High-pitched tin-filtered CT pulmonary angiography in radiation dose reduction for pulmonary embolism investigations in young females

Saad Rehan; Peter Kutschera; Eldho Paul; Theodore Lau; Kenneth K Lau

doi:10.1007/s10140-023-02142-9

High-pitched tin-filtered CT pulmonary angiography in radiation dose reduction for pulmonary embolism investigations in young females

Emerg Radiol. 2023 Aug;30(4):425-433. doi: 10.1007/s10140-023-02142-9. Epub 2023 Jun 8.

Authors

Saad Rehan¹, Peter Kutschera², Eldho Paul³, Theodore Lau⁴, Kenneth K Lau^{2

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Affiliations

¹ Monash Department of Surgery, Monash Health, Melbourne, VIC, Australia. saad.rehan@outlook.com.
² Monash Imaging, Monash Health, Melbourne, VIC, Australia.
³ Monash Health Research Precinct, Monash Medical Centre, Melbourne, VIC, Australia.
⁴ Qscan Radiology Clinics, Southport, 123 Nerang Street, QLD, Gold Coast, Australia.
⁵ School of Clinical Sciences, Faculty of Medicine, Nursing and Health Sciences, Monash University, Melbourne, VIC, Australia.
⁶ Department of Oncology, Sir Peter MacCallum, University of Melbourne, Melbourne, VIC, Australia.

Abstract

Introduction: Computed tomography pulmonary angiography (CTPA) is the gold standard test to investigate pulmonary embolism (PE). This technique carries significant radiation risk in young females because of radiosensitive breast and thyroid tissues. A high-pitched CT technique offers significant radiation dose reduction (RDR) and minimises breathing artefact. The addition of CT tube tin-filtration may offer further RDR. The aim of this retrospective study was to assess RDR and image quality (IQ) of high-pitch tin-filtered (HPTF)-CTPA against conventional-CTPA.

Methods: Retrospective review of consecutive adult females age < 50 years undergoing high pitch tin filtration (HPTF) and standard pitch no tin filtration (SPNF) during a 3-year period beginning in November 2017. CTs in both groups were compared for radiation dose, pulmonary arteries contrast density (Hounsfield units (HU)) and movement artefact. Findings of both groups were compared with the Student's T-test and Mann-Whitney U test, where p < 0.05 being considered significant. Diagnostic quality was also recorded.

Results: Ten female patients (mean age 33, 6/10 pregnant) in HPTF group and 10 female patients (mean age 36, 1/10 pregnant) in SPNF group were included. The HPTF group achieved 93% RDR (dose length product: 25.15 mGy.cm vs 337.10 mGy.cm, p < 0.01). There was significant contrast density difference between the two groups in the main, left or right pulmonary arteries (322.72 HU, 311.85 HU and 319.41 HU in HPTF group vs 418.60 HU, 405.10 HU and 415.96 HU in SPNF group respectively, p = 0.03, p = 0.03 and p = 0.04). 8/10 HPTF group and 10/10 in the control group were > 250 HU in all three vessels; the remaining 2 HPTF CTPA were > 210HU. All CT scans in both groups were of diagnostic quality and none exhibited movement artefact.

Conclusion: This study was the first to demonstrate significant RDR with the HPTF technique whilst maintaining IQ in patients undergoing chest CTPA. This technique is particularly beneficial in young females and pregnant females with suspected PE.

Keywords: ALARA; CTPA; Chest Pain; Chest Radiology; High Pitch; Pulmonary embolism; Radiation dosereduction; Tin Filtration.

MeSH terms

Adult
Angiography / methods
Computed Tomography Angiography / methods
Drug Tapering
Female
Humans
Middle Aged
Pulmonary Artery / diagnostic imaging
Pulmonary Embolism* / diagnostic imaging
Radiation Dosage
Retrospective Studies
Tin*
Tomography, X-Ray Computed / methods

Substances

Tin