In the era of big data,artificial intelligence(AI)technology has developed rapidly,with medical field being one of its most deeply penetrated application domains.Leveraging the advantages of big data and AI requires the sharing and integration of medical data,yet balancing privacy protection and data sharing poses significant challenges.This paper analyzes the focus issues of patient privacy and data security in medical AI from a global perspective across 6 dimensions:challenges in data sovereignty and cross-border flow compliance,technical vulnerabilities in de-anonymization and re-identification risks,failure of informed consent mechanisms and dynamic authorization needs,regulatory gaps in algorithmic"black boxes"and data misuse,technological dependency and supply chain security risks,and the dilemma of balancing privacy protection with public health interests.Corresponding solutions and strategies are also proposed.

Objective:To investigate the iodine nutrition status of pregnant women in Zhejiang Province, explore the impact of salt industry system reform on iodine nutrition level of pregnant women, and provide scientific basis for prevention and treatment of iodine deficiency disorders.Methods:From 2016 to 2021, a multi-stage stratified sampling method was used to select 100 pregnant women from 90 counties (cities, districts) in Zhejiang Province each year as survey subjects. Salt samples were collected from pregnant women's families, and one random urine sample was taken for salt iodine and urinary iodine level testing, respectively.Results:A total of 56 581 samples of household edible salt were collected from pregnant women, with a median salt iodine level of 23.20 mg/kg. Among them, 7 961 were non iodized salt, 45 803 were qualified iodized salt, and 2 817 were unqualified iodized salt. The iodized salt coverage rate was 85.93% (48 620/56 581), and the qualified iodized salt consumption rate was 80.95% (45 803/56 581). The proportion of non iodized salt increased from 10.05% (897/8 928) in 2016 to 15.09% (1 461/9 679) in 2021 (χ 2trend = 95.16, P < 0.001). A total of 56 581 urine samples were collected from pregnant women, with a median urinary iodine level of 130.50 μg/L. Among them, the proportions of urinary iodine levels < 150, 150 - 249, 250 - 499, and ≥500 μg/L were 58.32% (32 996/56 581), 27.24% (15 410/56 581), 12.24% (6 926/56 581), and 2.21% (1 249/56 581), respectively. The median urinary iodine level of pregnant women in inland areas was significantly higher than that in coastal areas ( Z = 19.15, P < 0.001). Furthermore, urinary iodine levels exhibited a non-linear decline as age increased (χ 2regression = 12.65, P < 0.001; χ 2partial = 22.65, P < 0.001) and as pregnancy progressed (χ 2regression = 37.28, P < 0.001; χ 2partial = 18.89, P < 0.001). Conclusions:The overall iodine nutrition status of pregnant women in Zhejiang Province is in a state of iodine deficiency (< 150 μg/L), and there is a greater risk in coastal areas compared to inland areas. However, in the context of the reform of the salt industry system, it is still necessary to strengthen the quality supervision of iodized salt, provide scientific iodine supplementation education, promote specialized iodized salt for pregnant women, and strengthen interventions for prevention and control of iodine deficiency disorders.

Objective:To explore the clinical characteristics and genetic etiology of a patient with De-differentiated liposarcoma (DDLPS).Methods:A 38-year-old female patient with DDLPS who had visited Hunan Provincial People′s Hospital in January 2025 was selected as the study subject. A retrospective study method was adopted to collect the patient′s clinical data, including current and past medical history, auxiliary examinations, pathological diagnosis, and results of genetic testing. This study was approved by the Ethics Committee of Hunan Provincial People′s Hospital (Ethics No.: KY2025-150).Results:The patient had presented with abdominal pain and abdominal mass. Imaging studies revealed ascites and space-occupying abdominal lesions. Postoperative pathological examination showed that the tumor was composed of spindle cells, and its morphology and immunohistochemistry had made it difficult to distinguish between DDLPS and leiomyosarcoma. High-throughput sequencing revealed characteristic molecular alterations of DDLPS, and fluorescence in situ hybridization confirmed MDM2 gene amplification, leading to a diagnosis of DDLPS. Conclusion:The patient was diagnosed with DDLPS. Her clinical manifestations and pathological features were consistent with the characteristics of DDLPS. Molecular pathological testing played a crucial role in the diagnosis and provided a crucial reference for subsequent treatment.

