News & Information

As a standardized sterile consumable set for clinical surgery, the Simplified Universal Surgical Pack has become the preferred choice for medical institutions at all levels due to its pre-assembled integration, full-process sterile assurance, and flexible adaptability. From the three dimensions of clinical compliance, operational efficiency, and protection reliability, its core advantages constitute the key logic for medical institutions to make their selection. The following is an analysis combined with the product's technical characteristics and clinical application needs.

1. Standardized Sterile System: Fortifying the Bottom Line of Clinical Infection Control

The product strictly complies with the ISO 13485 medical device quality management system standard and the GB 15980 sterile medical supplies standard. It adopts an ethylene oxide sterilization process throughout the entire process, achieving a sterility assurance level (SAL) of 10⁻⁶, which fully meets the sterile requirements for surgical consumables specified in the "Measures for the Administration of Hospital Infections". The packaging is made of high-seal composite film material, equipped with tear lines and sterile indicator labels for intuitive judgment of sterilization effectiveness. Before use, only the integrity of the packaging needs to be verified, with no additional sterilization required, avoiding the risk of secondary contamination from the source. All components have undergone biocompatibility testing, with no cytotoxicity, sensitization, or irritation, and comply with the EN ISO 10993 biosafety standard, providing dual protection for both medical staff and patients.

2. Modular Configuration Design: Adapting to Diverse Clinical Scenario Needs

Adopting a modular structure of "basic core + scenario-specific options", it achieves a balance between versatility and personalization. The basic configuration includes core protective items such as surgical gowns, sterile surgical drapes, surgical caps, and medical surgical masks, meeting the basic sterile requirements of various surgeries. The optional configuration covers extended components such as sterile gloves, shoe covers, examination pads, and equipment covers, which can be flexibly combined according to the type of surgery (general surgery, orthopedics, obstetrics and gynecology, etc.) and operational scenarios (operating rooms, ambulatory surgery centers, clinics). The component specifications have been optimized for clinical adaptation: for example, surgical gowns are made of SMS composite fabric, featuring both breathability and impermeability; surgical drapes are reserved with operational openings to fit surgical posture needs; gloves comply with EN 455 standards, offering a snug, non-slip fit and high fingertip sensitivity, ensuring operational convenience and effective protection.

3. Process Optimization and Cost Control: Enhancing Clinical Operational Efficiency

The pre-assembled integration design greatly simplifies the preoperative preparation process. It eliminates the need for medical staff to sort and verify consumables one by one, reducing the surgical preparation time by more than 30% and facilitating the standardization of clinical processes. The disposable design saves the cleaning, disinfection, sterilization, and storage costs of traditional reusable consumables, while avoiding the risk of cross-infection during reuse and reducing the cost of hospital infection control. The independent packaging design (1 set/package) facilitates storage, retrieval, and inventory management. It supports customized component combinations according to the needs of medical institutions, reducing consumable waste. Through large-scale production and supply chain optimization, the product achieves cost control while ensuring medical-grade quality, meeting the lean operation needs of medical institutions.

With the core advantages of sterile standardization, modular configuration, and user-friendly operation, the Simplified Universal Surgical Pack not only meets the strict requirements of clinical infection control but also adapts to the operational needs of diverse surgical scenarios. It simultaneously optimizes the efficiency of medical resource allocation, serving as an important support for the standardized and efficient conduct of diagnostic and therapeutic work in modern clinical surgery. Its selection logic is essentially a comprehensive optimal solution balancing medical safety, clinical adaptability, and operational economy. If you want to know more, please click the link.