Improving Brain and Chest Imaging Enhancing Clarity and Reducing Radiation with Deep Learning Technology

Phase 1

• Registration Number: CTRI/2023/07/055310
• Lead Sponsor: Kasturba Medical College Manipal

Brief Summary

Not available

Detailed Description

Not available

Study Timeline

• Results First Posted: 1900-01-01
• Last Update Posted: 18 September 2023

Recruitment & Eligibility

• Status: Open to Recruitment
• Sex: Not specified
• Target Recruitment: 0

Inclusion Criteria

Patients who are referred to CT Brain, CECT Brain, CECT Thorax, and HRCT Thorax by the registered physician will be included in this study with valid informed consent and the procedure explained.

Exclusion Criteria

Patients who are un-cooperative, Patients who are allergic to contrast media, Patients with High BMI, Patients with high creatine and urea level.

Study & Design

• Study Type: Interventional
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
To evaluate the radiation dose and image quality of 313 sample size which includes (CT Brain- 96, CECT Brain- 59, CECT Thorax - 72, HRCT Thorax - 86) standard dose and contrast volume protocol done with Iterative reconstruction algorithm for CT Brain Plain, CECT Brain, CECT Thorax and HRCT Thorax.Timepoint: 1 years from the date of starting the study

Secondary Outcome Measures

Name	Time	Method
To compare the image quality & radiation dose of 313 samples which includes ( CT Brain- 96, CECT Brain - 59, CECT Thorax- 72, HRCT Thorax - 86)low dose & low contrast volume protocol with deep learning reconstruction algorithm with standard dose protocol iterative reconstruction algorithm for CT Brain Plain, CECT Brain, CECT Thorax & HRCT Thorax.Timepoint: 1 year from completion of Phase I.