Objective:To analyze the epidemiological characteristics of imported malaria in Shaoxing City and provide scientific basis for formulating prevention and control measures against imported malaria.Methods:A retrospective analysis was conducted. Data on imported malaria cases reported in Shaoxing City from 2012 to 2024 were collected from the infectious disease reporting information system of China Center for Disease Control and Prevention, and the parasitic disease control information management system, including general information, epidemiological investigation reports and diagnosis/treatment status, to analyze their epidemiological characteristics.Results:From 2012 to 2024, there were 110 imported malaria cases in Shaoxing City, including 105 males and 5 females, with a sex ratio of 21 ∶ 1. The youngest patient was 21 years old and the oldest was 73 years old, with 72 cases (65.45%) in the 30-50 age group. The 110 malaria cases included 69 cases of falciparum malaria, 22 cases of vivax malaria, 15 cases of ovale malaria, 3 cases of quartan malaria, and 1 case of mixed infection. The infection sources were Africa (84.55%, 93/110) and Asia (15.45%, 17/110). Among all patients, there were 19 foreign nationals and 91 Chinese citizens. The main purposes of travel for Chinese citizens were labor work (67.03%, 61/91) and business (29.67%, 27/91). Areas with more reported cases were Zhuji City (32 cases), Keqiao District (27 cases), Xinchang County (19 cases) and Yuecheng District (19 cases). The peak months of onset were January, July and September, with 12, 12 and 18 cases respectively. The first medical visits were mainly at county-level hospitals, center for disease control and prevention at all levels and municipal hospitals, with diagnosis rates of 86.67% (52/60), 100% (21/21) and 12/15 respectively. Compared with cases without malaria history, cases with malaria history had shorter time from onset to diagnosis (median, 5.00 d vs. 2.00 d, Z =-2.40, P = 0.004). Conclusions:From 2012 to 2024, imported malaria in Shaoxing City was mainly falciparum malaria, with Africa being the main infection source. The peak incidence occurred in summer. Male young adult overseas workers were the high-risk population. The prevention and control of imported malaria in Shaoxing City should focus on preventing relapse after importation and cure.

