facility in Arizona. He was previously healthy and had no chronic medical diseases. Physical examination was unremarkable and he was afebrile. A chest X-ray was performed (Figure  1).

Figure 1. Initial chest x-ray

Which of the following is most likely? (Click on the correct answer to proceed to the second of five panels)

1. There is a large right chest mass
2. There is a loculated pleural effusion in the minor fissure
3. There is a right ventricular aneurysm
4. There is right lower lobe consolidation
5. There is right middle lobe consolidation

Cite as: Lindberg CT, Nahapetian RR, Aly FZ. October 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016;13(4):152-8. doi: http://dx.doi.org/10.13175/swjpcc096-16 PDF

Anjuli M. Brighton, MB, BCh, BAO

Kathryn E. Williams, MB, BCh, BAO

Lewis J. Wesselius, MD

Pulmonary Department

Mayo Clinic Arizona

Scottsdale, AZ USA

Pulmonary Case of the Month CME Information

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive 0.25 AMA PRA Category 1 Credits™ for each case they complete. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity. 

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Anjuli M. Brighton, MB.  All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity.

Learning Objectives:
As a result of this activity I will be better able to:

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at Banner University Medical Center Tucson

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None

History of Present Illness

The patient is 54-year-old man with type 1 diabetes mellitus admitted for diabetic ketoacidosis (DKA). He complained of somnolence, nausea and vomiting and right foot pain. He had been admitted 2 weeks earlier for right foot gangrene. He had been receiving daptomycin for his right foot gangrene.

PMH, SH and FH

He had a previous history of osteomyelitis, perianal abscess, maxillary abscess, Candida esophagitis, transient ischemic attack, and peripheral vascular disease. He had previous amputations along with thrombectomy/ embolectomy/bypass. He was a former Marine and construction worker with ongoing cigarette use. Family history was noncontributory.

Physical Examination

• Febrile to 38.2ºC
• Crackles bilaterally
• Transmetatarsal stump with dry gangrene

Radiography

An admission chest x-ray was performed (Figure 1).

Figure 1. Admission portable AP of chest.

Which of the following are appropriate at this time? (Click on the correct answer to proceed to the second of four panels)

1. Blood and wound cultures
2. Empiric antibiotics including coverage for Staphylococcus aureus
3. Intravenous insulin and fluids
4. Serially monitor renal function and electrolytes
5. All of the above

Cite as: Brighton AM, Williams KE, Wesselius LJ. August 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016;13(2):40-5. doi: http://dx.doi.org/10.13175/swjpcc070-16  PDF 

Kashif Yaqub, MD

Robert Viggiano, MD

Imran S. Malik, MD

Zayn A. Mian

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ USA

Pulmonary Case of the Month CME Information

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive 0.25 AMA PRA Category 1 Credits™ for each case they complete. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity. 

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Kashif Yaqub, MD.  All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity.

Learning Objectives:
As a result of this activity I will be better able to:

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at Banner University Medical Center Tucson

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None

History of Present Illness

A 53 year-old woman presented to the emergency department with dyspnea over 3 weeks. There was no cough, wheezing or other complaints.

Past Medical History, Social History and Family History

She has no significant past medical history. She was a nonsmoker. Family history was unremarkable.

Physical Examination

Decreased breath sounds over the left lower chest but otherwise unremarkable.

Laboratory Evaluation

• Elevated white blood cell count with a left shift
• Na+ 130 mEq/L
• 10-20 RBCs on urinalysis

Radiographic Evaluation

A CT angiogram of the chest was performed for possible pulmonary embolus (Figure 1).

Figure 1. Representative images from the thoracic CT in lung windows (A) and soft tissue windows (B).

Which of the following is appropriate at this time? (Click on the correct answer to proceed to the second of six panels)

1. Biopsy of left pleural mass
2. Bone marrow aspiration
3. Diuretics for congestive heart failure
4. Empiric antibiotics for empyema
5. Thoracentesis

Cite as: Yaqub K, Viggiano R, Malik IS, Mian AZ. July 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016;13(1):1-8. doi: http://dx.doi.org/10.13175/swjpcc051-16 PDF

Jennifer M. Hall, DO

Banner University Medical Center Phoenix

Phoenix, AZ USA

Pulmonary Case of the Month CME Information

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive 0.25 AMA PRA Category 1 Credits™ for each case they complete. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity. 

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Jennifer M. Hall, DO.  All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity.

Learning Objectives:
As a result of this activity I will be better able to:

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at Banner University Medical Center Tucson

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None

History of Present Illness

A 24-year-old woman was diagnosed with pneumonia while on her honeymoon in Europe. She received an unknown treatment as an outpatient. When she returned a repeat chest x-ray showed persistent lung infiltrates. At that time she was asymptomatic. She was referred to pulmonary for further evaluation.

Past Medical History, Family History, Social History

• Idiopathic thrombocytopenic purpura at age 8
• Recurrent “bronchitis” since childhood
• Lifelong non-smoker, occasional ETOH, no illicit drugs
• No significant family history, other than hypertension in her father

Physical Examination

She had bibasilar fine crackles (fine) otherwise her physical examination was unremarkable.

