Rajeev K. Badkul, MS

This study evaluates a beryllium oxide (BeO)–based optically stimulated luminescent (OSL) dosimetry system (myOSL, RadPro Int. GmbH) for clinical radiotherapy applications.

A recent case is presented to highlight that the MR-conditional hover-based Zephyr system which allows smooth patient transfer while preserving needles/applicators can pose sever thermal injury during MRI scanning on a 1.5 Tesla scanner and requires safety me...

Cs-131 tile implant–based intracranial brachytherapy requires coordinated interdisciplinary efforts spanning imaging, source management, implantation, post-implant planning, and radiation safety. The extent of inter-institutional variability in these practice...

There is little objective data to guide clinician decisions regarding use of intracavitary (IC) versus combined intracavitary–interstitial (IC/IS) applicators during cervical cancer brachytherapy. Data from retroEMBRACE indicate HRCTV volumes ≥30 cc predict b...

Spatially fractionated proton therapy enables spatial dose modulation that may improve normal tissue tolerance; however, generating controlled peak–valley dose patterns while maintaining adequate target coverage remains challenging. In particular, achieving c...

To present our institution’s LINAC-based accelerated volume-staged stereotactic radiosurgery (AVS-SRS) planning strategy and outcomes for large (≥6 cc), high-risk cerebral AVMs, where surgical resection and trans-arterial embolization were technically or clin...