Objective Under the"Key Information Infrastructure Security Protection Requirements for Information Secu-rity Technology"(hereinafter referred to as"Security Protection Requirements"),this study aims to construct a security protec-tion system for medical information systems and improve their security protection capabilities.Methods Starting from the char-acteristics and security requirements of medical information systems,combined with the standard"Security Protection Require-ments",this study discusses and analyzes the construction of six aspects of security protection capabilities:identification,securi-ty protection,detection and evaluation,monitoring and warning,active defense,and event handling,and implements protection for key information infrastructure in medical institutions from both software and hardware aspects.Results A practical,system-atic,and normalized security protection system for medical information systems has been constructed to achieve comprehensive protection of medical information systems.Conclusion Under the requirements of"Security Protection Requirements",it is crucial to establish a comprehensive security protection system for medical information systems and implement the protection of key information infrastructure in medical institutions from both software and hardware aspects.This provides a scientific basis and practical guidance for network security protection in the medical industry.

Objective Under the"Key Information Infrastructure Security Protection Requirements for Information Secu-rity Technology"(hereinafter referred to as"Security Protection Requirements"),this study aims to construct a security protec-tion system for medical information systems and improve their security protection capabilities.Methods Starting from the char-acteristics and security requirements of medical information systems,combined with the standard"Security Protection Require-ments",this study discusses and analyzes the construction of six aspects of security protection capabilities:identification,securi-ty protection,detection and evaluation,monitoring and warning,active defense,and event handling,and implements protection for key information infrastructure in medical institutions from both software and hardware aspects.Results A practical,system-atic,and normalized security protection system for medical information systems has been constructed to achieve comprehensive protection of medical information systems.Conclusion Under the requirements of"Security Protection Requirements",it is crucial to establish a comprehensive security protection system for medical information systems and implement the protection of key information infrastructure in medical institutions from both software and hardware aspects.This provides a scientific basis and practical guidance for network security protection in the medical industry.

BACKGROUND:In clinical application, the structure of crista lambdoidalis of L5 was unclear. It needs to expose more tissue to define L5 entry point through transverse process or superior and inferior articular process. This increased the risk of trauma and iatrogenic superior intervertebral degeneration. Therefore, it is necessary to expose L5 entry point with a minimaly invasive way. OBJECTIVE:To investigate the accuracy of L5 pedicle screw insertion with the entry point of mastoid process slope by imaging. METHODS:Mastoid process was located on the base of L5 superior articular process. A cant was formed when the highest point of L5 mastoid process backward protuberance extended inwards and downwards. The cant was defined as mastoid process slope; it was lateral to pedicle medial superior side internaly, medial to transverse process root and superior to the top of crista lambdoidalis. The slope was first easily touched and exposed in lumbar posterior surgery through paraspinal muscle space approach. Fifty patients of lumbar spine disorders were treated by L5 pedicle screws fixation through the entry point of mastoid process slope. According to preoperative radiographic and CT images, pedicle screw insertion direction of the sagittal and transverse sections was calculated. The diameter of pedicle screw was 6.5 mm. The condition of intraoperative successful rate of screws placement at one time was analyzed. The accuracy of screw placement was evaluated by postoperative radiographic and CT images. RESULTS AND CONCLUSION:With the method of the mastoid process slope, the successful rate of screw placement at one time was 96% (96/100). Totaly 100 screws were inserted into L5. According to the criterion by Gertzbein, 95 screws (95%) totaly located in pedicles and 5 screws (5%) encroached on the pedicle from medial wal. Three (3%) out of 5 inaccurately placed screws cut out less than 2 mm of the inner wal, while 2 (2%) between 2 mm and 4 mm, without neurologic deficits. The method of mastoid process slope had a high successful rate of screw placement. Combined with preoperative X-ray films and CT images could obtain a high accuracy rate of screw insertion.