CINA-VCF Quantix
EU certification granted for AI algorithms for quantification of vertebral compression fracture and fracture detection of the cervical column.
Merseille, France, June 5, 2025 / Prnewswire / -The company of the medical images Avicenna.AI announced today that it has received the CE Mark certification for CINA-VCF quantix, an algorithm from again designed to detect and evaluate compression fractures to vertebral not bewitched (VCFS) in patients with CT for CT not recurring. The company also obtained the CE Mark certification for Cina-Cspine, an AI tool designed to detect and classify cervical spine fractures from CT images.
CINA-CSPIN
The CE brand means that both products meet the strict health and safety standards required by the European Union, which allows them to deploy throughout the European economic zone without additional regulatory barriers.
VCF, often caused by bone deterioration due to osteoporosis, can cause significant pain, deformity and loss of height. In the United States alone, approximately 750,000 adults suffer from Osteoporotic VCs annually, but almost two thirds are not diagnosed, increasing the risk of additional fractures and complications.
CINA-VCF Quantix is intended for patients for 50 years or more who are subjected to computerized thorax and/or abdomen for other conditions. The automatically label tool the vertebrae and calculates the vertebral height loss relationships in the thoracic and lumbar column. If a vertebral height loss ratio exceeds 20%–25%, indicating a moderate to severe VCF, Cina-VCF Quantix generates a passive notification, which leads the radiologists to report early findings and support the patient’s proactive care.
“Osteoporotic vertebral fractures can have a deep impact on patient’s quality of life. The launch of Cina-VCF Quantix in Europe represents a great step forward in preventive care, training clinicians to intervene before minor fractures increase,” said Cyril Di Grandi, co-founder and CEO of Avicenna. “By encouraging the report of the presence and severity of VCF, Cina-VCF Quantix has the potential to make a real difference in the results of the long-term patients.”
The fractures of the cervical column, typically caused by trauma, involve breaks in one or more of the seven cervical vertebrae in the neck. If the spinal cord is affected, these fractures can cause neurological damage or paralysis. Early diagnosis and treatment are critical to improve results and minimize long -term complications.
CINA-CSPIN automatically marks suspicion of acute cervical spine fractures, alerting radiologists through their existing systems for faster diagnosis and intervention.
“The launch of Cina-Cspine in the European market marks a significant step in trauma care. By reducing the time between scanning and diagnosis, we are helping radiologists to catch cervical spine fractures more quickly and reliably, a crucial advance when every minute counts,” said Di Grandi. “Cina-Cspine serves as a second pair of eyes, improving diagnosis confidence and, ultimately, improving the results of patients in Europe.”
All Avicenna products. The company’s products portfolio also includes AI tools for:
Intracranial hemorrhage (Cina -ich) Great vessel occlusion (CINA-LVO) Aortic dissection (CINA-AD) Pulmonary embolism (CINA-PE and CINA-ICE) Vertical compression fractures (CINA-VCF) and appearance score for quantification of the severity of stroke (CINA CINA).
About Avicenna.AI
Founded in 2018, Avicenna.AI specializes in providing medical care solutions that use deep learning to identify, detect and quantify severe pathologies of medical images CT. Co -founded by Cyril Di Grandi, a successful businessman who previously co -founded Olea Medical, and Dr. Peter Chang, an internationally recognized radiologist, and an expert in AI and deep learning, Avicenna.AI aims to accelerate the therapeutic processes of therapeutic decision -making and improve the results of patients through their radiology solutions based on AI. For additional details, stay connected to us on social networks and explore the Avicenna.AI website at www.avicenna.Ai.
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