Welcome to EPIOM, your trusted partner in the field of comprehensive neuro monitoring services. With almost two decades of experience, we have been the premier IntraOperative Neurophysiological Monitoring (IONM) service in the San Antonio area. Today, we continue to extend our exceptional services nationwide, delivering state-of-the-art professional solutions to ensure the safety and well-being of patients during surgical procedures. As a physician-directed company, our board-certified clinical staff is dedicated to surgical neuromonitoring and committed to upholding the highest standards of care.

Intraoperative Neuro Monitoring

At EPIOM, we understand the unique challenges and risks involved in procedures that potentially affect the patient’s neurological structures. Our team of experts utilizes cutting-edge technology and online remote monitoring to offer real-time assessment and interpretation by our board-certified Neurologists. By continuously monitoring cerebral functions, we empower surgical teams with faster treatment response and enhanced prognostic information, enabling them to make informed decisions and provide the best possible care.

Our commitment to patient care is at the heart of everything we do. We prioritize patient safety by offering cost-attentive services that are tailored to individual needs. As a patient-driven organization, we understand the importance of personalized care and the impact it has on outcomes. Our dedication extends beyond the operating room, as we focus on the continuing medical education of our clinical staff, ensuring they remain at the forefront of advancements in neurophysiological monitoring.

When it comes to comprehensive neuro monitoring services, EPIOM stands as your trusted partner. With our extensive experience, commitment to patient safety, and dedication to excellence, we provide the highest level of care for surgical procedures that place neurological structures at risk. Contact EPIOM today at: https://epiomneuro.com to discover how our Neuro Monitoring solutions can enhance the evaluation of cerebral functions, expedite treatment response, and provide invaluable prognostic information.