Radiography

A chest x-ray was performed and interpreted as showing bilateral basilar interstitial infiltrates (Figure 1).

Figure 1. Chest x-ray showing bibasilar interstitial infiltrates.

To better define the abnormalities on chest x-ray a thoracic CT scan was performed (Figure 2).

Figure 2. Representative images from the thoracic CT scan in lung windows.

Based on the CT scan, which of the following diagnosis is least likely? (Click on the correct answer to proceed to the second of five panels)

1. Hematogenous metastasis
2. Hypersensitivity pneumonitis
3. Lymphangitic metastasis
4. Miliary tuberculosis
5. Sarcoidosis

Cite as: Hall JM. May 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016 May;12(5):165-70. doi: http://dx.doi.org/10.13175/swjpcc037-16 PDF 

Lewis J. Wesselius, MD

Rodrigo Cartin-Ceba, MD 

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ

Pulmonary Case of the Month CME Information

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive 0.25 AMA PRA Category 1 Credits™ for each case they complete. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity. 

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Lewis J. Wesselius, MD.  All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity.

Learning Objectives:
As a result of this activity I will be better able to:

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at Banner University Medical Center Tucson

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None

History of Present Illness

The patient is a 75-year-old woman who presented with a chest mass incidentally found on chest x-ray. She was asymptomatic

Past Medical History, Social History and Family History

She has no significant past medical history and has never smoked. Family history is noncontributory.

Physical Examination

Physical examination was unremarkable.

Radiography

A thoracic CT scan was performed (Figure 1).

Figure 1. Representative thoracic CT scan in soft tissue windows showing  a mass (arrow).

Which of the following are possible causes of the mass? (Click on the correct answer to proceed to the second of four panels)

1. Lymphoma
2. Teratoma
3. Thymoma
4. Thyroid carcinoma
5. All of the above 

Cite as: Wesselius LJ, Cartin-Ceba R. April 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016 Apr;12(4):126-9. doi: http://dx.doi.org/10.13175/swjpcc032-16 PDF 

Peter V. Bui, MD

Sapna Bhatia, MD

Dona J. Upson, MD, MA

Department of Internal Medicine

Division of Pulmonary, Critical Care, and Sleep Medicine

The University of New Mexico and Raymond G. Murphy VA Medical Center

Albuquerque, NM

Abstract

Introduction: Chronic pulmonary hypertension (PH) can display acute elevations in pulmonary arterial pressure (PAP) in the setting of hypoxemia, pulmonary embolism (PE), and possibly sepsis.

Case Description: A 68-year-old man with chronic obstructive pulmonary disease, heart failure, recent tobacco cessation, and recent 2-vessel coronary artery bypass grafting (CABG) presented with one to two weeks of respiratory symptoms and syncope on the day of admission. He was found to have a urinary tract infection and Escherichia coli bacteremia. Transthoracic echocardiography found a systolic PAP of 100-105 mmHg, increased from a mean PAP of 32 mmHg before CABG. PE was not seen on computed tomography angiography (CTA). Ventilation-perfusion scan two days later found evidence of subsegmental PE. PAP prior to discharge was 30-35 mmHg plus right atrial pressure.

Conclusion: PAP can rise substantially in the acute or subacute setting, particularly when multiple disease processes are involved, and decrease to (near) baseline with proper therapy. Chronic PH may even be protective. In a complex clinical setting with multiple possible etiologies for elevated PAP, clinicians should have a high suspicion for PE despite a negative CTA.

Abbreviation List

ADHF acute decompensated heart failure

CABG coronary artery bypass grafting

COPD chronic obstructive pulmonary disease

CTA computed tomography angiography

CXR conventional chest radiograph
EF ejection fraction

HCAP healthcare-associated pneumonia

HFpEF heart failure with preserved ejection fraction

INR international normalized ratio

LV left ventricle

PAP pulmonary arterial pressure

PCWP pulmonary capillary wedge pressure

PE pulmonary embolism

PH pulmonary hypertension

RA right atrium/atrial

RV right ventricle/ventricular

RHC right heart catheterization

SaO2 arterial oxygen saturation

TTE transthoracic echocardiography

UTI urinary tract infection

VTE venous thromboembolism

VQ ventilation-perfusion

Introduction

Pulmonary hypertension (PH) is classified into five groups (1). In the United States, the incidence and prevalence of PH and each of its five groups are largely unclear. Group 2, due to left heart disease, has a prevalence as high as 83% by transthoracic echocardiography (TTE) in patients with heart failure with preserved ejection fraction (HFpEF) (2). For group 3, due to chronic lung disease, in a study measuring pulmonary arterial pressure (PAP) by right heart catheterization (RHC), the prevalence of PH among patients with chronic obstructive pulmonary disease (COPD) was 36% (3). Changes in PAP in the setting of acute or subacute pulmonary embolism (PE) are unknown. We present a patient found to have transient severely elevated PAP in the setting of a negative computed tomography angiography (CTA) and positive ventilation-perfusion (VQ) scan with distractors including HFpEF, COPD, and sepsis.

