Figure 1. Pulmonary function testing results for the patient demonstrate severe restriction with a reduced diffusion capacity with a corrected DLCO 50% of predicted and FVC 45% of predicted. To view Figure 1 in an enlarged, separate window click here.

Figure 2. Unenhanced chest CT images in the axial plane reconstructed with lung (A) and soft tissue (B) display settings. There are innumerable small solid pulmonary nodules with a peripheral distribution, some subpleural sparing, and architectural distortion (A). On soft tissues windows (B) the fact that the nodules are calcified are well-appreciated in the anterior and lateral right mid-lung. To view Figure 2 in a separate, enlarged window click here.

A 51-year-old African-American man with medical history of obesity (BMI 36) and hypertension was seen in pulmonary consultation for preoperative evaluation of kidney transplantation. End-Stage renal disease (ESRD) was diagnosed 7 years before evaluation secondary to resistant hypertension. The patient has been on hemodialysis since then. The patient was on carvedilol, hydralazine, losartan, and calcitriol. He had prescribed sevelamer and prednisone, but he was not taking them. His main symptoms were 3-year chronic dyspnea on exertion and mild morning cough productive of small amounts of clear sputum. He has had no chest pain, wheezes, hemoptysis, fevers, or dizziness. He had trace lower extremity edema. He worked as a forklift operator. He has had no relevant exposures and was a lifetime nonsmoker.

The patient was diagnosed with cryptogenic organizing pneumonia 5 years ago and was on prednisone taper with subjective improvement of symptoms. He has not had lung function testing or biopsies done at that time. He was maintained on 3L oxygen with activity to targets oxygen saturation of 90%. On examination VS: BP 216/100, HR 94, temperature 36.7 °C, SpO2 88 % RA. He was not in respiratory distress. Chest auscultation: symmetrical breath sounds, no added sounds. Examination of the heart, abdomen and rest of the systems were normal. He had trace bilateral pedal edema and clubbing in all digits.

Figure 1 shows his most recent pulmonary function test illustrating a severe restrictive defect with reduced diffusion capacity. Echocardiogram showed ejection fraction of 54%, mild left ventricular hypertrophy and mild diastolic dysfunction. Representative slices of his most recent computed tomography (CT) of the chest are shown in figure 2 and demonstrate multiple scattered small, solid, and calcified pulmonary nodules.

Pulmonary calcifications can either be secondary to hypercalcemia from benign or malignant causes {1}. Such calcification would occur in normal lung tissue due to elevated calcium-phosphate product and is termed metastatic {2,3}. It is thought to occur with higher concentrations of free hydrogen ions, especially in less ventilated areas (West zone 3) with lower pH (more acidotic), leading to calcium-magnesium phosphate compounds (whitlockite-like). Dystrophic calcification on the other hand develops secondary to injury from granulomatous diseases, infections or inherited pulmonary alveolar microlithiasis {4}.

Most cases of metastatic pulmonary calcification are due to ESRD-related hypercalcemia {2}. Most patients are asymptomatic and diagnosed incidentally. Some patients may have non-productive cough, progressive dyspnea, and hypoxia. Lung function testing could show normal or restrictive ventilatory defects, often with impaired diffusion of carbon monoxide. CT scans are diagnostic (Figure 2) and show distinctive diffuse calcifications (sometimes solid and sometimes manifesting as centrilobular ground glass). Bone scintigraphy using technetium-99 diphosphonate scanning would show these calcifications along other parts of the body affected with reported higher sensitivity compared to standard x-ray {5}.

Management is geared towards controlling levels of calcium through phosphate binders, dialysis dosing, and/or parathyroidectomy. Our patient was ultimately evaluated for combined lung/kidney transplantation due to his severe restrictive pulmonary defects.

