Noncoronary/Noncardiac Lesions






  • Key Points



  • Cardiac CT scans may encounter a wide spectrum of noncoronary/noncardiac lesions, in both the chest and upper abdomen, of widely ranging clinical relevance.



  • The incidence of noncoronary/noncardiac findings is significant.



  • Review of the study by a radiologist is necessary, therefore, to ensure accurate reporting of noncoronary lesions and so that an appropriate management plan can be instituted.



  • Systematic scrutiny of noncardiac structures can offer alternative causes for the patient’s symptoms.



  • The notion that cardiac CT scanning provides a measure of noncardiac “screening” should be discouraged, because the entire chest is not imaged and the detection of noncardiac lesions by electron beam CT or coronary CT angiography is more a matter of chance than design.




Detection of Incidental Noncoronary Cardiac and Extracardiac Lesions


Coronary CT angiography (CTA) may encounter both significant and nonsignificant noncoronary cardiac lesions. An overview of these lesions is presented in Table 30-1 ; their treatment has been reviewed in the preceding chapters of this book. An overview of significant and nonsignificant extracardiac findings is presented in Table 30-2 ; their treatment is discussed in this chapter. The term “incidental” for the discovery of pathology that was not within the intended purview of the coronary artery examination is, of course, of cold comfort to the patient.



TABLE 30-1

Cardiac Noncoronary Findings























Myocardium
Left ventricular hyperplasia
Diverticula
Crypts
Signs of prior infarction
Regional thinning
Regional fatty metaplasia
Regional calcification
Mural thrombus
Valvular
Aortic valve
Bicuspid
Calcification
Stenosis
Mitral
Annular calcification
Valvular
Pericardial
Effusion
Simple
Complex
Thickening
Infection
Tumor
Calcification
Trauma
Infection
Asbestosis
Cyst
Congenital
Patent foramen ovale
Nonadherent IAS
Atrial septal defect
Ventricular septal defect
Ventricular septal aneurysm


TABLE 30-2

Noncardiac Findings



















































































Mediastinal
Anterior
Thymus
Thymoma
Teratoma
Lymphoma
Thyroid
Metastasis
Middle
Lymphoma
Infectious
Tumor
Sarcoid
Esophageal
Esophagitis
Carcinoma
Hiatal hernia
Pericardial
Effusion
Thickening
Calcification
Tumor
Vascular: aortic dissection
IMH
Penetrating ulcer
Aneurysm
Aortitis
Vascular: pulmonary arteries
Embolism
Aneurysm
Vascular: other lesions
Patent ductus arteriosus
PLSVC
Posterior
Neurogenic
Aortic aneurysm
Lymphadenopathy
Lungs
Nodules/Masses
Infection
Neoplasia
Non-Nodular Lesions
Consolidation
Pneumonia
Tumor
Bronchiectastsis
Infection
Congenital
Emphysema
Chest Wall
Bones
Sclerosis (degenerative, metastatic)
Fractures
Destruction (metastasis, infection)
Lymph Nodes
Internal mammary
Axillary
Supraclavicular
Breast Tissue
Nodules/masses
Calcification
Soft Tissue
Abscess
Hematoma
Tumor
Pleura
Effusion
Simple
Complex
Thickening
Infection
Tumor
Calcification
Trauma
Infection
Asbestosis
Upper Abdominal
Gastrointestinal Tract
Hiatus hernia
Tumor
Liver
Cyst
Nodule
Adrenal
Nodule


Cardiac-directed CT studies detect noncardiac pathology of significance or potential relevance in 5% to18% of examinations and nonsignificant noncardiac findings in 40% to 60%. The range of both these potential findings is vast, as is the potential significance of both. The high incidence of detection of noncardiac pathologies is one of the principal rationales behind having a trained radiologist read, co-read, or over-read a cardiac CT (CCT) study. The two large series that have been reported to date arose from calcium scoring by electron beam CT (EBCT) series. A recent large study retrospectively reviewing 1764 patients who had undergone CCT studies demonstrated a significant difference in the presence of incidental and clinically significant findings in patients studied for coronary artery bypass grafting and other indications for CTA compared with patients referred only for calcium scoring, with 18% of patients in the former group having extracardiac findings that required further follow-up.


All studies to date have been observational. No study has been properly structured to address the influence on outcome according to the identification of noncoronary and noncardiac lesions.


CT scans of the aorta detect an even higher percentage of noncardiac pathologies, because in those scans the abdomen also is imaged.


The term “incidental” is regrettably used to describe noncoronary/noncardiac findings: it is hard to understand what is incidental about identifying primary or metastatic malignancies of lung, esophagus, breast, or other organs; aortic aneurysms; pulmonary emboli; or other serious disorders.


Whether or not incidental detection of non-cardiac findings constitutes any real form of screening is unproven, unknown, and unlikely. Detection by CCT of noncardiac lesions fundamentally amounts to detection by accident, not methodologic screening by design. Unless the entire lung fields are included within the field of view (a far wider field of view than is standard for non–bypass graft/coronary/cardiac studies), pulmonary imaging as a part of CCT will always be incomplete, and inappropriate to categorize as a screening examination.


The detection of noncardiac lesions by EBCT or CCT remains of unproven utility in improving clinical outcomes.


Horton et al. reported on 1326 patients who had undergone EBCT (3-mm slices) and found that the incidence of noncardiac pathologies detected that required follow-up imaging or further investigation was 7.8% ( Table 30-3 ).