Case Presentation

A 68-year-old man with severe COPD on four liters per minute of supplemental oxygen, a 50-pack-year smoking history with cessation two months before admission, HFpEF, 3-vessel coronary artery disease, myocardial infarction involving the left circumflex artery, recent 2-vessel coronary artery bypass grafting (CABG), recurrent urinary tract infections (UTIs), chronic prostatitis, and prostatic calculi presented after a syncopal episode. One day prior to admission, he experienced fevers to 40°C and shaking chills. On the day of admission, the patient woke up struggling for breath and experienced syncope while getting out of bed. He had been having altered mental status and one week of productive cough with greenish sputum. He did not have any other respiratory, urinary, and constitutional symptoms. He presented to an outside hospital, where he was treated for presumed sepsis secondary to a UTI and started on an antibiotic. He was transferred to our facility and admitted for a UTI and possible healthcare-associated pneumonia (HCAP).

At presentation at our facility, vital signs included a temperature of 36.8°C, heart rate of 87 beats per minute, blood pressure of 124 mmHg / 69 mmHg, respiratory rate of 18 breaths per minute, and oxygen saturation of 96% on three-to-four liters per minute of supplemental oxygen. The physical examination was notable for expiratory wheezing and trace lower extremity edema. White blood cell was 13.5 K/mm³, neutrophilia of 80.4%, troponin I of 0.048 ng/mL, N-terminal pro-brain natriuretic peptide of 2800 pg/mL, and urinalysis suggestive of UTI. An arterial blood gas was deemed unnecessary for unchanged supplemental oxygen, normal mentation, and lack of respiratory distress. Electrocardiography showed normal sinus rhythm, nonspecific ST and T wave abnormalities, and previously identified signs of inferior-posterior infarction without evidence of acute right heart strain. He did not receive chemoprophylaxis for venous thromboembolism (VTE) because of possible surgical intervention.

Ten days before admission (Table 1), he made a long distance drive to see Cardiothoracic Surgery for post-CABG follow-up.

Table 1. Timeline of events surrounding the patient’s hospitalization. Computed tomography angiography (CTA). Coronary artery bypass grafting (CABG). Conventional chest radiographs (CXR). Ejection fraction (EF). International normalized ratio (INR). Pulmonary arterial pressure (PAP). Pulmonary embolism (PE). Transthoracic echocardiography (TTE). Urinary tract infection (UTI). Ventilation-perfusion (VQ).

He had an increased oxygen requirement from three-to-four to four-to-five liters per minute, bilateral lower extremity edema, and supratherapeutic international normalized ratio (INR) of 4.4 on warfarin for postoperative atrial fibrillation, that had since resolved. TTE showed a normal sized left ventricle (LV), LV ejection fraction of 50-55%, inferolateral wall akinesis, basal inferior wall akinesis, mildly dilated right ventricle (RV), mildly reduced RV systolic function, mildly dilated right atrium (RA), PAP of 70-80 mmHg, and right atrial pressure of 10-15 mmHg. The patient refused hospitalization. Furosemide and metolazone were increased, and warfarin discontinued. His INR was 1.4 four days before admission.

Outpatient medications included amiodarone, simvastatin 10 mg, aspirin 81 mg, metoprolol 25 mg three times a day, and furosemide 80-100 mg daily. Six weeks prior to admission, RHC found RA pressure of 12 mmHg, RV pressure of 45/15 mmHg, PAP of 45/25 mmHg with a mean pressure of 32 mmHg, pulmonary capillary wedge pressure (PCWP) of 15 mmHg, cardiac output of 7.98 L/min, cardiac index of 3.55 L/min/m², SaO2 97%, mixed venous saturation of 71%, pulmonary vascular resistance of 2.1 dynes-sec-cm^-5, and system vascular resistance of 782 dynes-sec-cm^-5.

At presentation, his respiratory symptoms were attributed to pneumonia and not acute decompensated heart failure (ADHF) or COPD. Initial antibiotics for HCAP and UTI coverage were cefepime and vancomycin. Conventional chest radiographs (CXRs) (Figure 1) on hospital day 0 and the CTA a few days later were not suggestive of pneumonia.

Figure 1. Conventional radiography of the chest showing no acute cardiopulmonary findings but enlarged pulmonary arteries.

An influenza viral panel was negative. Outside blood cultures grew Escherichia coli, while blood, urine, and sputum cultures from our facility were negative. CXRs over the following week were unchanged.

Because of the elevated PAP found prior to admission, Pulmonology was consulted for pulmonary hypertension. TTE on hospital day 3 found a normal RV size, mildly reduced RV systolic function, mildly dilated RA, systolic PAP of 100-105 mmHg, and RA pressure of <5 mmHg. His Wells score for PE was 3.0 to 4.5, suggesting moderate risk (4). The CTA did not identify a PE. In view of a high suspicion for PE, Pulmonology reviewed the CTA with a chest radiologist, who noted that the images were of suboptimal thickness. A VQ scan (Figure 2) was ordered on hospital day 5 and showed multiple bilateral VQ defects consistent with a high probability for PE.

Figure 2. Ventilation-perfusion scan on hospital day 5 showing multiple bilateral ventilation-perfusion defects. The study was consistent with a high probability for pulmonary embolism.