Abdelmohaymin Abdalla MD¹, Clinton Jokerst MD², Umesh Goswami MD¹

Division of Pulmonary and Critical Care Medicine¹

Mayo Clinic Arizona, Phoenix, AZ USA

Department of Radiology²

Mayo Clinic Arizona, Phoenix, AZ USA

References

1. Kaltreider HB, Baum GL, Bogaty G, McCoy MD, Tucker M. So-called "metastatic" calcification of the lung. Am J Med. 1969 Feb;46(2):188-96. [CrossRef] [PubMed]
2. Conger JD, Hammond WS, Alfrey AC, Contiguglia SR, Stanford RE, Huffer WE. Pulmonary calcification in chronic dialysis patients. Clinical and pathologic studies. Ann Intern Med. 1975 Sep;83(3):330-6. [CrossRef] [PubMed]
3. Kuzela DC, Huffer WE, Conger JD, Winter SD, Hammond WS. Soft tissue calcification in chronic dialysis patients. Am J Pathol. 1977 Feb;86(2):403-24. [PubMed]
4. Chan ED, Morales DV, Welsh CH, McDermott MT, Schwarz MI. Calcium deposition with or without bone formation in the lung. Am J Respir Crit Care Med. 2002 Jun 15;165(12):1654-69. [CrossRef] [PubMed]
5. Faubert PF, Shapiro WB, Porush JG, Chou SY, Gross JM, Bondi E, Gomez-Leon G. Pulmonary calcification in hemodialyzed patients detected by technetium-99m diphosphonate scanning. Kidney Int. 1980 Jul;18(1):95-102. [CrossRef] [PubMed]

Cite as: Abdalla A, Jokerst C, Goswami U. December 2023 Medical Image of the Month: Metastatic Pulmonary Calcifications in End-Stage Renal Disease. Southwest J Pulm Crit Care Sleep. 2023;27(6):67-69. doi: https://doi.org/10.13175/swjpccs049-23 PDF

Figure 1. Axial and coronal views of thoracic CT scan showing upper lobe predominant centrilobular ground glass nodules.

Figure 2. Transbronchial biopsy yielded nine tissue fragments, each of which demonstrated moderate to marked interstitial calcification (amorphous purple material) along the alveolar septae, perivascular spaces and within the bronchioles consistent metastatic calcification.  There were secondary changes of mild alveolar fibrosis and interstitial hemosiderin laden macrophages (golden brown pigment).  There was no evidence of an inflammatory response or malignancy to otherwise explain the CT findings in this patient.

A 40-year-old man presented with shortness of breath, cough and abnormal imaging. He had a past medical history of end stage renal disease (ESRD) secondary to Alport syndrome and underwent three kidney transplants in 2004, 2010 and 2016. He was intermittently on dialysis between the transplants. He also had a history of coronary artery disease, congestive heart failure and parathyroidectomy. His CT scan (Figure 1) from 2019 showed diffuse centrilobular ground glass opacities sparing the peripheral lung and lung bases. Pulmonary function testing showed obstruction, with reduced diffusion capacity. Bronchoscopy with bronchoalveloar lavage and transbronchial biopsy of the right upper and middle lobes was consistent with metastatic pulmonary calcification (MPC) (Figure 2).

MPC is a rare metabolic pulmonary disease which is usually found incidentally or on autopsy. It occurs with chronically elevated calcium and phosphorus levels (1). It is very commonly associated with ESRD and rarely in primary hyperparathyroidism, osteoporosis, sarcoidosis, renal and liver transplant and hematological malignancies (2-5). CT shows diffuse, nodular areas of ground-glass opacity or consolidation seen in the upper lung zones with pleural sparing. Diagnosis is made on histopathology. There is no definitive treatment for MPC. MPC should be considered with radiological nodular ground glass opacities, particularly in the context of chronic kidney disease or kidney transplant.

Nikhil Madan¹ MD FCCP, Vipul Patel¹ MD, Christine Minerowicz² MD, Harpreet Greewal¹ MD, and Thomas Kaleekal MD FCCP

¹Division of Pulmonary and Critical Care and Transplant

Newark Beth Israel Medical Center

Newark, NJ USA

²Department of Pathology and Laboratory Medicine

Rutgers Robert Wood Johnson Medical School

New Brunswick, NJ USA 

References

1. Chan ED, Morales DV, Welsh CH, McDermott MT, Schwarz MI. Calcium deposition with or without bone formation in the lung. Am J Respir Crit Care Med. 2002 Jun 15;165(12):1654-69. [CrossRef] [PubMed]
2. Kuhlman JE, Ren H, Hutchins GM, Fishman EK. Fulminant pulmonary calcification complicating renal transplantation: CT demonstration. Radiology. 1989; 173:459e60. [CrossRef] [PubMed]
3. Bendayan D, Barziv Y, Kramer MR. Pulmonary calcifications: a review. Respir Med. 2000; 94:190e3. [CrossRef] [PubMed]
4. Izadyar M, Mahjoub F, Ardakani SN, Ahmadi J. Pulmonary metastatic calcification in a leukemic patient: a case report. J Pediatr Hematol Oncol. 2010;32:e108e10. [CrossRef] [PubMed]
5. Surani SR, Surani S, Khimani A, Varon J. Metastatic pulmonary calcification in multiple myeloma in a 45-year-old man. Case Reports Pulmonol. 2013; 2013:341872. [CrossRef] [PubMed]

