Comparison of CT-like MRI sequences for preoperative planning of cochlear implantation using super-high-resolution CT as a reference.

Background: We evaluated the accuracy of magnetic resonance imaging (MRI) computed tomography (CT)-like sequences compared to normal-resolution CT (NR-CT) and super-high-resolution CT (SHR-CT) for planning of cochlear implantation.

Methods: Six cadaveric temporal bone specimens were used. 3-T MRI scans were performed using radial volumetric interpolated breath-hold (STARVIBE), pointwise-encoding time reduction with radial acquisition (PETRA), and ultrashort time of echo (UTE) sequences.

"The problem is not detection, it is treatment": Exploring Why Women Needing Pre-Cervical Cancer Care are Lost to Follow-Up at the Hospital in Iquitos, Peru.

Background: The objective of this study was to investigate the barriers to follow-up of women with cervical lesions suspicious of cancer who were ineligible for primary-level treatment and needed, but did not receive, hospital-level care in Loreto, Peru.

Methods: In-depth, semi-structured interviews were conducted with 18 HPV-positive women requiring hospital-level follow-up care for cervical lesions suspicious of cancer but for whom there was no documentation of completion of treatment. After thematically analyzing these patient interviews, interview findings were presented to seven doctors and five nurse-midwives at both the hospital and the primary levels for comments and suggestions regarding barriers to treatment.

Mineralized tissue visualization with MRI: Practical insights and recommendations for optimized clinical applications.

Magnetic resonance imaging (MRI) techniques that enhance the visualization of mineralized tissues (hereafter referred to as MT-MRI) are increasingly being incorporated into clinical practice, particularly in musculoskeletal imaging. These techniques aim to mimic the contrast provided by computed tomography (CT), while taking advantage of MRI's superior soft tissue contrast and lack of ionizing radiation. However, the variety of MT-MRI techniques, including three-dimensional gradient-echo, ultra-short and zero-echo time, susceptibility-weighted imaging, and artificial intelligence-generated synthetic CT, each offer different technical characteristics, advantages, and limitations.