Incidental Pulmonary Nodules on CT
| Purpose | Detection and characterization of incidental pulmonary nodules on computed tomography (CT) |
| Tag(s) |
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| Panel | Thoracic |
| Define-AI ID | 08190003 |
| Originator | Carol C. Wu, STR Big Data Subcommittee |
| Panel Chair | Eric J. Stern |
| Panel Reviewers | Thoracic Panel |
| License | |
| Status | Published |
| RadElement Set | RDES99 |
Clinical Implementation
Value Proposition
Incidental pulmonary nodules are commonly seen on computed tomography (CT) studies that include the lungs. A recent study shows that incidental nodules are seen in 13.9% of CT coronary angiogram (Robertson J et al. Heart Lung Circ 2017). Even though the majority of these nodules eventually prove to be benign, a small percentage of them are malignant. Follow-up chest CTs are often required to evaluate for growth, which is an indicator of malignancy. Automated identification and characterization of these nodules can result in significant improvement in workflow efficiency for radiologists. Subsequent recommendations of appropriate follow-up of these incidental pulmonary nodules based on patients’ risk factors and comorbidities are key to patient care.Narrative(s)
A 68 year old smoker presents after a motor vehicle accident and undergoes a CT of the chest, abdomen and pelvis in the emergency room. Algorithm evaluates images of the lungs, detects and characterizes any incidental pulmonary nodules to allow radiologists to quickly review and insert these descriptions into the imaging report. The algorithm might also suggest appropriate follow-up recommendation based on Fleischer Society Guidelines. If follow-up imaging is required, the algorithm can prompt the referring provider to order the study prior to patient discharge from the acute care setting. If the algorithm or radiologist is able to determine that the patient meets criteria for low-dose CT lung screening based on the electronic medical record, a recommendation can be made to enroll the patient in a screening program.A 70 year old admitted to ICU with COPD exacerbation and chest CT was performed for evaluation of respiratory distress. Algorithm evaluates image and detects small solid incidental pulmonary nodules which are stable since the patient’s oldest available comparison CT from 4 years prior. The algorithm describes the nodules and notes that the nodules are stable and do not require further imaging follow-up. The radiologist can insert these findings into the imaging report and focus on other more relevant and urgent CT findings.
A 45 year old otherwise healthy man presents to the emergency center with right lower quadrant abdominal pain and fever. A CT abdomen and pelvis reveals findings consistent with appendicitis and three cavitary nodules in the lung bases measuring up to 8mm. Algorithm detects these concerning incidental pulmonary nodules and alerts the radiologist to evaluate the lung bases. The algorithm inserts these findings into the imaging report.
Workflow Description
CT images sent to PACS and the AI engine. Image analyzed by engine. System detects and characterizes the incidental pulmonary nodules. A message is sent to PACS from the engine with the information, highlighting each incidental pulmonary nodules with a list of nodule characteristics.
Considerations for Dataset Development
| Procedure(s): | Chest CT w/ or w/o intravenous contrast*, including High-resolution chest CT and low dose chest CT, cardiac CT, abdominal CT, neck CT, cervical/thoracic/lumbar spine CT, serial CTs over time} Clinical Note: CTs that include any part of the lung |
| Slice: | Continuous thin sections preferred (≤ 1.5 mm) |
| Sex at Birth: | Male, Female |
| Nodule Attenuation: | solid*, part-solid*, groundglass*, internal fat density, calcification, cavitary |
| Nodule Size (mm): | [3,30] |
| Age: | [18, no limit] |
| Nodule Shape : | 2D: round, oval, triangular, lobular, irregular; 3D: spherical, flat |
| Nodule Margin: | smooth, irregular, spiculated, ill-defined |
| Nodule Location: | subpleural, peri-fissural, parenchymal, intraluminal |
| Comorbidities: | Smokers, non-smokers, emphysema, bronchitis, bronchiolitis, focal inflammatory lesions, usual interstitial pneumonia and other diffuse lung diseases}, other primary malignancy or history of primary malignancy Clinical Note: Focal inflammatory lesions, particular with surrounding emphysema, can mimic lung cancers |
| Pathologic Diagnosis: | Fine needle aspiration, core needle biopsy, surgical specimen, if not available, obtain information regarding stability over time |
Technical Specifications
Inputs
DICOM Study
| Procedure | CT |
| Views | Axial, multiplanar reformats, MIPS |
| Data Type | DICOM |
| Modality | CT |
| Body Region | Chest |
| Anatomic Focus | Lung |
| Pharmaceutical | N/A |
| Scenario | N/A |
Primary Outputs
Detection of Nodule
| RadElement ID | |
| Definition | The definition of pulmonary nodule detection includes 1.) The center x, y, and z coordinate of a candidate nodule bounding box with reference to the superior, anterior, and right-most pixel in the volume (referencing the patient for sidedness, zero indexed) and 2.) the dimensions of a bounding box in pixels (x, y, z). |
| Data Type | Categorical |
| Value Set | 0-Unknown 1-Nodule Absent 2-Nodule Present |
| Units | N/A |
Nodule Attenuation
| RadElement ID | |
| Definition | Determine mean and range of HU density of nodule |
| Data Type | Categorical |
| Value Set | 0-fat density 1-groundglass* 2-part solid* 3-solid* 4-calcification 5-cavitation 6-cystic lucencies 7-air bronchograms |
| Units | N/A |
Nodule Diameter
| RadElement ID | |
| Definition | Measure largest diameters of nodule(s) in any plane, including 3D. Optional: For part solid nodule, return both the overall diameter and solid component diameter. |
| Data Type | Numerical |
| Value Set | N/A |
| Units | Mm |
| Max Length | N/A |
Nodule Volume
| RadElement ID | |
| Definition | Measure the volume of the nodule(s). Optional: Measure volume of nodule(s) from all planes. Also optional: if part solid nodule, return both the overall diameter and solid component diameter in mm. |
| Data Type | Numerical |
| Value Set | N/A |
| Units | mm3 |
| Max Length | N/A |
Secondary Outputs
Nodule Shape
| RadElement ID | |
| Definition | Classify shape of nodule |
| Data Type | Categorical |
| Value Set | 0-Unknown 1-round 2-oval 3-triangular 4-irregular 5-lobular 6-other |
| Units | N/A |
Nodule Margin
| RadElement ID | |
| Definition | Classify shape/margin of nodule |
| Data Type | Categorical |
| Value Set | 0-Unknown 1-Smooth 2-Lobulated 3-Spiculated 4-ill defined |
| Units | N/A |
Nodule Location
| RadElement ID | |
| Definition | State on which lung lobe nodule is located. Ideally pull the image with the incidental nodule |
| Data Type | Categorical |
| Value Set | 0-Unknown 1-Right upper lobe 2-Right mid lobe 3-Right lower lobe 4-Left upper lobe 5-Left lower lobe 6-Fissural 7-intraluminal |
| Units | N/A |
Nodule Growth
| RadElement ID | |
| Definition | Change in diameter, volume, or attenuation over time if comparison CTs are available |
| Data Type | Categorical |
| Value Set | 0-Unknown 1-Unchanged (to the nearest 0.1 mm) 2-Growth 3-Shrinkage 4-Decrease attenuation 5-Increase attenuation |
| Units | N/A |
Probability of Malignancy
| RadElement ID | |
| Definition | Likelihood the nodule is malignant |
| Data Type | Numeric |
| Value Set | [0,1] 0-Benign 1-Malignant |
| Units | N/A |
Future Development Ideas
Based on nodule attributes and probability of malignancy, Return follow-up recommendations according to Fleischer and/or LUNG-RADS guidelines.
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