Cite as: Madan N, Patel V, Minerowicz C, Greewal H, Kaleekal T. Medical image of the month: metastatic pulmonary calcifications in a kidney transplant recipient. Southwest J Pulm Crit Care. 2020;20(2):71-2. doi: https://doi.org/10.13175/swjpcc001-20 PDF

Figure 1. Panel A: Apical 4 chamber view showing intra cardiac mass (arrow) in the right atrium located above the closed tricuspid valve in systole (left). Panel B: The mass moves into the right ventricle through the open tricuspid valve in diastole.

Figure 2. Axial TRUFISP MRI images through the mediastinum demonstrate a central venous catheter (yellow arrow) within the distal superior vena cava (a-b) and proximal right atrium (c).  A hypointense lesion (red arrow) is seen extending from and in close approximation of the catheter tip (d-e).  Axial T1 post-contrast MRI image through the heart demonstrates no associated enhancement (f) in this lesion. These findings are most consistent with a catheter-related thrombus. 

A 71-year-old woman with a history of renal amyloidosis complicated by end stage renal disease on long term hemodialysis through a permacath presented with complaints of recurrent syncope during hemodialysis. When propped up at 45 degrees, her examination showed an early systolic murmur located over her right upper sternal border and a crescendo systolic murmur located over left axillary region. The murmurs were grade 2/6 in intensity but increased to 4/6 when propped up at 90 degrees. A transthoracic echocardiogram revealed a 2.5 x 2.7 cm echogenic mass arising from the right atrial side of AV groove and prolapsing through the open tricuspic valve into the right ventricle during diastole (Figure 1). On contrast enhanced cardiac magnetic resonance imaging, the mass was identified as a thrombus measuring 2.9 x 2.7 x 2.2 cm and connected to the distal tip of the dialysis catheter (Figure 2).

It is difficult to confidently determine the best catheter tip position to avoid thrombosis.  Although placement of the catheter tip in the right atrium may decrease thrombosis, this location is debatable and subject to controversy (1). The optimal treatment for catheter-induced right atrial thrombus is also an area of controversy (2).  

Anticoagulation therapy is preferred over surgery by most physicians. For our patient, we treated her with warfarin to a target INR (International Normalized Ratio) of 2 to 3.  We were concerned about the possibility of thrombus detachment and catastrophic embolism. We retained the internal jugular catheter in place and obtained a new femoral access site for future hemodialysis.

Manjinder Kaur DO, Hem Desai MBBS, Emily S Nia MD, and Imo Ebong MD

Department of Medicine

University of Arizona

Tucson, AZ USA

References

1. Vesely TM. Central venous catheter tip position: a continuing controversy. J Vasc Interv Radiol. 2003 May;14(5):527-34. [CrossRef] [PubMed]
2. Lalor PF, Sutter F. Surgical management of a hemodialysis catheter-induced right atrial thrombus. Curr Surg. 2006 May-Jun;63(3):186-9. [CrossRef] [PubMed] 

Cite as: Kaur M, Desai H, Nia ES, Ebong I. Medical image of the week: catheter-induced right atrial thrombus. Southwest J Pulm Crit Care. 2016;13(2):82-3. doi: http://dx.doi.org/10.13175/swjpcc062-16 PDF

Michael B. Gotway, MD

Associate Editor, Imaging

Clinical History: A 64-year-old woman presents with weight loss and an intermittent history of cough. Skin tuberculin testing was indeterminate, so a chest radiograph (Figure 1) was performed.

Figure 1:  Frontal (A) and lateral (B) chest radiographs show previous median sternotomy and mild cardiomegaly. Poorly defined, mildly hyperattenuating opacities are present in the apices bilaterally. No evidence of architectural distortion or cavitation is present. A calcified left mediastinal lymph node is present, consistent with prior granulomatous inflammation.

Does this chest radiograph show evidence of current or prior granulomatous infection?

1. True
2. False
3. Unknown

Reference as: Gotway MB. March 2012 imaging case of the month. Southwest J Pulm Crit Care 2012;4:80-7. (Click here for a PDF version of the case)