Ultrasound Doppler studies of the lower extremities on hospital day 6 were normal. Repeat TTE on hospital day 5 found a normal sized LV, LV EF of 45-50%, basal inferior wall akinesis, inferolateral wall akinesis, mildly dilated RV, mildly reduced RV systolic function, normal RA size, and PAP of 30-35 mmHg plus RA pressure. The patient was discharged on anticoagulation and antibiotics.

Discussion

We describe a patient who developed transiently elevated PAP in the setting of sepsis secondary to UTI and E. coli bacteremia, acute or subacute PE, HFpEF, and COPD. At baseline, he likely had PH from COPD and HFpEF out of proportion to PCWP. The increased PAP to 70-80 mmHg 1.5 weeks prior to admission was thought to be due to the hypervolemia observed by outpatient Cardiothoracic Surgery. Recent CABG, long-distance travel, and infection predisposed him to VTE. PE may have caused the dyspnea and syncope experienced on the day of admission. The negative CTA and systolic PAP of 100-105 mmHg on TTE on hospital day 3 may have reflected movement of PE downstream to the subsegmental or smaller arteries and thus inability to be seen on CTA, especially given the suboptimal thickness of the images. Volume status and vascular changes in the setting of recent hypervolemia, possibly due to HF or PH, and concurrent infection may have contributed to this elevated PAP. In light of the presentation of unexplained dyspnea and syncope, Wells score of 3.0 to 4.5, and elevated PAP, suspicion for PE was high. The high pretest probability of PE precipitated obtaining a VQ scan on hospital day 5. The scan supported the presence of bilateral PE, likely in the subsegmental or smaller arteries. PAP of 30-35 mmHg on subsequent TTE suggested resolution of PE.

CTA is the most common study to diagnose acute PE. A number of early studies found CTA to be at least as equivalent in sensitivity and specificity to VQ scan (5-10). Studies using data from the Prospective Investigation of Pulmonary Embolism Diagnosis (PIOPED) II found the sensitivity and specificity of CTA to be 83% and 96%, respectively, and of VQ scan to be 77.4%. and 97.7%, respectively (11, 12). However, CTA miss up to 20% to 36% of PE in subsegmental and smaller arteries (13-15). A meta-analysis of Wells criteria found sensitivity and specificity of 0.84 and 0.58, respectively, for a cutoff score of less than 2 and 0.60 and 0.80, respectively, for a cutoff score of 4 or less (16).

The degree to which HFpEF, COPD exacerbation, acute or subacute PE, and sepsis affect PAP has had limited investigation. In patients with ADHF, Aronson et al. (17) found PH in 42.6% and pulmonary arterial systolic pressures as high as 70 to 80 mmHg. Sibbald et al. (18) found that 57% of septic patients developed PH and had increases in mean PAP (27 ± 7 mmHg in septic patients found to have PH versus 15 ± 3 mmHg in septic patients found not to have PH, p < 0.01). In patients with chronic bronchitis who went into acute respiratory failure, Abraham et al. (19) found transient increases in mean PAP of approximately 15-20 mmHg (mean PAP 52.2 mmHg at admission and 36.5 mmHg prior to discharge).

The mechanism of PH can be mechanistically complex or intuitively simple. PH involves changes in nitric oxide, endothelin, thromboxane, and prostacyclin pathways, among other possible cellular and biological pathways of pulmonary endothelial dysfunction (20-25). Proinflammatory signals such as during infection affect these pathways (26). Other mechanisms include vascular congestion in HF, physical obstruction from PE, and vasoconstriction in hypoxemia leading to elevated PAP and subsequent PH (27-31). In our patient, there was likely a combination of several mechanisms contributing to his elevated PAP and PH.

Our patient may have been able to tolerate such an acute rise in pulmonary hypertension because of the effects of chronic pulmonary hypertension, although the pathophysiologic mechanisms have not been fully elucidated. Vonk-Noordegraaf et al. (32) described adaptive and maladaptive remodeling in pulmonary hypertension. In adaptive remodeling, the RV size is normal to moderately dilated; the RV mass/volume ratio is higher than normal, as seen in concentric remodeling; and the RVEF is normal to mildly decreased. For our patient, multiple TTE suggested adaptive remodeling, although our cardiologists did not comment on concentric remodeling.

We present the case of a patient with multiple comorbidities including HFpEF and COPD that likely caused the baseline PH seen on previous RHC and the subsequent development of severely increased PAP in the setting of sepsis and acute or subacute PE. His underlying chronic PH may have been protective given that he did not develop acute right HF from the sudden increase in PAP, and survived. The transient elevation in PAP in our patient reiterates that many disease processes can affect PAP, whether directly or indirectly, through simple or complex mechanisms. A CTA to evaluate possible PE should be verified to have the proper technique. A high suspicion for PE in the setting of acute PH despite a negative CTA warrants further investigation.

Acknowledgements

Dr. Loren Ketai of the Department of Radiology of The University of New Mexico reviewed the images of the computed tomography angiography and ventilation-perfusion scans.

Cecilia Kieu assisted in the preparation of the figures for this manuscript.