Objective:To analyze the iodine nutrition status of children and adolescents and influencing factors in Zhejiang Province, providing scientific basis for optimizing iodine deficiency disorders (IDD) prevention and control strategies.Methods:In June 2022, a multistage stratified sampling method was used to divide 16 counties (cities, districts, abbreviated as counties) in Zhejiang Province into three categories based on their geographical locations (average distance from the coastline): coastal areas (including Dinghai District, Jiaojiang District, Sanmen County, Cixi City and Lucheng District), sub-coastal areas (including Wuxing District, Haining City, Linping District, Fuyang District and Fenghua District), and inland areas(including Suichang County, Changshan County, Shengzhou City, Jindong District, Dongyang City and Yongjia County). One county was selected from each category, and one township (street) was selected from each county. Two administrative villages (neighborhood committees) were selected from each township (street). Ten households including all children and adolescents aged 6-17 in each household were selected from each administrative village (neighborhood committee). Demographic information and personal dietary characteristics were collected via questionnaires, while household salt and a random urine sample were tested for iodine level. Trend analysis was conducted using a χ 2trend test, and a multivariate logistic stepwise regression model was used to analyze the influencing factors of urinary iodine levels. Results:A total of 755 children and adolescents aged 6-17 were selected, including 387 males (51.26%) and 368 females (48.74%), with an age of (11.24 ± 3.32) years. There were 269 children and adolescents in coastal areas (35.63%) and 409 children and adolescents in urban areas (54.17%). A total of 755 household salt samples were collected, with a median salt iodine concentration of 21.80 mg/kg. These included 263 non-iodized salt samples, 38 unqualified iodized salt samples, and 454 qualified iodized salt samples. The coverage rate of iodized salt was 65.17% (492/755), and the consumption rate of qualified iodized salt was 60.13% (454/755). The distribution of salt iodine quality among children and adolescents in different geographical locations showed statistically significant differences (χ 2 = 111.95, P < 0.001), with the proportion of non-iodized salt gradually decreasing from coastal areas to inland areas (χ 2trend = 90.17, P < 0.001). A total of 755 urine samples were collected, with a median urinary iodine concentration of 186.60 μg/L. The proportions of urinary iodine < 100, 100-199, 200-299, and ≥300 μg/L were 16.95% (128/755), 37.62% (284/755), 24.37% (184/755), and 21.06% (159/755), respectively. The χ 2trend test revealed a nonlinear positive correlation between salt iodine level and urinary iodine level (χ 2regression = 21.98, P < 0.001; χ 2partial = 6.96, P < 0.001). The frequency distribution of urinary iodine in children and adolescents from different geographical locations and between urban and rural areas showed statistically significant differences (χ 2 = 29.63, 16.56, P < 0.001). Among them, the proportion of children and adolescents with urinary iodine < 100 μg/L gradually decreasing from coastal areas to inland areas (χ 2trend = 6.15, P = 0.013). The results of multivariate logistic regression analysis revealed that sub-coastal regions, inland regions, and urban-rural regions ( OR = 1.57, 1.53, 1.64, 95% CI: 1.11-2.24, 1.03-2.27, 1.17-2.32, P < 0.05) were significantly associated with urinary iodine levels in children and adolescents aged 6-17. Conclusions:In 2022, the iodine nutrition of children and adolescents in Zhejiang Province is generally suitable, but there is a risk of iodine deficiency among coastal children and adolescents. Geographic location and urban/rural areas are influencing factors on iodine nutrition status of children and adolescents in Zhejiang Province.

OBJECTIVE: To explore the clinical characteristics and genetic etiology of a patient with De-differentiated liposarcoma (DDLPS). METHODS: A 38-year-old female patient with DDLPS who had visited Hunan Provincial People's Hospital in January 2025 was selected as the study subject. A retrospective study method was adopted to collect the patient's clinical data, including current and past medical history, auxiliary examinations, pathological diagnosis, and results of genetic testing. This study was approved by the Ethics Committee of Hunan Provincial People's Hospital (Ethics No.: KY2025-150). RESULTS: The patient had presented with abdominal pain and abdominal mass. Imaging studies revealed ascites and space-occupying abdominal lesions. Postoperative pathological examination showed that the tumor was composed of spindle cells, and its morphology and immunohistochemistry had made it difficult to distinguish between DDLPS and leiomyosarcoma. High-throughput sequencing revealed characteristic molecular alterations of DDLPS, and fluorescence in situ hybridization confirmed MDM2 gene amplification, leading to a diagnosis of DDLPS. CONCLUSION The patient was diagnosed with DDLPS. Her clinical manifestations and pathological features were consistent with the characteristics of DDLPS. Molecular pathological testing played a crucial role in the diagnosis and provided a crucial reference for subsequent treatment.
Humans ; Female ; Adult ; Liposarcoma/diagnosis* ; Phenotype ; Proto-Oncogene Proteins c-mdm2/genetics*

The gut-brain axis is a bidirectional communication pathway connecting the central nervous system and gastrointestinal tract,playing a key role in the occurrence and development of diseases related to this axis.The vermiform appendix,as a part of the gut that is connected to the cecum,has a unique anatomical location,a rich microbiome,and abundant immune cells.Appendicitis and appendectomy have been found to be associated with the development of diseases related to the gut-brain axis.This review first introduces the anatomy and functions of the vermiform appendix and then expounds the associations of appendicitis and appendectomy with diseases related to the gut-brain axis.Furthermore,this review summarizes and prospects the mechanisms of the vermiform appendix in affecting the occurrence and development of diseases related to the gut-brain axis.
Humans ; Appendix/anatomy & histology* ; Brain ; Appendicitis ; Appendectomy/adverse effects* ; Gastrointestinal Microbiome ; Brain-Gut Axis

