Modular operating room

The following is a detailed introduction to the modular operating room
Concepts and Principles
Concept: A modular operating room is a modern way of building operating rooms that uses prefabricated modules processed in factories and assembled on-site. It is composed of multiple prefabricated modules, each of which is an independent functional unit and can include surgical areas, preparation areas, recovery areas, etc., and can be combined and adjusted as needed.
Technical principle: Highly integrated and standardized, advanced materials and technologies are adopted, such as steel structure frames, double-sided magnesium oxide board walls, and aluminum fasteners, to ensure stability and durability. It is equipped with an intelligent control system inside, which can monitor and adjust parameters such as temperature, humidity, and wind speed in real-time. At the same time, it pays attention to the design of air purification and filtration systems to reduce the content of dust and microorganisms in the air.
Advantage
Design and Construction
Shorten the construction period: Prefabricated modules are produced in the factory and only need to be assembled on site. Compared to the traditional welding construction method, it significantly reduces construction time.
Flexible customization: According to the actual needs of the hospital, different functional modules can be flexibly combined to meet the special requirements of various surgical types and departments.
Low construction pollution: Modular construction reduces the generation of construction waste. During installation, there is no need for large-scale welding and other processes that produce noise and dust, having a relatively small impact on the normal operation of other areas of the hospital.
Usage and Maintenance
Efficient space utilization: A reasonable module design can optimize the layout of the operating room, save operating room space, meet the arrangement of complex pipelines, and enable the surgical and anesthesia teams to easily obtain equipment and supplies.
Convenient for maintenance and renovation: The modular structure allows for 360-degree disassembly. When a single module malfunctions, it can be directly disassembled and replaced, minimizing the delay in the operation of the operating room and facilitating its upgrade and renovation.
Reusability: Compared with the traditional method of one-time installation that cannot be disassembled and reinstalled, modular basic components can be moved, disassembled, and reassembled multiple times for repeated use. The overall structure has a high reuse rate and saves costs.
Environment and Safety
High cleanliness: Equipped with advanced air purification and filtration systems, it can effectively reduce the content of dust and microorganisms in the air, providing a highly clean environment for surgery and lowering the risk of infection during the operation.
Energy conservation and environmental protection: The use of energy-saving and noise-reducing materials, such as sound-absorbing materials, helps to lower the noise in the operating room. At the same time, it performs well in heat preservation and insulation, reducing energy consumption.
Safe and reliable: The wall is anti-static, does not produce or accumulate dust, is moisture-proof, mold-proof, corrosion-resistant, flame-retardant, and not easy to crack, and is impact-resistant, providing multiple guarantees for surgical safety.
System composition
Architectural decoration system: It includes walls, ceilings, and floors composed of materials such as light steel keels, color steel plates, and aluminum ceiling panels, providing a sealed, clean, and beautiful surgical space.
Air purification system: Through equipment such as primary, medium, and high-efficiency filters, the air entering the operating room is filtered and purified to ensure the cleanliness of the air inside the operating room. At the same time, air conditioning units are equipped to regulate the temperature and humidity in the operating room.
Electrical system: including strong current system and weak current system. The strong current system provides power support for surgical equipment, lighting equipment, etc. The weak current system encompasses the monitoring system, call system, background music system, etc., to achieve intelligent management of the operating room.
Medical gas system: It provides medical gases such as oxygen, nitrous oxide, carbon dioxide, and compressed air, which are transported through pipelines to various gas terminals in the operating room to meet the medical needs during the surgical process.
Surgical equipment system: It includes various advanced surgical equipment such as operating tables, shadowless lamps, anesthesia machines, monitors, laparoscopes, and ultrasonic scalpels. These devices are integrated with other systems in the operating room through modular interfaces to achieve collaborative work.
Intelligent application
Digital integration: By leveraging Internet of Things (IoT) technology, a digital platform covering the entire process from preoperative to postoperative care is constructed to achieve interconnection and interoperability of core medical equipment data and real-time sharing of hospital information system images, providing doctors with comprehensive patient information and surgical data support.
Intelligent control: Through an intelligent control system, doctors and nurses can centrally control the temperature, humidity, lighting, air purification, and other equipment in the operating room by touching the screen or giving voice commands, thereby improving the efficiency and comfort of the operation.
Surgical navigation and assistance: By leveraging technologies such as artificial intelligence and 3D visualization, for instance, artificial intelligence technology can be used to 3D display the contour of tumors, the location of blood vessels, and the direction of white matter fiber movement, while precisely locating the lesion and defining the range of radiotherapy exposure. Moreover, through AI voice, gesture recognition, and algorithmic surgical navigation, the success rate and efficiency of surgeries can be enhanced.