References

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26. Toney BM, Fisher AJ, Albrecht M, Lockett AD, Presson RG, Petrache I, Lahm T. Selective endothelin-A receptor blockade attenuates endotoxin-induced pulmonary hypertension and pulmonary vascular dysfunction. Pulm Circ. 2014 Jun;4(2):300-10. [CrossRef] [PubMed]
27. Barman SA. Potassium channels modulate hypoxic pulmonary vasoconstriction. Am J Physiol. 1998 Jul;275(1 Pt 1):L64-70. [PubMed]
28. Setaro JF, Cleman MW, Remetz MS.The right ventricle in disorders causing pulmonary venous hypertension. Cardiol Clin. 1992 Feb;10(1):165-83. [PubMed]
29. Gelband CH, Gelband H. Ca2+ release from intracellular stores is an initial step in hypoxic pulmonary vasoconstriction of rat pulmonary artery resistance vessels. Circulation. 1997 Nov 18;96(10):3647-54. [CrossRef] [PubMed]
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31. Wang J, Juhaszova M, Rubin LJ, Yuan XJ. Hypoxia inhibits gene expression of voltage-gated K+ channel alpha subunits in pulmonary artery smooth muscle cells. J Clin Invest. 1997 Nov 1;100(9):2347-53. [CrossRef] [PubMed]
32. Vonk-Noordegraaf A, Haddad F, Chin KM, Forfia PR, Kawut SM, Lumens J, Naeije R, Newman J, Oudiz RJ, Provencher S, Torbicki A, Voelkel NF, Hassoun PM. Right heart adaptation to pulmonary arterial hypertension: physiology and pathobiology. J Am Coll Cardiol. 2013 Dec 24;62(25 Suppl):D22-33. [CrossRef] [PubMed]

Cite as: Bui PV, Bhatia S, Upson DJ. Pulmonary embolism and pulmonary hypertension in the setting of negative computed tomography. Southwest J Pulm Crit Care. 2016 Mar;12(3):116-25. doi: http://dx.doi.org/10.13175/swjpcc016-16 PDF 

Ramachandra R. Sista, MD

Maxwell L. Smith, MD

 Lewis J. Wesselius, MD

Departments of Pulmonary Medicine and Pathology

Mayo Clinic Arizona

Scottsdale, AZ

Pulmonary Case of the Month CME Information

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive 0.25 AMA PRA Category 1 Credits™ for each case they complete. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity. 

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Ramachandra R. Sista, MD. All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity.

Learning Objectives:
As a result of this activity I will be better able to:

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at Banner University Medical Center Tucson

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None

History of Present Illness

A 74-year-old man was referred for a recently identified right pleural effusion and dyspnea on exertion.  

Past Medical History, Family History and Social History

He has a history of anemia, hypertension, and prostate cancer with a prostatectomy in 2015. He is a life-long nonsmoker and has no occupational exposures. Family history is noncontributory.

Physical Examination

He had diminished breath sounds at the right lung base and a palpable spleen. Otherwise the physical examination was unremarkable.

Laboratory

CBC: hemoglobin  8.5 g/dL, white blood count  7.7 X 109 cells/L,  platelets 357 X 109 cells/L.

Radiography

A chest X-ray showed a right pleural effusion. Representative images from the CT scan are shown in Figure 1.

Figure 1. Representative images from the CT scan.

Which of the following is the most likely diagnosis? (Click on the correct answer to proceed to the second of five panels)

1. Empyema
2. Lung cancer
3. Tuberculosis
4. Usual interstitial pneumonia
5. Valley fever (coccidioidomycosis)

Cite as: Sista RR, Smith ML, Wesselius LJ. March 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016;12(3):74-80. doi: http://dx.doi.org/10.13175/swjpcc020-16 PDF

Ashley Garrett, MD

Karen Swanson, DO

Pulmonary Department

Mayo Clinic Arizona

Scottsdale, AZ USA

History of Present Illness

A 77-year-old woman presented with dyspnea on exertion which was progressive for several years.  She remains active but is "winded" with vigorous exercise or altitude. She denied cough, orthopnea , paroxysmal nocturnal dyspnea, chest pain or a prior history of pulmonary infections.  

Past Medical, Social and Family History

She has a history of a seizure disorder and fibromyalgia. She has never smoked or drank and has no history of occupational exposures. There was no family history of respiratory disease.

Physical Examination

Her physical exam was unremarkable.

Current Medications

Topamax and alprazolam.

Radiography

A chest radiograph was performed (Figure 1).

Figure 1. Initial chest radiography.

Which of the following describe the initial chest x-ray? (Click on the correct answer to proceed to the second of five panels)

1. The chest x-ray is normal
2. There is a left lower mass
3. There is bronchial dilatation and edema
4. There is hyperinflation
5. Three is a retrocardiac left lower pneumonia

Cite as: Garrett A, Swanson K. February 2016 pulmonary case of the month. Southwest J Pulm Crit Care. 2016;12(2):34-40. doi: http://dx.doi.org/10.13175/swjpcc012-16 PDF

Peter V. Bui¹

Sapna Bhatia²

Ali I. Saeed²

¹Department of Internal Medicine

²Division of Pulmonary, Critical Care, and Sleep Medicine

The University of New Mexico

Albuquerque, NM, USA

Abstract

Introduction: Cases of pulmonary embolism (PE) concurrent with Mycoplasma pneumoniae infection are rare in the medical literature. We describe a patient with M. pneumoniae bronchiolitis and pneumonia who developed multiple right-sided, sub-segmental PE.

