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Advantages of modular operating rooms
Advantages of modular operating rooms(I) Efficient purification systemAir purification Modular operating rooms are equipped with advanced air purification technology, which can effectively filter pollutants such as dust particles, bacteria, and viruses in the air. The use of high-efficiency air filters (HEPA) can ensure that the air in the operating room reaches extremely high cleanliness standards. For example, in some high-level modular operating rooms, the air cleanliness can reach ISO 5 or even higher. This is crucial to reducing the risk of surgical infection and improving the success rate of surgery. Laminar flow technology Laminar flow systems have been widely used in modular operating rooms. Through reasonable airflow organization, laminar air can flow continuously and stably in the surgical area, quickly discharge pollutants generated during the operation, and keep the surgical area clean. Moreover, different types of operations can adjust the laminar flow mode as needed, such as vertical laminar flow or horizontal laminar flow, to provide the best air environment for different types of operations. (II) Quick installation and convenient upgrade Shorten construction period Since the modules are prefabricated in the factory, only simple assembly work is required at the construction site. This greatly reduces the noise, dust, and other interference caused by construction inside the hospital, and also shortens the construction period of the entire operating room. Generally speaking, the construction time of modular operating rooms can be shortened by 30% - 50% compared with traditional operating rooms, which means that hospitals can put new operating rooms into use faster and improve their medical service capabilities. Easy to upgrade and transform With the continuous development of medical technology, the equipment and functional requirements of operating rooms are also changing. The design of modular operating rooms is easy to upgrade and transform. It is easy to replace or add a module, such as updating the surgical lighting system module, adding new medical equipment modules, etc., without the need for large-scale demolition and reconstruction of the entire operating room, reducing the cost and time of upgrading. (III) Flexible space layout Customized design Modular operating rooms can be customized according to the actual needs and types of operations of different hospitals. Whether it is a multi-functional operating room required by a comprehensive hospital or a dedicated operating room for a specific operation in a specialized hospital, it can be achieved by reasonably selecting and combining modules. For example, for cardiac surgery, a larger surgical operation space and a dedicated extracorporeal circulation equipment placement module can be designed; for ophthalmic surgery, the space module for lighting and microscope operation can be optimized. Adapt to different sites. It can adapt to various building site conditions. Whether it is the planning and design of a new hospital or the renovation and utilization of an existing hospital building, a modular operating room can be flexibly embedded in it. The size and connection method of its modules can be adjusted according to the actual site, making full use of limited space resources and improving the utilization rate of hospital space. (IV) Intelligent and information integration Intelligent equipment management In a modular operating room, the intelligent equipment management system can monitor the operating status of various medical equipment in the operating room in real-time. Through sensors and network technology, medical staff can remotely understand the parameters, fault warnings, and other information of the equipment, do equipment maintenance and preparation in advance, and ensure the smooth progress of the operation. For example, intelligent monitoring of key equipment such as operating tables, shadowless lamps, and anesthesia machines can detect potential problems in time and avoid delays in surgery caused by equipment failures. Convenient information interaction The information interaction between the operating room and other departments of the hospital has been better realized in the modular operating room. Through the integration of hospital information systems (HIS), electronic medical record systems (EMR), and imaging information systems (PACS), the surgical team can quickly obtain comprehensive information about the patient in the operating room, including medical history, examination reports, imaging data, etc. At the same time, the data and records during the operation can also be fed back to the relevant departments in real-time, realizing the seamless connection of medical information and improving the efficiency of medical collaboration. (V) Excellent safety performance Electrical safety The modular operating room fully considers safety factors in the design of the electrical system. Multiple safety protection measures such as leakage protection and overload protection are adopted to ensure the safe operation of various electrical equipment in the operating room. At the same time, the layout of the electrical lines is reasonable, avoiding the potential safety hazards caused by line chaos, and the design takes into account the special situations that may be encountered in the operating room, such as emergency power supply during emergency power outages, to ensure that the operation can be completed safely in emergencies. Fire prevention and earthquake resistance In terms of material selection and structural design, the modular operating room has good fire prevention and earthquake resistance. Most of the building materials used in the operating room have fire retardant properties, which can effectively prevent the spread of fire. Its structural design takes into account the impact of natural disasters such as earthquakes. Through reasonable mechanical structure and connection methods, the stability of the operating room in earthquakes is improved to ensure the life safety of medical staff and patients. |