Objective: To investigate the scientific research capacity building of administrative offices of Centers for Disease Control and Prevention (CDCs) across 31 provinces (autonomous regions, municipalities), the Xinjiang Production and Construction Corps, and 5 separately listed cities in China, so as to provide the reference for improving the positioning of office functions and promoting the enhancement of scientific research capabilities. Methods: A self-administered questionnaire survey was conducted among heads and staff members of administrative offices in 37 CDCs. Data on office setup, general information, staffing, scientific research incentive measures and outputs were collected and analyzed. Results: The 37 administrative offices of the CDCs had an average authorized staffing size of 12 personnel. There were 17 of them setting independently allocated budgets. A total of 511 staff members were surveyed, comprising 238 males and 273 females, resulting in a male-to-female ratio of 0.87∶1. In terms of educational attainment, the majority held bachelor's degrees (225 individuals, 44.03%) or master's degrees and above (157 individuals, 30.72%). Professional technical personnel constituted the main occupational category, 302 individuals accounting for 59.10%. Intermediate professional titles were most common, 138 individuals accounting for 27.00%. From 2021 to 2023, a total of 68 research incentive measures have been implemented, and 579 personnel have received further training. These offices cumulatively led or participated in 80 scientific research projects and published 253 papers. Sixteen offices reported 10 and above scientific research outputs. These offices generally exhibited higher proportions of independently allocated budgets, greater numbers of senior professional titles, more staff with master's degrees or above, more implemented research incentive measures, and higher frequencies of staff further trainings. Conclusions The staff in the administrative offices of CDCs generally have a high level of educational attainment and include a significant number of professional technical personnel. However, their scientific research capacity remains relatively underdeveloped. It is recommended to conduct targeted professional training and research-focused lectures to enhance research literacy, leverage the strengths of multidisciplinary backgrounds, and promote cross-departmental and cross-institutional scientific research activities.