Case Description: A 54-year-old man presented following one week of respiratory and constitutional symptoms. He was admitted for respiratory distress and started on ceftriaxone, azithromycin, and oseltamivir. Because of a lack of clinical improvement, antibiotics were escalated to vancomycin and piperacillin-tazobactam. M. pneumoniae IgM and IgG serologies returned positive, and antibiotics were narrowed to azithromycin, with clinical improvement and gradual decrease in supplemental oxygen requirement. One week into the hospitalization, the patient abruptly developed an increased oxygen requirement. Computed tomography angiography (CTA) of the chest found stable M. pneumoniae bronchiolitis and pneumonia and the interval development of multiple right-sided, sub-segmental PE. He was treated with unfractionated and then low-molecular-weight heparin as a bridge to warfarin, azithromycin, and a prednisone taper. In the outpatient setting, repeat CTA revealed resolution of M. pneumoniae infection and PE. 

Discussion: Although the mechanism and association are unclear, other case reports have proposed that M. pneumoniae infection promotes hypercoagulability or a prothrombotic state, predisposing patients to thromboembolism. In a patient with M. pneumoniae infection who develops sudden respiratory distress or failure despite appropriate treatment, clinicians should have a high suspicion for PE, and a CTA should be considered as part of further evaluation.

Introduction

Mycoplasma pneumoniae is one of thirteen Mycoplasma species isolated from humans and less commonly causes lower respiratory tract infections, of which atypical pneumonia occurs at higher rates (1). These lower respiratory tract infections have been reported to present similarly to other disease processes such as asthma and pulmonary embolism (PE) (2, 3). M. pneumoniae pneumonia typically has a benign course with low mortality. A study by von Baum et al. found a mortality of 0.7% in patients with M. pneumoniae pneumonia, with the deaths occurring in hospitalized patients (4). Despite this low mortality, rare complications may contribute to morbidity and mortality, although to what degree, if any, is unclear. A case report in the medical literature describes a PE and a hypercoagulable state associated with M. pneumoniae pneumonia in an adult during the peri-infectious period (5). We present a case with radiographic evidence of the interval development of multiple segmental PE in a patient with M. pneumoniae bronchiolitis and pneumonia.

Case Description

A 54-year-old man with a 15-pack-year smoking history, positive purified protein derivative treated with isoniazid, occupational exposures including asbestos and dust, and a current history of ethanol abuse presented to the emergency department with a one-week history of a productive cough with yellow sputum, weakness, shortness of breath, and dyspnea on exertion. He also noticed diffuse papular cutaneous lesions over his back.

In the emergency department, he was hypoxic with a need for supplemental oxygen. Cardiopulmonary examination was unremarkable. Initial laboratory studies including complete blood count, chemistry panel, and hepatic function panel were notable for a leukocytosis of 13.6 k/μL with a neutrophilia of 83%, aspartate transaminase of 108 units/L, alanine transaminase of 152 units/L, alkaline phosphatase of 175 units/L, and total bilirubin of 1.5 mg/dL, and creatine kinase of 563 units/L. Conventional chest radiograph (Figure 1) showed a left lower lobe infiltrate.

Figure 1. Conventional chest radiograph on day zero of the hospitalization. The images show a left lower lobe infiltrate.

The patient was admitted to the hospital and started on ceftriaxone and azithromycin for community-acquired pneumonia as well as oseltamivir over concerns for influenza.

During the initial hospitalization, the patient required supplemental oxygen for hypoxia with a rapid increase in fractional inspired oxygen (F_iO₂) to maintain oxygen saturation above 90%. Because of a lack of clinical improvement, antibiotics were broadened to include vancomycin and piperacillin-tazobactam. Since he continued to require a F_iO₂ of 60% on day four of the hospitalization, additional workup for atypical bacterial, viral, and fungal pathogens were performed after consultation with pulmonology. Acid-fast bacillus cultures and stains were negative. Sputum cultures were not obtained. An arterial blood gas prior to evaluation by Pulmonology found a pH of 7.42, partial pressure of carbon dioxide of 38 mmHg, partial pressure of oxygen of 86 mmHg, HCO₃ of 24 mmol/L, and F_iO₂ of 95%. Computed tomography (CT) of the chest (Figure 2) showed extensive bronchiolitis with focal areas of consolidation involving bilateral lower lobes.

Figure 2. Computed tomography of the chest on day four of the hospitalization. The image shows an extensive bronchiolitis with focal areas of consolidation involving bilateral lower lobes.

Oseltamivir was discontinued after the respiratory viral panel returned negative. Broad spectrum antibiotics were narrowed to azithromycin after M. pneumoniae IgM and IgG serologies returned positive. His oxygen requirement gradually improved over the next two days, and he was transitioned to nasal cannula.

On day seven of his hospitalization, the patient suddenly developed moderate respiratory distress with an increase in oxygen requirement. CT angiography (CTA) of the chest (Figure 3) done at this juncture showed unchanged parenchymal findings with interval development of multiple sub-segmental pulmonary emboli in the right lung.

