Objective To investigate and analyze the resources and application frequency of radiological diagnosis and treatment in Jinan City in 2023 and provide a basis for the rational application of radiological diagnosis and treatment resources and strengthening radiological health protection management. Methods The health administrative department issued a work plan. A general survey was conducted on radiological diagnosis and treatment institutions (excluding dental clinics) in Jinan City using a questionnaire. The survey covered the basic information of the radiological diagnosis and treatment institutions, the distribution of the radiological diagnosis and treatment equipment, the number of radiological workers, and the frequency of radiological diagnosis and treatment. Results There were 301 radiological diagnosis and treatment institutions in Jinan City, with 1603 sets of radiological diagnosis and treatment equipment and 5789 radiological workers. These institutions included 41 (13.62%) tertiary hospitals, 57 (18.94%) secondary hospitals, 110 (36.54%) primary hospitals, and 93 (30.90%) ungraded hospitals. Tertiary hospitals had the highest proportions of radiological diagnosis and treatment equipment and workers, accounting for 49.53% and 69.10% of the total, respectively. The frequencies of radiological diagnosis and treatment were 868.86 X-ray diagnostic imaging examinations per 1000 population, 5.07 radiotherapies per 1000 population, 14.19 interventional diagnostic and therapeutic procedures per 1000 population, 7.36 nuclear medical diagnostic procedures per 1000 population, and 0.56 nuclear medical therapeutic procedures per 1000 population. The frequency of CT diagnosis was the highest, reaching 407.76 procedures per 1000 population. Conclusion The radiological diagnosis and treatment resources and activities in Jinan City were mainly concentrated in tertiary hospitals, with unbalanced distribution among hospitals of different grades. It is necessary to apply various medical radiations correctly and reasonably and strengthen radiation protection to reduce the frequency of radiation and the collective effective dose.

Objective:To investigate the current status of diagnostic X-ray resources in Jinan in order to provide theoretical basis for continuously optimizing the allocation of diagnostic resources and strengthening the management of radiological health and radiation protection.Methods:In accordance with the 2023 Jinan radiation protection monitoring program of medical and health institutions, a survey was carried out for medical institutions involved in diagnostic X-ray examinations (excluding military hospitals and dental clinics) in Jinan by using uniform questionnaires. The survey included the basic situation of diagnostic X-ray institutions, the allocation of diagnostic X-ray equipment, the number of diagnostic staff, and the frequency of diagnositic X-ray examinations.Results:In 2023, there were 298 diagnostic X-ray institutions in Jinan, with 3 494 diagnostic workers and 1 387 items of diagnostic X-ray equipment. The included were 41 tertiary hospitals, 57 secondary hospitals, 110 primary hospitals and 90 unrated hospitals. The tertiary hospitals possessed the largest number of the diagnostic workers and equipment, accounting for 60.99% and 45.35% of the total, respectively. Among all the items of diagnostic X-ray equipment, the number of items of digital radiography equipment ranked top (34.37%), followed by CT machines (24.44%). There were 147.32 items of diagnostic X-ray equipment per million population on average. A total of 8 180 363 individuals received various types of diagnostic X-ray examinations, with CT diagnosis accounting for 46.93% and X-ray for 34.41%. The frequency of diagnostic X-ray examinations was 868.86/1 000 population, including the frequency of CT examinations of 407.76 per 1 000 population.Conclusions:The per capita possession of medical X-ray equipment in Jinan is at a high level. The frequency of medical exposure has increased significantly, especially CT examinations. There is a big gap in diagnostic X-ray resource allocation between different levels of hospitals, so it is necessary to control the resource allocation and strengthen the protection of CT examination on the scientific basis.

