OBJECTIVE To investigate the direct economic losses caused by surgical site infection(SSI)in patients undergoing orthopedic surgery and provide references for medical institutions to develop infection prevention and control measures.METHODS Clinical data of 8 207 patients undergoing orthopedic surgery from the People's Hospital of Sanshui District,Foshan City,between 2021 and 2023 were retrospectively collected.Among them,98 patients with SSI were assigned to the SSI group,while non-infected patients were included in the non-infection group.Based on a 1∶1 matched case-control principle,68 well-matched pairs of case-control samples were select-ed for comparative analysis.Key indicators such as hospitalization costs and postoperative hospital stays were de-scribed as medians,and intergroup differences were analyzed with the Wilcoxon signed-rank test.RESULTS The SSI incidence rate was 1.19％(98/8 207).Compared to non-infected patients,those with SSI had an average pro-longed postoperative hospital stay of 13.95 days,with an average direct economic loss of RMB 14 305.50 yuan per case.Direct economic losses due to SSI varied among patients with different surgical sites,age groups and wheth-er medical devices were implanted.There were statistically significant differences in the increased hospitalization costs and postoperative hospital stays between the SSI group and the non-infected group(P＜0.05).CONCLUSIONS SSI in patients undergoing orthopedic surgery leads to increased hospitalization costs,prolonged postoperative hospital stays and greater direct economic losses.Therefore,medical institutions should implement a series of efficient and targeted prevention and control measures to effectively reduce SSI incidence rate,there-by improve medical quality and patient safety.

IGF-1 is involved in the growth and development of mammals,but its role in sebaceous gland excretion,B16 cell proliferation,and migration in the skin has not been reported yet.This study aims to reveal the function of IGF-1 by detecting its expression in animal skin.Using nano-body screening and purification methods,IGF-1 nanobodies(IGF-1-VHH)were obtained.Using IGF-1-VHH as the primary antibody,Western blot and immunohistochemistry were used to detect the expression of IGF-1 in bovine skin and alpaca acne.IGF-1-VHH was added to melanoma B16 cell culture medium,and CCK-8 and scratch healing methods were used to detect the effects of IGF-1 nanobodies on B16 cell proliferation and migration,as well as their possible molecular mech-anisms.The results showed that the obtained IGF-1-VHH could be applied in immunohistochemis-try and Western blot detection methods,with strong IGF-1 positive expression signals in bovine sebaceous glands and alpaca acne.IGF-1-VHH binds to IGF-1 in cells and has a certain inhibitory effect on the proliferation and migration of B16 cells by regulating the expression of RAS,ERK,and RAF.In summary,IGF-1 maybe involved in the secretion and excretion of sebum in animal skin.IGF-1-VHH inhibits the proliferation and migration of B16 cells by binding to IGF-1,provi-ding a new theoretical basis for ensuring normal physiological function of the skin and clinical di-agnosis and treatment of melanoma.

Fanconi anemia (FA) is a hereditary bone marrow failure syndrome that is characterized by genomic instability and heightened sensitivity to DNA cross-linking agents. In recent years, the CRISPR-Cas9 technology has exhibited groundbreaking progress in the field of gene therapy for FA. The traditional CRISPR-Cas9 technology has been successfully applied in FA gene editing. Further, single-base editing technology, based on the CRISPR/Cas9 system, performs precise and efficient gene repair for prevalent gene mutations in patients with FA. The prime editing technology provides new possibilities for gene editing; however, its application in FA has not been initiated. Despite significant advancements in FA gene editing technology, several challenges remain, including the collection of sufficient hematopoietic stem cells, the risk of increased tumorigenesis postgene editing, chromosomal instability, and off-target effects. Future research is recommended to focus on optimizing sgRNA and Cas9 nucleases, designing stricter PAM sequences to reduce off-target effects, and devising personalized gene editing strategies. Further, ethical and regulatory issues as well as long-term follow-ups are crucial priorities for future gene editing work. With continuous technological advancements and in-depth clinical trials, we expect more breakthroughs in FA treatment using the CRISPR-Cas9 technology in the future. This article reviews the latest research progress of CRISPR technology in FA treatment and analyzes the advantages and disadvantages of this technology in FA gene therapy.

IGF-1 is involved in the growth and development of mammals,but its role in sebaceous gland excretion,B16 cell proliferation,and migration in the skin has not been reported yet.This study aims to reveal the function of IGF-1 by detecting its expression in animal skin.Using nano-body screening and purification methods,IGF-1 nanobodies(IGF-1-VHH)were obtained.Using IGF-1-VHH as the primary antibody,Western blot and immunohistochemistry were used to detect the expression of IGF-1 in bovine skin and alpaca acne.IGF-1-VHH was added to melanoma B16 cell culture medium,and CCK-8 and scratch healing methods were used to detect the effects of IGF-1 nanobodies on B16 cell proliferation and migration,as well as their possible molecular mech-anisms.The results showed that the obtained IGF-1-VHH could be applied in immunohistochemis-try and Western blot detection methods,with strong IGF-1 positive expression signals in bovine sebaceous glands and alpaca acne.IGF-1-VHH binds to IGF-1 in cells and has a certain inhibitory effect on the proliferation and migration of B16 cells by regulating the expression of RAS,ERK,and RAF.In summary,IGF-1 maybe involved in the secretion and excretion of sebum in animal skin.IGF-1-VHH inhibits the proliferation and migration of B16 cells by binding to IGF-1,provi-ding a new theoretical basis for ensuring normal physiological function of the skin and clinical di-agnosis and treatment of melanoma.