Figure 3. Computed tomography angiography of the chest on day five of the hospitalization. The images show unchanged parenchymal findings with interval development of multiple sub-segmental pulmonary emboli in the right lung (see white arrows in Figure 3A).

Doppler ultrasound found no evidence of deep venous thrombosis (DVT) in both lower extremities. He was subsequently started on therapeutic anticoagulation with unfractionated heparin and then low-molecular-weight heparin as a bridge to warfarin. The patient subsequently improved on a 14-day course of azithromycin 500 mg orally once daily and 3-month tapered course of prednisone 60 mg orally once daily for M. pneumoniae infection, a 3-month course of warfarin for the PE, and supplemental oxygen. During follow-up in the outpatient setting, CTA of the chest showed the infection and PE to have resolved, and all therapies related to the infection and PE were discontinued.

Discussion

We herein describe a case of M. pneumoniae bronchiolitis and pneumonia complicated by right-sided PE. The reported occurrences of venous thromboembolism (VTE) during M. pneumoniae infection are limited to case reports. In our review of the literature, we found one case of M. pneumoniae infection associated with PE in the adult population. Ascer et al. (5) presented the case of a 28-year-old male with right-sided pneumonia and right-sided PE who was found to have antiphospholipid antibodies. For the PE, this patient was successfully treated with recombinant tissue-type and plasminogen activator and heparin and was discharged with hydroxychloroquine sulphate, aspirin, and warfarin. However, Ascer did not publish additional follow up for this seemingly prothrombotic state. In a case without PE, Senda et al. (6) reported on a 21-year-old patient with a left middle cerebral artery embolus and DVT in bilateral femoral veins in the setting of a M. pneumoniae infection. This patient had a transient increase in prothrombin time, partial thromboplastin time, fibrin/fibrinogen degradation products, thrombin-antithrombin III-complex, antiphospholipid antibodies, and IgM anticardiolipin antibodies and decrease in protein C activity.

The pediatric medical literature has additional case reports linking M. pneumoniae to PE. Brown et al. (7) described a 6-year-old male child with M. pneumoniae pneumonia, right-sided ileofemoral thrombosis, and right-sided PE found to have anticardiolipin IgG and IgM antibodies, lupus anticoagulant, and acquired activated protein C resistance. This prothrombotic state subsequently resolved after treatment of the infection with antibiotics and the PE with unfractionated heparin and then dalteparin. In another case report, during workup for a 13-year-old male child with right-sided PE in the setting of a left lower lobe M. pneumoniae pneumonia, Graw-Panzer et al. (8) found lupus anticoagulant, anticardiolipin IgG and IgM antibodies, and an underlying protein S deficiency. The transient prothrombotic markers returned to normal levels during subsequent follow-up for his acute illness.

M. pneumoniae pulmonary infections have been reported in the pediatric medical literature to be associated with an underlying hypercoagulability. Creagh et al. (9) reported on a left femoral vein thrombosis in a 10-year-old female with M. pneumoniae pneumonia who was found to have type I familial antithrombin III deficiency. In another case report of two children describing splenic infarcts associated with M. pneumoniae pneumonia, Witmer et al. (10) found elevated D-dimer, lupus anticoagulant, and elevated anticardiolipin and β2-glycoprotein antibodies that resolved following successful treatment of the infection with antibiotics and a three-month course of anticoagulation and, in one patient, an additional course of aspirin (10). No specific etiology was found for the infarctions, but Witmer et al. attributed the infarctions to possible thrombosis. Other case reports in the pediatric literature that found antiphospholipid antibodies include a patient with cardiac thrombus and internal carotid artery occlusion (11, 12). However, in their report of right popliteal artery thrombosis in a 5-year-old male child with M. pneumoniae pneumonia and right popliteal artery thrombosis, Joo et al. (13) did not find abnormalities in their limited hypercoagulability workup.

Our lack of hypercoagulability workup limits comparison with the available medical literature. We did not perform a hypercoagulability workup because the patient did not meet any Wells criteria and did not have a family history of hypercoagulability. Based on the available case reports, the underlying pathophysiology can be inferred to be related to a transient formation of antiphospholipid antibodies during a M. pneumoniae infection. Additionally, the thromboembolism can be expected to occur within a short period of time following the onset of symptoms. The rate that hypercoagulability occurs in infected patients and the practical clinical relevance of such a prothrombotic state without or without an inherited or congenital deficiency are unknown at this time. These questions would benefit from further investigation.

An alternative interpretation is a preexisting hypercoagulability may predispose patients to M. pneumoniae infection, which can exacerbate the hypercoagulability, further increasing the risk of VTE. This interpretation may be relevant for the patients of Graw-Panzer et al. (8) and Creagh et al. (9) who had underlying hypercoagulable conditions and subsequently suffered M. pneumoniae infection and then developed VTE. The Worcester Venous Thromboembolism study found an association between infection and VTE, and Rosendaal’s review of the literature found an association between hypercoagulability and increased risk of thrombosis (14-16). With the available case reports and epidemiological studies, this alternative interpretation has not been elucidated.

