In order to improve the accuracy and reliability of the electrodes implant location when using spinal functional electrical stimulation to rebuild hindlimb motor function, we measured the distributions of function core regions in rat spinal cord associated with hindlimb movements. In this study, we utilized three-dimensional scanning intraspinal microstimulation technology to stimulate the rat spinal cord to generate hip, knee and ankle joint movements, and acquired the coordinates of the sites in spinal cord which evoked these movements. In this article, 12 SD rats were used to overcome the individual differences in the functional region of the spinal cord. After normalized and overlaid the messages, we obtained the function core regions in spinal cord associated with ankle dorsiflexion movement, hip flexion movement, hip extension movement and hip adduction movement. It provides a reference for rebuilding the hindlimb movement function with micro-electronic neural bridge.
ObjectiveTo explore the mechanism by which the tumor suppressor gene Testin affects the proliferation, migration, and invasive biological activity of lung adenocarcinoma cell lines by regulating the RhoA pathway. MethodThe cbioportal tumor gene expression was used to screen for genes with high correlation with TES gene expression in lung adenocarcinoma, and the 200 genes with the highest correlation were selected for pathway enrichment analysis. Upload these 200 genes to the David gene annotation tool for GO_Biological Process pathway analysis, GO Molecular Function pathway analysis, KEGG pathway analysis, and Reactome pathway analysis. The lung adenocarcinoma cell line H1299 was cultured, and an overexpression Testin plasmid was constructed and transfected into H1299 cells. The mRNA and protein expression of RhoA, Rac1, and Cdc42 were detected using qRT PCR and western blot. On the basis of downregulating RhoA expression through overexpression of Testin, the overexpression plasmid of RhoA (TES+RhoA) was transfected simultaneously to induce a downregulation of RhoA expression, and the changes in malignant phenotype of lung adenocarcinoma cells were detected. The biological activity changes of adenocarcinoma cell lines after the above intervention were verified through CCK-8 experiment, Transwell experiment, and Matrigel experiment. Results The results of pathway analysis prediction showed that Testin may be involved in regulating the Rho GTPase signaling pathway. Overexpression of Testin did not affect the mRNA levels of RhoA, Rac1, and Cdc42 (all P>0.05), nor did it affect the protein expression levels of Rac1 and Cdc42 (all P>0.05), but it significantly reduced the protein level of RhoA (P<0.05). Knocking down RhoA in lung adenocarcinoma cell H1299 can significantly inhibit cell proliferation, migration, and invasion ability (all P<0.05). Simultaneously transfecting RhoA overexpression plasmid on the basis of overexpression of Testin can downregulate RhoA expression, but does not affect Testin expression. ConclusionsRhoA plays a pro-cancer role in lung adenocarcinoma, and Testin can inhibit RhoA expression. Overexpression of RhoA can rescue Testin's effect on lung adenocarcinoma cell proliferation, migration, and invasion. Testin exerts its anti-cancer biological activity by regulating RhoA.
Objective To investigate the current status and needs of epilepsy management among patients and primary healthcare workers in rural Northwest China, providing data support for the development of an intelligent medical assistant tailored for rural epilepsy care. Methods A questionnaire survey was conducted from March 22 to April 22, 2025, targeting patients (or their caregivers) and healthcare workers in eight regions of the Shaanxi Rural Epilepsy Prevention and Management Project. The patient/caregiver questionnaire covered basic information, disease-related information, and functional needs; the healthcare worker questionnaire included basic information, job responsibilities, and functional suggestions. Questionnaires were distributed via the Wenjuanxing platform. Python was used for descriptive statistics and correlation analysis. Results A total of 1 154 valid patient/caregiver questionnaires (response rate 59.45%) and 337 valid healthcare worker questionnaires (response rate 100%) were collected. The main difficulties reported by patients/caregivers were psychological stress (58.75%), financial burden (47.05%), and lack of disease knowledge (38.82%). 87.09% of respondents expressed willingness to use an intelligent assistant, with the highest demand for psychological support (56.33%), medication reminders (52.51%), and condition monitoring (45.06%). The primary difficulties reported by healthcare workers were poor patient adherence (75.96%), insufficient professional training (62.62%), and ineffective communication (55.79%). 87.83% of healthcare workers were willing to use an intelligent assistant and expected it to feature patient information management (92.58%), remote follow-up (77.15%), and condition monitoring (74.48%) to improve work efficiency. Conclusion Patients and healthcare workers in rural Northwest China show high acceptance and clear demand for an intelligent medical assistant for epilepsy. Future development should prioritize core modules such as medication management, health education, and psychological support, adopting a minimalist design to enhance the accessibility and effectiveness of long-term epilepsy management.