TABLE 30-3

Incidence of Noncardiac Pathologies Detected


































PATHOLOGY PATIENTS ( n = 1326)
Noncalcified lung nodules < 1 cm 53
Noncalcified lung nodules ≥ 1 cm 12
Infiltrates 24
Indeterminate liver lesions 7
Sclerotic bone lesions 2
Breast abnormalities 2
Polycystic liver disease 1
Esophageal thickening 1
Ascites 1

Data from Horton KM, Post WS, Blumenthal RS, Fishman EK. Prevalence of significant noncardiac findings on electron-beam computed tomography coronary artery calcium screening examinations. Circulation . 2002;106(5):532-534.


Hunold et al. described a 53% incidence of accidental pathologies (2061 lesions) detected among 1812 patients who had undergone EBCT ( Table 30-4 ).



TABLE 30-4

Incidence of Accidental Pathologies Detected in Electron Beam CT






















Pathology Prevalence (%)
Cardiac structures/pericardium
Pericardial
Thickening
Effusion
Calcification
Cardiac
Mitral calcification
Aortic valve
Left atrial thrombi
Myxoma
32

4.5
1.6
0.9

7.6
13
Aortic disease
Calcification
Ectasia
Aneurysm
Type A dissection
23

0.2
0.6
0.06
Lung disease 20
Further diagnostic testing 11
Specific therapy initiated 1.2

Data from Hunold P, Schmermund A, Seibel RM, Gronemeyer DH, Erbel R. Prevalence and clinical significance of accidental findings in electron-beam tomographic scans for coronary artery calcification. Eur Heart J . 2001;22(18):1748-1758.


Schragin et al. reviewed 1356 EBCT scans over 2 years and established a 20.5% incidence of one or more noncardiac findings among a population with only a 13% incidence of smoking. Findings without follow-up recommendations ( n = 221) and recommendations for follow-up CTA scans are shown in Table 30-5 . There was one reported death during follow-up that included a cancer identified by EBCT; that death was attributed to renal cell carcinoma.



TABLE 30-5

Incidence of Having One or More Non-Cardiac Findings










































































Pathology No. of Patients
Findings without follow-up recommendations ( n = 221)
Pulmonary scarring 63
Granuloma 39
Emphysema/bullae 29
Nonsuspicious nodules 28
Pleural disease 21
Pulmonary fibrosis 5
Atelectasis 8
Calcified lymph nodes 6
Lung cysts 4
Bronchiectasis 2
Small infiltrate 2
Hepatomegaly 2
Dilated aorta 1
Fissure thickening 1
57 patients were recommended to have follow-up CT scans
Pulmonary nodules 46
Consolidation and infiltrations 3
Fibrosis and interstitial disease 3
Hilar adenopathy 2
Large pulmonary mass 1
Thoracic aneurysm 1
Liver mass 1

Data from Schragin JG, Weissfeld JL, Edmundowicz D, Strollo DC, Fuhrman CR. Non-cardiac findings on coronary electron beam computed tomography scanning. J Thorac Imaging . 2004;19(2):82-86.


Onuma et al. reviewed noncardiac findings among 503 patients who underwent 16- or 64-slice CCT and found that




  • Noncardiac findings were detected in 58% of patients ( n = 292).



  • A total of 346 noncardiac findings were detected in 292 patients.



  • Significant noncardiac findings were noted in 23% of patients.



  • Malignancies were found in 0.8% of patients ( n = 4).



As with many examples of low-pretest probability imaging, the detection of noncoronary/noncardiac findings by CCT scanning leads to repeat imaging, generally with CT scanning, thereby beginning to accrue radiation exposure and risk.


Machaalany et al. described a 1% incidence of clinically significant findings and a 7% incidence of “indeterminate” findings among a low-risk, largely outpatient (98%) population who were followed for 3 years. Over this short period of follow-up, noncardiac and cancer death did not differ between patients with and without “indeterminate findings.” Evaluation of clinically significant findings and indeterminate findings were not standardized. One death occurred secondary to an investigation of an indeterminate finding. High costs were associated with investigating indeterminate findings (US $83,000/Canadian $57,000).


The utility and appropriateness of large-field versus small-field reconstructions and over-reading is a debated topic. Compared with large-field reconstruction, small-field reconstructions lead to lower detection of possibly significant findings, and a far lower rate of subsequent investigation.




Lung Lesions


Pulmonary Nodules and Masses


Pulmonary nodules are the most common incidental finding on CCT, reported in 10% to 12% of studies ( Figs. 30-1 through 30-3 ). Important features of a pulmonary nodule to evaluate include:




  • Size : Guidelines for follow-up for small pulmonary nodules based on size have been presented and incorporated by most radiology departments.



  • Margin : The presence of an irregular or speculated margin should raise concern for an aggressive lesion. Small nodules associated with ground-glass densities and a “tree-in -bud” configuration are commonly seen in infectious conditions such as pneumonia and represent impaction of the bronchiolar lumen secondary to pus, mucus, or fluid.



  • Internal characteristics : The presence of dense central calcification is more likely to reflect a nodule secondary to prior granulomatous infection. Calcified granulomas can be multiple. One rare element in the differential diagnosis for multiple calcified nodules would be metastatic disease from primaries such as osteosarcoma. “Popcorn” type calcifications, especially in association with intralesional fat, are commonly seen in hamartomas, a benign lung lesion.


Apr 10, 2019 | Posted by in COMPUTERIZED TOMOGRAPHY | Comments Off on Noncoronary/Noncardiac Lesions

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