Developers: | Samara State Medical University (SamSMU) |
Last Release Date: | January 2023 |
Branches: | Pharmaceuticals, Medicine, Health Care, Medical Centers, Dispensaries, Hospitals, Hospitals, Research Medical Organizations |
Content |
Autoplan is registered by Roszdravnadzor as the first Russian surgical navigation system. The equipment can be used in planning trauma and orthopedic operations, in abdominal, endocrine and oncological surgery, as well as in neurosurgery.
2023
Development of a device for removing fragments from the patient's body using an electromagnet
Specialists of the Engineering Center of Samara State Medical University and the Main Military Clinical Hospital named after Academician N. N. Burdenko have developed a device for removing fragments from the patient's body using an electromagnet. The device works under the control of the first Russian surgical navigation system AUTOPLAN. This was reported in the press service of the university at the end of August 2023. Read more here.
New Release
In January 2023, Samara State Medical University received a registration certificate for an updated version of the Autoplan surgical navigation system. In particular, an additional rack with a monitor appeared in it, for the convenience of the expanded surgical team.
The new version integrates with Zeiss and Leica microscopes to use Autoplan in vascular surgery. When integrated into the eyepieces of the microscope, the navigation station in augmented reality mode transmits visual information about the pathology focus: for example, tumor boundaries, aneurysm segmentation. This helps the surgeon with manipulations on small anatomical structures (up to 2 mm).
According to the developers, the navigator increases the accuracy of surgery and reduces the time for diagnosis and surgery, which helps to reduce blood loss, tissue damage, which reduces the risks of complications. AUTOPLAN allows you to continuously monitor surgical instruments regarding the anatomical structures of the patient, avoiding damage to functionally significant areas, and display them in real time on a monitor screen with an intuitive interface.
First, a CT or MRI scan is performed on the patient, then the images are loaded into a program that builds anatomical structures based on them, helping the surgeon to highlight the "zone of interest" and plan the penetration trajectory before the operation. After that, the virtual model is "combined" with the patient, and under the control of navigation, the operation is carried out.
By January 2023, Autoplan is used in neurosurgery, traumatology, spinal, maxillofacial, endocrine surgery. With its help, more than 1,500 high-tech operations have already been performed. According to Chaplygin, the developers are constantly improving the system based on feedback from doctors.[1]
2019: Serial Production of the System
Holding "Roselectronics" State Corporation Rostec will launch into mass production the development of Samara State Medical University - the Autoplan surgical system. The state corporation announced this on May 27, 2019. Innovative equipment will reduce the time of operation and the risks of possible complications.
The Autoplan system is a multifunctional complex that allows you to plan surgery in detail using the construction of an anatomical ZD-model of internal organs. A volumetric image is created based on MRI and CT studies of the patient. The system allows you to project the position of the 3D model in relation to the human body and accurately determine the location of the pathology. This is especially important in cases where access to the operated area is difficult. Thus, Autoplan limits the likelihood of medical errors and the risks of possible complications. In addition, due to detailed planning of the course of the operation, the time for its implementation is reduced.
Serial production will be launched on the basis of the enterprise JSC IMC Concern Vega (part of Roselectronics).
This development has already proven its effectiveness in clinical trials - with its help more than 500 successful operations were carried out. Earlier, together with SamGMU, we launched a joint production of the ReviVR neurotrenager for the rehabilitation of patients after a stroke and the ReviMotion hardware and software complex for the rehabilitation of children with impaired motor activity. Autoplan will complement our line of partner projects. This is an example of effective interaction between science and industry in the interests of the national project "Healthcare," - said the executive director of Rostec Oleg Yevtushenko. |
According to the director of the Institute for Innovative Development of SamGMU, Professor of the Russian Academy of Sciences Alexander Kolsanov, the creation of breakthrough developments at the junction of directions and disciplines is one of the tasks of a modern university. In collaboration with industrial partners, the medical university manages to create and implement the technological solutions of tomorrow in practical healthcare.