In this report, we described the interval development of PE in a patient with M. pnuemoniae bronchiolitis and pneumonia. The mechanism for the hypercoagulability during M. pneumoniae infection is unclear. A CTA of the chest should be obtained if a patient with M. pneumonia infection fails to show clinical improvement or suddenly develops clinical worsening of his or her respiratory status, so as to exclude PE. However, clinicians should take into account that Mycoplasma pneumonia may present with the symptoms of PE (3).

Acknowledgements

We would like to acknowledge Cecelia Kieu for assisting in the preparation of the figures for this manuscript.

References

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Cite as: Bui PV, Bhatia S, Saeed AI. Interval development of multiple sub-segmental pulmonary embolism in Mycoplasma pneumoniae bronchiolitis and pneumonia. Southwest J Pulm Crit Care. 2015;11(6):277-83. doi: http://dx.doi.org/10.13175/swjpcc152-15 PDF 

Zachary M. Berg, MD

Kashif Yaqub, MD 

Brian Wojek, MD

Khang Tran, MD

Karen L. Swanson, DO

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ

History of Present Illness

The patient is a 70-year-old man with a history of a chronic dry cough for 5 years, who presented to the emergency department with worsening cough and shortness of breath.

Two weeks prior to symptom onset, was on trip in the United Kingdom, he developed gastroenteritis which spontaneously resolved.

Past Medical History, Social History, and Family History

• Old healed TB scar with positive PPD at 17 years of age prior to joining Air Force.  No treatment given and patient was asymptomatic from a pulmonary point of view since then.
• Squamous cell carcinoma of the skin on the scalp, status post excision complicated by osteomyelitis, status post surgical graft from hip with prolonged course of IV antibiotics in 2010.
• Fractured left clavicle, status post repair 20 years ago.
• Hay fever.
• Hyperlipidemia.
• Squamous cell carcinoma removed from left arm.
• Varicose veins, lower extremity.
• Married. Retired police officer. Does not smoke.
• Family history is noncontributory

Physical Examination

• General:  In moderate respiratory distress.  
• Vitals: SpO2 on room air of 65%, 94% on high flow oxygen.  Blood pressure 124/84, afebrile  
• Lungs:  Fine bibasilar crackles posteriorly.  
• Heart: Regular rhythm without murmur.
• The remainder of the physical examination was normal.

Laboratory Evaluation

• CBC: unremarkable except white blood cell count 20.5 x 10³ cells/ɥL, neutrophil predominant
• BNP: 366 pg/mL
• Mycobacterium Quantiferon: Positive
• Mycoplasma IgM: Positive at 1.18 U/L

Radiography

Initial chest x-ray is shown in Figure 1.

Figure 1. Initial chest x-ray.

What is the best next step in the patient's evaluation? (Click on the correct answer to proceed to the second of five panels)

1. Begin erythromycin or doxycycline for Mycoplasma pneumonia
2. Begin heparin for presumptive pulmonary embolism
3. Thoracic CT scan
4. 1 and 3
5. All of the above

Cite as: Berg ZM, Yaqub K, Wojek B, Tran K, Swanson KL. December 2015 pulmonary case of the month. Southwest J Pulm Crit Care. 2015;11(6):240-5. doi: http://dx.doi.org/10.13175/swjpcc146-15 PDF

Kristal Choi, MD

Lewis J. Wesselius, MD

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ

History of Present Illness

A 66 year-old woman was admitted to neurology with acute-onset dysarthria, right facial droop, and right-sided hemiparesis as a stroke alert. She also had a nonproductive cough and intermittent dyspnea for 4 months.

Past Medical History, Social History and Family History

• She has a history of hypertension and hyperlipidemia. 
• She smoked 1-2 packs/day for 15 years but quit 35 years ago. She drinks two glasses of wine per day.
• There is a family history of bowel and breast cancer.

Physical Examination

• Vital signs: T 36.8, HR 81, BP 129/75, RR 18, O2 sat 93% RA
• General: No acute distress. Awake and alert.
• Heart, abdomen, and lungs: No significant abnormalities
• Neurological: Mild right-sided nasolabial fold flattening.  Evidence of ptosis o the right eyelid. Hemiparesis on the right, the arm greater than leg. Sensation intact. Dysmetria on the right upper and lower extremities.

Laboratory Evaluation

• CBC: Hemoglobin 11.9 g/dL, white blood cells (WBC) 7,900 cells/mcL, platelets 290,000 cells/mcL
• Basic metabolic panel: Na+ 139 mEq/L, K+ 4 mEq/L, Cl- 100 mEq/L , bicarbonate 22 mEq/L, creatinine 0.7 mg/dL

Radiography

A head CT angiogram (CTA) was performed (Figure 1).

Figure 1. Representative images from CTA of the head.

Which of the following should be done next? (Click on the correct answer to proceed to the second of six panels)

1. Administer an intravenous injection of tissue plasminogen activator (TPA)
2. Administer detachable coils (coiling or endovascular embolization) or stereotactic radiosurgery
3. Begin an anti-convulsant and dexamethasone
4. 1 and 3
5. All of the above

Cite as: Choi K, Wesselius LW. November 2015 pulmonary case of the month. Southwest J Pulm Crit Care. 2015;11(5):200-8. doi: http://dx.doi.org/10.13175/swjpcc134-15 PDF