ABSTRACT
OBJECTIVE: To analyze the research status and developmental trend of open-access patents at home and abroad of radioactive decontamination technology for human body surface. METHODS: The basic information of open-access patents related to human body radioactive decontamination was searched and collected from the IncoPat Global Patent Database. Based on patent analysis method, the number of patent application, legal status, patent types, application trends, applicants, functional application fields, and citations were analyzed and compared, with focus on their research and development capabilities in domestic and foreign patent application status.RESULTS: A total of 981 patents of radioactive decontamination technology for human body surface were retrieved. Among them, 144 were domestic(14.7%) and 837 were from abroad(85.3%). After merge, 207 patents were confirmed, 88 were from domestic(42.5%) and 119 from abroad(57.5%). The top 5 countries with the most patents were China, Japan, the United States, France and Germany with patent amount of 88, 47, 20, 14 and 13 respectively,accounting for 87.9%(182/207) of all patents. Japan had a large number of patents with a stable growth; France and Germany started patent research very early; the United States focused on technology inheritance; Chinese patent applications are developing rapidly, followed by South Korea, and Russia had few open-access patents. Chinese patent applicants were mainly from Beijing with major enterprises and government organizations. Patents in China had few patent family, foreign patents had a wide distribution, 35.3% of which had more than five of the same family. The proportions of valid patents, utility model patents and patents of integrated device & technology in China were higher than that from abroad(35.2% vs 17.6%, 53.4% vs 3.4%, 62.5% vs 26.9%, P<0.01). The proportion of domestic patents citing other patents in China was lower than that from abroad(13.6% vs 52.1%, P<0.01), but the proportion of Chinese patents cited by other patents showed no statistical significance compared with that of abroad(27.3% vs 39.5%, P>0.05). CONCLUSION: Patents of radioactive decontamination technology for human body surface in China have developed rapidly in recent years. Patent emphasis is placed on integration and multifunctionality. However, the awareness of patent protection and regional layout is not strong enough, and the technical level needs to be improved. It is suggested to propose strategic deployment as soon as possible and strengthen technological research, development and innovation.
ABSTRACT
OBJECTIVE: To investigate the effect of health education in the treatment of pneumoconiosis patients with bronchoalveoar lavage( BAL) during perioperative period. METHODS: Ninety-six pneumoconiosis patients treated with BAL in hospital were divided into observation group and control group( 48 cases in each group). The patients in the control group were given routine perioperative health education, and the patients in the observation group implemented perioperative health education in accordance with the health education pathway. Adverse reactions in hospital were collected,and the awareness of perioperative health knowledge of BAL was surveyed. RESULTS: Before implement of the health education pathway,there was no difference( P > 0. 05) in the health knowledge between the 2 groups. After implementation of the health education pathway,the awareness of health knowledge of observation group and control group were higher than that of the same group before implementation of the health education pathway( P < 0. 01). The awareness of 15 items of health knowledge was higher( P < 0. 05) and the incidences of intraoperative cough and postoperative low fever were lower in the observation group than in the control group( 4. 2% vs 25. 0%,2. 1% vs 16. 7%,P < 0. 05).CONCLUSION: Executing effective healthy education pathway in perioperative BAL is helpful to improve the knowledge of disease prevention and control in pneumoconiosis patients,and reduce the occurrence of adverse reactions during BAL.