Functional electronic stimulation (FES) may provide a means to restore motor function in patients with spinal cord injuries. The goal of this study is to determine the regions in the spinal cord controlling different hindlimb movements in the rats. Normalization was used for the regions dominating the corresponding movements. It has been verified that FES can be used in motor function recovery of the hindlimb. The spinal cord was stimulated by FES with a three-dimensional scan mode in experiments. The results show that stimulation through the electrodes implanted in the ventral locations of the lumbosacral enlargement can produce coordinated single- and multi-joint hindlimb movements. A variety of different hindlimb movements can be induced with the appropriate stimulation sites, and movement vectors of the hindlimb cover the full range of movement directions in the sagittal plane of the hindlimb. This article drew a map about spinal cord motor function of the rat. The regions in the spinal cord which control corresponding movements are normalized. The data in the study provide guidance about the location of electrode tips in the follow-up experiments.
The in-vivo electron paramagnetic resonance (EPR) method can be used for on-site, rapid, and non-invasive detection of radiation dose to casualties after nuclear and radiation emergencies. For in-vivo EPR spectrum analysis, manual labeling of peaks and calculation of signal intensity are often used, which have problems such as large workload and interference by subjective factors. In this study, a method for automatic classification and identification of in-vivo EPR spectra was established using support vector machine (SVM) technology, which can in-batch and automatically identify and screen out invalid spectra due to vibration and dental surface water interference during in-vivo EPR measurements. In this study, a spectrum analysis method based on genetic algorithm optimization neural network (GA-BPNN) was established, which can automatically identify the radiation-induced signals in in-vivo EPR spectra and predict the radiation doses received by the injured. The experimental results showed that the SVM and GA-BPNN spectrum processing methods established in this study could effectively accomplish the automatic spectra classification and radiation dose prediction, and could meet the needs of dose assessment in nuclear emergency. This study explored the application of machine learning methods in EPR spectrum processing, improved the intelligence level of EPR spectrum processing, and would help to enhance the efficiency of mass EPR spectra processing.
Objective To investigate the safety and feasibility of day surgery for patients with palmar hyperhidrosis based on the principles of enhanced recovery after surgery (ERAS). Methods We retrospectively reviewed the medical records of consecutive patients who underwent endoscopic thoracic sympathicotomy (ETS) in the First Affiliated Hospital of Xi'an Jiaotong University from March 2020 to December 2021. Patients were divided into a day surgery group and a conventional group according to their perioperative management methods. The patients in the day surgery group underwent an optimized perioperative procedure under the guidance of ERAS, and were ventilated with a laryngeal or face mask during the operation. The patients in the conventional group completed the preoperative examination, operation and postoperative observation according to the conventional procedures, and were intubated with a single-lumen endotracheal tube. The demographic characteristics, operation time, hospital stay, postoperative complications, and hospitalization cost were compared between the two groups. Results Finally 172 patients were collected, including 90 males and 82 females, with an average age of 25.97±7.43 years. There were 86 patients in each group. All patients ceased suffering from palmar sweating after surgery. No patient experienced massive bleeding or conversion to thoracotomy. There was no statistical difference in operation time between the two groups (P=0.534). Patients in the day surgery group were discharged within 24 hours. The average hospital stay in the conventional group was 2.09±0.41 days. Incidence of postoperative respiratory complications, and the hospitalization cost of the day surgery group were significantly lower than those of the conventional group (P<0.001). The satisfaction rate in both groups was greater than 95%. Conclusion Day surgery for patients with palmar hyperhidrosis based on the principles of ERAS is safe and feasible, which can reduce postoperative complications, shorten the length of hospital stay and save the cost of hospitalization.