Objective:To analyze the iodine nutrition status of children and adolescents and influencing factors in Zhejiang Province, providing scientific basis for optimizing iodine deficiency disorders (IDD) prevention and control strategies.Methods:In June 2022, a multistage stratified sampling method was used to divide 16 counties (cities, districts, abbreviated as counties) in Zhejiang Province into three categories based on their geographical locations (average distance from the coastline): coastal areas (including Dinghai District, Jiaojiang District, Sanmen County, Cixi City and Lucheng District), sub-coastal areas (including Wuxing District, Haining City, Linping District, Fuyang District and Fenghua District), and inland areas(including Suichang County, Changshan County, Shengzhou City, Jindong District, Dongyang City and Yongjia County). One county was selected from each category, and one township (street) was selected from each county. Two administrative villages (neighborhood committees) were selected from each township (street). Ten households including all children and adolescents aged 6-17 in each household were selected from each administrative village (neighborhood committee). Demographic information and personal dietary characteristics were collected via questionnaires, while household salt and a random urine sample were tested for iodine level. Trend analysis was conducted using a χ 2trend test, and a multivariate logistic stepwise regression model was used to analyze the influencing factors of urinary iodine levels. Results:A total of 755 children and adolescents aged 6-17 were selected, including 387 males (51.26%) and 368 females (48.74%), with an age of (11.24 ± 3.32) years. There were 269 children and adolescents in coastal areas (35.63%) and 409 children and adolescents in urban areas (54.17%). A total of 755 household salt samples were collected, with a median salt iodine concentration of 21.80 mg/kg. These included 263 non-iodized salt samples, 38 unqualified iodized salt samples, and 454 qualified iodized salt samples. The coverage rate of iodized salt was 65.17% (492/755), and the consumption rate of qualified iodized salt was 60.13% (454/755). The distribution of salt iodine quality among children and adolescents in different geographical locations showed statistically significant differences (χ 2 = 111.95, P < 0.001), with the proportion of non-iodized salt gradually decreasing from coastal areas to inland areas (χ 2trend = 90.17, P < 0.001). A total of 755 urine samples were collected, with a median urinary iodine concentration of 186.60 μg/L. The proportions of urinary iodine < 100, 100-199, 200-299, and ≥300 μg/L were 16.95% (128/755), 37.62% (284/755), 24.37% (184/755), and 21.06% (159/755), respectively. The χ 2trend test revealed a nonlinear positive correlation between salt iodine level and urinary iodine level (χ 2regression = 21.98, P < 0.001; χ 2partial = 6.96, P < 0.001). The frequency distribution of urinary iodine in children and adolescents from different geographical locations and between urban and rural areas showed statistically significant differences (χ 2 = 29.63, 16.56, P < 0.001). Among them, the proportion of children and adolescents with urinary iodine < 100 μg/L gradually decreasing from coastal areas to inland areas (χ 2trend = 6.15, P = 0.013). The results of multivariate logistic regression analysis revealed that sub-coastal regions, inland regions, and urban-rural regions ( OR = 1.57, 1.53, 1.64, 95% CI: 1.11-2.24, 1.03-2.27, 1.17-2.32, P < 0.05) were significantly associated with urinary iodine levels in children and adolescents aged 6-17. Conclusions:In 2022, the iodine nutrition of children and adolescents in Zhejiang Province is generally suitable, but there is a risk of iodine deficiency among coastal children and adolescents. Geographic location and urban/rural areas are influencing factors on iodine nutrition status of children and adolescents in Zhejiang Province.

Objective:To analyze the epidemiological characteristics of imported malaria in Shaoxing City and provide scientific basis for formulating prevention and control measures against imported malaria.Methods:A retrospective analysis was conducted. Data on imported malaria cases reported in Shaoxing City from 2012 to 2024 were collected from the infectious disease reporting information system of China Center for Disease Control and Prevention, and the parasitic disease control information management system, including general information, epidemiological investigation reports and diagnosis/treatment status, to analyze their epidemiological characteristics.Results:From 2012 to 2024, there were 110 imported malaria cases in Shaoxing City, including 105 males and 5 females, with a sex ratio of 21 ∶ 1. The youngest patient was 21 years old and the oldest was 73 years old, with 72 cases (65.45%) in the 30-50 age group. The 110 malaria cases included 69 cases of falciparum malaria, 22 cases of vivax malaria, 15 cases of ovale malaria, 3 cases of quartan malaria, and 1 case of mixed infection. The infection sources were Africa (84.55%, 93/110) and Asia (15.45%, 17/110). Among all patients, there were 19 foreign nationals and 91 Chinese citizens. The main purposes of travel for Chinese citizens were labor work (67.03%, 61/91) and business (29.67%, 27/91). Areas with more reported cases were Zhuji City (32 cases), Keqiao District (27 cases), Xinchang County (19 cases) and Yuecheng District (19 cases). The peak months of onset were January, July and September, with 12, 12 and 18 cases respectively. The first medical visits were mainly at county-level hospitals, center for disease control and prevention at all levels and municipal hospitals, with diagnosis rates of 86.67% (52/60), 100% (21/21) and 12/15 respectively. Compared with cases without malaria history, cases with malaria history had shorter time from onset to diagnosis (median, 5.00 d vs. 2.00 d, Z =-2.40, P = 0.004). Conclusions:From 2012 to 2024, imported malaria in Shaoxing City was mainly falciparum malaria, with Africa being the main infection source. The peak incidence occurred in summer. Male young adult overseas workers were the high-risk population. The prevention and control of imported malaria in Shaoxing City should focus on preventing relapse after importation and cure.