Multidetector row chest ct scanners

Manufactured by Siemens

Multidetector row chest CT scanners are medical imaging devices used to capture detailed cross-sectional images of the chest and thoracic region. They utilize multiple rows of X-ray detectors to collect data, enabling the reconstruction of high-resolution 3D images. The core function of these scanners is to provide healthcare professionals with detailed diagnostic information about the structures and organs within the chest cavity.

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4 protocols using multidetector row chest ct scanners

Mount Sinai CT Chest Imaging Protocol

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All CT studies were obtained at Mount Sinai in General Electric® or Siemens® multidetector row chest CT scanners. Chest CT studies were performed using a protocol^{10 (link),11 (link)} with a radiation dose at 120 kVp, and a mean of 146 (SD 69) mAs, with subjects in the supine position. CT scans were obtained from the lung apices to the bases in a single breath hold at maximum inspiration. All deidentified and coded chest CT images were stored and catalogued from 2012 to 2017 in the WTC PEU Chest CT Image Archive (ClinicalTrials.gov identifier )^{11 (link)}.

de la Hoz R.E., Jeon Y., Reeves A.P., José Estépar R.S., Liu X., Doucette J.T., Celedón J.C, & Nolan A. (2019). Increased pulmonary artery diameter is associated with reduced FEV1 in former World Trade Center workers. The clinical respiratory journal, 13(10), 614-623.

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Institutional Clinical Protocol for Chest CT

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All CT studies were obtained at Mount Sinai Hospital, in General Electric® or Siemens® multidetector row chest CT scanners. Chest CT studies were performed using an institutional clinical protocol¹² (link) with a radiation dose at 120 kVp, and a mean of 146 (SD 69) mAs, with subjects in the supine position, noise correction, and routine periodic scanner calibration. CT scans were obtained from the lung apices to the bases in a single breath hold at maximum inspiration, and we excluded those with section thicknesses exceeding 1.5 mm, contrast administration, or respiratory or motion artifacts. All deidentified and coded chest CT images were stored and cataloged during the past 5 years in the WTC PEU Chest CT Image Archive (ClinicalTrials.gov identifier NCT03295279).⁵ (link)

Liu X., Reeves A.P., Antoniak K., San José Estépar R., Doucette J.T., Jeon Y., Weber J., Xu D., Celedón J.C, & de la Hoz R.E. (2020). Association of quantitative CT lung density measurements and lung function decline in World Trade Center workers. The Clinical Respiratory Journal, 15(6), 613-621.

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Chest CT Imaging Protocol at Mount Sinai

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All CT studies were obtained at Mount Sinai Hospital, in General Electric® or Siemens® multidetector row chest CT scanners. Chest CT studies were performed using an institutional clinical protocol^{12 (link)} with a radiation dose at 120 kVp, and a mean of 146 (SD 69) mAs, with subjects in the supine position, noise correction and routine periodic scanner calibration. CT scans were obtained from the lung apices to the bases in a single breath hold at maximum inspiration, and we excluded those with section thicknesses exceeding 1.5 mm, contrast administration, or respiratory or motion artifacts. All deidentified and coded chest CT images were stored and catalogued during the past 5 years in the WTC PEU Chest CT Image Archive (ClinicalTrials.gov identifier NCT03295279)^{5 (link)}.

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WTC PEU Chest CT Image Protocol

Cited 1 time

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All CT studies were obtained at Mount Sinai in General Electric® or Siemens® multidetector row chest CT scanners. Chest CT studies were performed using a protocol [8 (link)] with a radiation dose at 120 kVp, and a mean of 146 (SD 69) mAs, with subjects in the supine position. CT scans were obtained from the lung apices to the bases in a single breath hold at maximum inspiration, with section thickness not exceeding 1.5 mm. All deidentified and coded chest CT images were stored and cataloged during the past 5 years in the WTC PEU Chest CT Image Archive (ClinicalTrials.gov identifier NCT03295279) [9 (link)].

de la Hoz R.E., Liu X., Doucette J.T., Reeves A.P., Bienenfeld L.A., Wisnivesky J.P., Celedón J.C., Lynch D.A, & Estépar R.S. (2018). Increased Airway Wall Thickness is Associated with Adverse Longitudinal First–Second Forced Expiratory Volume Trajectories of Former World Trade Center workers. Lung, 196(4), 481-489.

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