SAN CARLOS, CALIF.-- June 14, 2023 -- ZAP Surgical Systems, Inc., a leading innovator in the field of surgical robotics, today announced that Dankook University Hospital (DKUH) in Cheonan, South Korea, is slated to install the novel ZAP-X Gyroscopic Radiosurgery platform.

DKUH is the largest general hospital in Chungnam Province with 900 patient beds and 33 specialty clinics and was selected as the Chungnam Regional Cancer Center by the Ministry of Health and Welfare. The new oncology diagnosis and treatment facility is the only cancer center in the region. With the addition of ZAP-X, DKUH will provide the latest advance in brain tumor care to patients throughout the country.

Stereotactic radiosurgery (SRS) offers a non-invasive and painless treatment for many primary and metastatic brain tumors, as well as other cranial disorders such as trigeminal neuralgia and arteriovenous malformations (AVM). For select indications, radiosurgery has proven to provide equivalent to superior outcomes compared to costly and potentially debilitating surgeries. SRS is typically delivered in one to five brief outpatient visits and patients often return to normal activity the same day as the procedure.

“We look forward to introducing the newest, most advanced radiosurgical technology to the Korean market,” said Dr. Lee Sang Koo, Vice President of DKUH, Neurosurgery. “As the sole cancer center in the Chungnam region, we play an important role in the treatment of brain tumors. The integration of ZAP-X will allow us to deliver state-of-the-art treatment to the patients we serve.”

With its ground-breaking design, the ZAP-X system uses unique gyroscopic mobility to direct radiosurgical beams from hundreds of unique angles to precisely concentrate radiation on the tumor target. This pioneering approach supports the clinical objective of protecting healthy brain tissue and preserving patient cognitive function.

The vault-free, cobalt-free ZAP-X is also renowned for eliminating the expense of building costly shielded radiation treatment rooms, and removing the need to maintain, secure and regularly replace live radioactive isotopes for radiation beam production.