Howard N Hodis

Title: Innovations in Ultrasound Imaging by Howard N Hodis

Introduction

Howard N Hodis is a notable inventor based in South Pasadena, California. He has made significant contributions to the field of ultrasound imaging, holding three patents that enhance the accuracy and reliability of vascular measurements. His work focuses on developing standardized methodologies for ultrasound image acquisition and processing.

Latest Patents

Hodis's latest patents include a split-screen display system and standardized methods for ultrasound image acquisition and multi-frame data processing. This innovative methodology allows operators to replicate high-resolution B-mode ultrasound images obtained over several spaced examinations. The split-screen display shows an earlier arterial ultrasound image alongside a real-time image from a current examination. This setup enables operators to adjust the ultrasound transducer to match the real-time image with the selected earlier image, improving the measurement of dynamic material properties of arterial structures.

Another significant patent involves a system and method for improving ultrasound image acquisition and replication for repeatable measurements of vascular structures. This methodology reduces the coefficient of variation in measurements of carotid arterial IMT and diameter to approximately 1.0% to 1.25%. The images obtained contain anatomical landmarks that assist in reproducing probe angulation, ensuring consistency across follow-up examinations.

Career Highlights

Hodis has worked with prestigious institutions, including the California Institute of Technology. His innovative approaches have significantly impacted the field of medical imaging, particularly in vascular health assessments.

Collaborations

Hodis has collaborated with Robert H Selzer, contributing to advancements in ultrasound technology and methodologies.

Conclusion

Howard N Hodis's contributions to ultrasound imaging through his patents have paved the way for more accurate and reliable vascular measurements. His work continues to influence the field and improve patient outcomes.