OBJECTIVE To investigate the direct economic losses caused by surgical site infection(SSI)in patients undergoing orthopedic surgery and provide references for medical institutions to develop infection prevention and control measures.METHODS Clinical data of 8 207 patients undergoing orthopedic surgery from the People's Hospital of Sanshui District,Foshan City,between 2021 and 2023 were retrospectively collected.Among them,98 patients with SSI were assigned to the SSI group,while non-infected patients were included in the non-infection group.Based on a 1∶1 matched case-control principle,68 well-matched pairs of case-control samples were select-ed for comparative analysis.Key indicators such as hospitalization costs and postoperative hospital stays were de-scribed as medians,and intergroup differences were analyzed with the Wilcoxon signed-rank test.RESULTS The SSI incidence rate was 1.19％(98/8 207).Compared to non-infected patients,those with SSI had an average pro-longed postoperative hospital stay of 13.95 days,with an average direct economic loss of RMB 14 305.50 yuan per case.Direct economic losses due to SSI varied among patients with different surgical sites,age groups and wheth-er medical devices were implanted.There were statistically significant differences in the increased hospitalization costs and postoperative hospital stays between the SSI group and the non-infected group(P＜0.05).CONCLUSIONS SSI in patients undergoing orthopedic surgery leads to increased hospitalization costs,prolonged postoperative hospital stays and greater direct economic losses.Therefore,medical institutions should implement a series of efficient and targeted prevention and control measures to effectively reduce SSI incidence rate,there-by improve medical quality and patient safety.

Fanconi anemia (FA) is a hereditary bone marrow failure syndrome that is characterized by genomic instability and heightened sensitivity to DNA cross-linking agents. In recent years, the CRISPR-Cas9 technology has exhibited groundbreaking progress in the field of gene therapy for FA. The traditional CRISPR-Cas9 technology has been successfully applied in FA gene editing. Further, single-base editing technology, based on the CRISPR/Cas9 system, performs precise and efficient gene repair for prevalent gene mutations in patients with FA. The prime editing technology provides new possibilities for gene editing; however, its application in FA has not been initiated. Despite significant advancements in FA gene editing technology, several challenges remain, including the collection of sufficient hematopoietic stem cells, the risk of increased tumorigenesis postgene editing, chromosomal instability, and off-target effects. Future research is recommended to focus on optimizing sgRNA and Cas9 nucleases, designing stricter PAM sequences to reduce off-target effects, and devising personalized gene editing strategies. Further, ethical and regulatory issues as well as long-term follow-ups are crucial priorities for future gene editing work. With continuous technological advancements and in-depth clinical trials, we expect more breakthroughs in FA treatment using the CRISPR-Cas9 technology in the future. This article reviews the latest research progress of CRISPR technology in FA treatment and analyzes the advantages and disadvantages of this technology in FA gene therapy.

Objective To explore the feasibility and clinical outcome of lateral cervical incision via sternocleidomastoid intermuscular approach(SMIA)in the treatment of primary hyperparathyroidism.Methods The clinical data of 64 patients with primary hyperparathyroidism who underwent unilateral parathyroid surgery in the First Affiliated Hospital,School of Medicine of Zhejiang University from January 2019 to June 2022 were retrospectively analyzed.They were divided into lateral cervical incision via sternocleidomastoid intermuscular approach group(SMIA group)and linea alba cervicalis approach group(LACA group)based on the surgical incision and access route.The differences in clinical features,surgery-related outcomes and postoperative functions of the anterior cervical region were compared between the two groups.The EQ-5D-5L scale was used to assess the subjective feeling of postoperative neck discomfort,while the Hollander Wound Assessment Scale was used to assess the clinical outcome of incision healing.Results There were no statistical differences between the two groups of patients in terms of age,gender,intraoperative bleeding,parathyroid hormone or blood calcium levels before and after surgery(P＞0.05).The duration of surgery was significantly shorter in the SMIA group than in the LACA group[(39.77±5.69)min vs.(54.41±4.66)min].There was a statistical difference between the two groups in functional protection of the anterior cervical region at 1 month and 12 months after surgery(1 month,84.67±3.74 vs.79.47±5.38,P＜0.001;12 months,93.80±2.52 vs.89.94±2.39,P＜0.001),and the SMIA group was better than the LACA group.The Hollander Incision Assessment Scale scores of the SMIA group were better than those of the LACA group at 6 months and 12 months after surgery,and the difference was statistically significant(6 months,1.93±0.58 vs.2.41±0.66,P=0.003;12 months,1.03±0.67 vs.1.74±0.62,P＜0.001).Conclusion Parathyroidectomy via sternocleidomastoid intermuscular approach through lateral cervical incision is a simple,safe and effective surgical procedure,which makes it easier to search for parathyroid lesions and shortens the surgical time compared with the traditional incision,and has obvious advantages in the protection of anterior cervical region function.