Objective:To investigate the current status of diagnostic X-ray resources in Jinan in order to provide theoretical basis for continuously optimizing the allocation of diagnostic resources and strengthening the management of radiological health and radiation protection.Methods:In accordance with the 2023 Jinan radiation protection monitoring program of medical and health institutions, a survey was carried out for medical institutions involved in diagnostic X-ray examinations (excluding military hospitals and dental clinics) in Jinan by using uniform questionnaires. The survey included the basic situation of diagnostic X-ray institutions, the allocation of diagnostic X-ray equipment, the number of diagnostic staff, and the frequency of diagnositic X-ray examinations.Results:In 2023, there were 298 diagnostic X-ray institutions in Jinan, with 3 494 diagnostic workers and 1 387 items of diagnostic X-ray equipment. The included were 41 tertiary hospitals, 57 secondary hospitals, 110 primary hospitals and 90 unrated hospitals. The tertiary hospitals possessed the largest number of the diagnostic workers and equipment, accounting for 60.99% and 45.35% of the total, respectively. Among all the items of diagnostic X-ray equipment, the number of items of digital radiography equipment ranked top (34.37%), followed by CT machines (24.44%). There were 147.32 items of diagnostic X-ray equipment per million population on average. A total of 8 180 363 individuals received various types of diagnostic X-ray examinations, with CT diagnosis accounting for 46.93% and X-ray for 34.41%. The frequency of diagnostic X-ray examinations was 868.86/1 000 population, including the frequency of CT examinations of 407.76 per 1 000 population.Conclusions:The per capita possession of medical X-ray equipment in Jinan is at a high level. The frequency of medical exposure has increased significantly, especially CT examinations. There is a big gap in diagnostic X-ray resource allocation between different levels of hospitals, so it is necessary to control the resource allocation and strengthen the protection of CT examination on the scientific basis.

Objective To investigate the exposure level of radioactive hazard factors and the health management of radiation workers in non-medical radiation institutions (excluding military institutions) in Jinan, China through radioactive hazard factor monitoring, to identify the weak links, and to provide a scientific basis for future work priorities. Methods According to the monitoring plan formulated by Jinan Municipal Health Commission, the task undertaking institutions at all levels in Jinan investigated the types of radioactive hazard factors, detection, training, and health monitoring of 101 non-medical radiation institutions in Jinan. In addition, the workplace radiation levels were detected in 25 institutions of 6 types of monitoring objects, including industrial flaw detection, non-medical accelerator, non-sealed radioactive material workplace, nuclear instrument, baggage detector, and others. Results The investigation objects included institutions engaged in industrial flaw detection, nuclear instrument, luggage detector, non-medical accelerator, non-sealed source workplace, and others. Of these institutions, 91.84% were equipped with radiation protection detectors, 92.86% were equipped with personal dose alarm, 97.73% were equipped with personal protective equipment, 94.36% performed radiation protection training, 92.69% employed radiation workers with certificates, 95.77% performed personal dose detection, 94.83% performed occupational health examination, and 100.00% were qualified for radiation protection detection in workplace. Conclusion There is still a gap between the radiation protection status of non-medical institutions in Jinan and the national regulations and standards, so it is necessary to further strengthen supervision and law enforcement and make greater efforts in training and publicity.

Objective:To explore the relationship between ten‐eleven translocation 2 (TET2) Mutations and Expression of 5hmC in breast cancer .Methods :TET2 mutations in breast cancer tissues from 100 patients were detected by Sanger method . The expression of 5hmC in breast cancer tissues was detected by immunohistochemistry . The relationship between TET2 mutations and expression of 5hmC was analyzed .Results :A total of 13 kinds of TET2 mutations were identified in 100 patients .Among them ,3 new types of mutations were identified in 4 patients . They were Ala341Val , Leu1622Phe and Pro1578Tyr .Pro1578Tyr was identified in two patients .And immunohistochemical analysis showed that there was a sharp reduction of 5hmC in breast cancer tissues with TET2 mutations than in breast cancer tissues without TET2 mutations . Conclusions :T ET2 mutations can lead to decrease of 5hmC level in breast cancer .