Shaihan J. Malik

TL;DR: This review discusses the many ways in which parallel transmission provides previously unavailable degrees of freedom that allow full spatial and temporal control of the radiofrequency (RF) fields, ranging from making more uniform transmit fields to the design of subject‐tailored RF pulses for both uniform excitation and spatial selection.

TL;DR: The use of different MRI techniques currently being used to determine body fat content and distribution, including ectopic fat depots, are reviewed and how MRI/MRS techniques are helping in changing the perception of what is healthy and what is normal and desirable body-fatcontent and distribution is discussed.

TL;DR: This article reviews current techniques of motion compensation in fetal and neonatal MR imaging, including the following: 1) motion-prevention strategies (such as adequate patient preparation, patient coaching, and sedation, when required), 2)Motion-artifacts minimization methods ( such as fast imaging protocols, data undersampling, and motion-resistant sequences), and 3)motion-detection/correction schemes (suchAs navigators and self-navigated sequences, external motion-tracking devices,

TL;DR: In this paper, a fully integrated sequence simultaneously sampling the acquisition parameter spaces required for T1 and T2* relaxometry and diffusion MRI is proposed, where slice-level interleaved diffusion encoding, multiple spin/gradient echoes and slice-shuffling are combined for higher efficiency and sampling flexibility.

TL;DR: The purpose was to create a maximally time‐efficient and flexible diffusion acquisition capability with built‐in robustness to partially acquired or interrupted scans.