Iranian Specialists Indigenize Training Arm for Child Intravenous Injection
“Child intravenous injection training arm is placed in the category of medical and health equipment, medical educational equipment and testing equipment and therapeutic necessities, medical, diagnostic and therapeutic software and physical training software and it is used dermally and subcutaneously in the training of child intravenous injection and child venous blood collection,” said Mehdi Azizi, the managing director of the knowledge-based company.
“Also, for the first time in Iran, we have made adult intravenous injection moulage which enjoys a smart design and high-quality materials, and compared to foreign samples, it has a very low price and high quality,” he added.
“This product has eight main veins - similar to the anatomy of the body - silicone skin with the ability to puncture at least a thousand times without leakage, silicone veins with the ability to puncture at least 500 times without leakage, artificial blood for feedback to the student, washable hand trunk and spare parts,” Azizi explained.
In a relevant development in November, Iranian researchers at a knowledge-based company had also used artificial intelligence to reach a new technology that can help surgeons in brain operations.
Alireza Ahmadian, the managing director of the knowledge-based company, described new technology as a comprehensive navigation system for brain, nerves, ear, nose, spine, jaw, face and throat surgeries, and underlined, “This system can perform all types of surgeries from biopsies to more complex surgeries and has a great impact on improving the quality and precision of operations.”
“This system plays an effective role, specially in complex and dangerous surgeries that led to high mortality in the past. In the field of brain and neurosurgery, this system has different capabilities, including use in deep brain stimulation and tumor dissection,” he added.
Ahmadian underlined the use of artificial intelligence tools to separate the cerebral vessels of each person in this surgical system, and said, “This innovative technology, using advanced deep learning algorithms, enables the analysis of complex medical data and brain imaging, and it can provide a detailed map of the vascular structure which can help surgeons plan their surgeries more accurately and reduce possible risks during the operation.”
“The use of this technology allows the surgeon to ensure that the tumor is completely removed without damaging the surrounding healthy tissues,” he said.
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