ACC oxidase (ACO) is one of the key enzymes that catalyze the synthesis of ethylene. Ethylene is involved in salt stress response in plants, and salt stress seriously affects the yield of peanut. In this study, AhACO genes were cloned and their functions were investigated with the aim to explore the biological function of AhACOs in salt stress response, and to provide genetic resources for the breeding of salt-tolerant varieties of peanut. AhACO1 and AhACO2 were amplified from the cDNA of salt-tolerant peanut mutant M29, respectively, and cloned into the plant expression vector pCAMBIA super1300. The recombinant plasmid was transformed into Huayu22 by pollen tube injection mediated by Agrobacterium tumefaciens. After harvest, the small slice cotyledon was separated from the kernel, and the positive seeds were screened by PCR. The expression of AhACO genes was analyzed by qRT-PCR, and the ethylene release was detected by capillary column gas chromatography. Transgenic seeds were sowed and then irrigated with NaCl solution, and the phenotypic changes of 21-day-seedings were recorded. The results showed that the growth of transgenic plants were better than that of the control group Huayu 22 upon salt stress, and the relative content of chlorophyll SPAD value and net photosynthetic rate (Pn) of transgenic peanuts were higher than those of the control group. In addition, the ethylene production of AhACO1 and AhACO2 transgenic plants were 2.79 and 1.87 times higher than that of control peanut, respectively. These results showed that AhACO1 and AhACO2 could significantly improve the salt stress tolerance of transgenic peanut.
Salt Tolerance/genetics* ; Arachis/genetics* ; Plant Breeding ; Ethylenes/metabolism* ; Plants, Genetically Modified/genetics* ; Gene Expression Regulation, Plant ; Plant Proteins/genetics*

The real-world data of Hainan Boao Lecheng International Tourism Pilot Zone has the advantage of supporting pre-market clinical evaluation of medical devices. Based on the relevant requirements of clinical evaluation of medical devices and based on the practical experience of pilot devices in the early stage, the application of Boao Lecheng real-world data in the pre-market clinical evaluation path of medical devices from the perspective of review is discussed. At the same time, the elements that should be considered in real-world study design and the way of data quality evaluation are proposed. Expect to provide a reference in order to allow registration applicants to use real world data wisely to help declare device registration for marketing.
Device Approval ; Marketing ; Research Design

To study the molecular mechanism of salt stress response of peanut small GTP binding protein gene AhRabG3f, a 1 914 bp promoter fragment upstream of the start codon of AhRabG3f gene (3f-P) from peanut was cloned. Subsequently, five truncated fragments (3f-P1-3f-P5) with lengths of 1 729, 1 379, 666, 510 and 179 bp were obtained through deletion at the 5' end, respectively. Plant expression vectors where these six promoter fragments were fused with the gus gene were constructed and transformed into tobacco by Agrobacterium-mediated method, respectively. GUS expression in transgenic tobacco and activity analysis were conducted. The gus gene expression can be detected in the transgenic tobacco harboring each promoter segment, among which the driving activity of the full-length promoter 3f-P was the weakest, while the driving activity of the promoter segment 3f-P3 was the strongest. Upon exposure of the transgenic tobacco to salt stress, the GUS activity driven by 3f-P, 3f-P1, 3f-P2 and 3f-P3 was 3.3, 1.2, 1.9 and 1.2 times compared to that of the transgenic plants without salt treatment. This suggests that the AhRabG3f promoter was salt-inducible and there might be positive regulatory elements between 3f-P and 3f-P3 in response to salt stress. The results of GUS activity driven by promoter fragments after salt treatment showed that elements included MYB and GT1 between 1 930 bp and 1 745 bp. Moreover, a TC-rich repeat between 682 bp and 526 bp might be positive cis-elements responsible for salt stress, and an MYC element between 1 395 bp and 682 bp might be a negative cis-element responsible for salt stress. This study may facilitate using the induced promoter to regulate the salt resistance of peanut.
Arachis/genetics* ; Fabaceae/genetics* ; GTP-Binding Proteins/metabolism* ; Gene Expression Regulation, Plant ; Glucuronidase/metabolism* ; Plant Proteins/metabolism* ; Plants, Genetically Modified/genetics* ; Salt Stress ; Stress, Physiological/genetics* ; Tobacco/genetics*