Brain MRA and CT imaging Whether there are major abnormalities and provide location information Assist the medical staff in reading.
The brain is the control tower that governs all physical activities in our body, controlling everything from the senses to the muscles throughout the body. In the case of brain disorders, the speed and accuracy of diagnosis is really important because damage to the brain can affect many things, including memory, sensation, and even personality.
However, as the number of brain MRA and CT scans that can prevent and diagnose these brain diseases increases, the time for radiologists to find abnormal findings and read positions and angles is delayed, and the amount of reading workload is excessively accumulated. there is.
The Deepnoid DEEP:NEURO medical artificial intelligence (AI) solution helps doctors to relieve the burden of these accumulated simple and repetitive tasks and increase work efficiency.
Here, ‘DEEP:NEURO’ can help you diagnose faster and more accurately.
Advances the performance of brain MRA and CT scans.
DEEP:NEURO uses artificial intelligence (AI) technology to detect abnormal areas (cerebral aneurysms, etc.) in MRA and CT images of the human brain, head and neck, and is used to assist medical personnel in making diagnostic decisions. If you input an image in the DICOM file format, the contour area of the suspected brain disease (cerebral aneurysm, etc.) is displayed.
It can reduce the burden of reading time.
If you prioritize image reading based on DEEP:NEURO's analysis result data, you can expect to improve the efficiency of CT image reading work. Visualization and quantification of suspicious areas reduces reading time and burden on specialists.
You can focus on the more serious patients first.
By providing information on suspected abnormalities through artificial intelligence (AI) analysis, doctors can quickly filter out normal images and focus on abnormal patients. Especially for radiology residents in emergency departments, it accelerates the decision-making process and treatment, allowing for faster response to patients with potentially high disease severity.
Approval from the Ministry of Food and Drug Safety (No. 20-467)
Marking the suspected cerebral aneurysm in the brain
1. AI analyzes medical image data related to each disease and assists medical institutions and doctors in reading.
2. Quickly locate the disease
Detects and alerts you to anything suspicious.
3. Easy PACS interworking / It is interlocked with the PACS in the hospital through simple DICOM communication.
Indicate the location of the suspected cerebral aneurysm
87% More than
92% More than
Ministry of Food and Drug Safety Clinical Trial Results
•Joo, Bio, et al. “A Deep Learning Algorithm May Automate Intracranial Aneurysm Detection on MR Angiography with High Diagnostic Performance.” European Radiology, 2020.
•Joo, Bio, et al. “A Deep Learning Model with High Standalone Performance for Diagnosis of Unruptured Intracranial Aneurysm.” Yonsei Medical Journal, 2021.
•Sohn, B., et al. “Deep Learning–Based Software Improves Clinicians’ Detection Sensitivity of Aneurysms on Brain TOF-MRA.” American Journal of Neuroradiology, 2021.