Low-intensity ultrasound stimulation of the retina has the ability to modulate neural activity in the primary visual cortex (V1), however, it is currently unclear how different intensities and durations of ultrasonic stimulation of the retina modulate neural activity in V1. In this paper, we recorded local field potential (LFP) signals in the V1 brain region of mice under different ultrasound intensities and different stimulation times. The amplitude of LFP corresponding to 1 s before ultrasound stimulation to 2 s after stimulation (–1–2 s) was analyzed, including the power and sample entropy of delta, theta, alpha beta, and low gamma frequency bands. The experimental results showed that, as the stimulation intensity increased, the peak value of the LFP in the visual cortex showed a linear upward trend; the power in the delta and theta frequency bands showed a linear upward trend, and the sample entropy showed a linear downward trend. With increases of stimulation duration, the peak value of the LFP in the visual cortex showed an upward trend, and the upward trend gradually weakened; the power in the delta frequency band showed an upward trend, the sample entropy showed a linear upward trend, and the sample entropy in the theta frequency band showed a downward trend. The results show that low-intensity ultrasonic stimulation of the retina has a significant modulatory effect on neural activity in the visual cortex. The study provides insights into the mechanisms by which ultrasonic stimulation regulates visual system function. Furthermore, it clarifies the patterns of parameter selection, facilitating the development of personalized multi-parameter modulation for the treatment of visual neural degeneration, retinal disorders and related research areas.
ObjectiveTo discuss the main auxiliary inspection methods and their guiding significance for inguinal hernia.MethodsBy searching literatures and international guidelines, to review the main auxiliary examination methods, such as ultrasound, CT, and MRI.ResultsClinical physical examination combined with ultrasound could increase diagnostic sensitivity. CT could provide surgeons with a better sense of wholeness and structural details, and could be used as a guide for specific types of inguinal hernia. The soft tissue recognition of MRI was good, and it had a good effect on the identification of hidden hernia, mesh conditions, and tissue inflammation.ConclusionEach examination has its own advantages, and should be selected based on clinical practice and medical center conditions.
ObjectiveTo summarize the research progress of patient-derived organoid (PDO) and patient-derived xenograft (PDX) models in preclinical drug screening for gastric cancer, aiming to provide a new perspective for precise drug screening and promote the application of personalized medicine and precision medicine for gastric cancer. MethodA literature review was conducted on the use of PDO and PDX models in the basic research and preclinical drug screening for gastric cancer. ResultsThe PDO and PDX models of gastric cancer exhibited a higher tumor biological simulation capability and a relatively accurate preclinical drug response prediction. However, they each have some certain limitations. The advent of organoid models based on xenografting, which combines the advantages of both, is expected to compensate for their respective shortcomings. These models can better reflect the heterogeneity of patients’ tumors and have unique advantages in the evaluation of new targeted drugs for specific molecular targets in gastric cancer, such as epidermal growth factor receptor. They show a certain correlation with the actual clinical response of patients, paving a new way for the development of new drugs, the study of drug action and resistance mechanisms, and personalized therapy. ConclusionPDO and PDX models, as a highly promising research platform, show a great potential in the screening of anti-tumor drugs and the development of personalized medical strategies.
Objective To explore the performance management intervention effect and optimization mode analysis of prefecture-level city hospitals under the reform of diagnosis-intervention packet (DIP) payment system. Methods Taking Deyang peopel’s hospital as the research object and 2021 as the time node of the DIP payment system reform, the data related to the hospital’s operational performance before the implementation of DIP payment (2019-2020) and the hospital’s operational performance after the implementation of DIP (2021-2022) were collected. The performance management evaluation system of Deyang peopel’s hospital was constructed based on game combination weights. The performance management level of Deyang People’s Hospital was measured, and the changes in hospital performance before and after the implementation of DIP payment system reform were analyzed through the construction of the interrupted time series model. Results After the implementation of DIP payment system reform in Deyang People’s Hospital, it had a significant impact on drug revenue, consumables revenue, and medical service revenue (P<0.05). Among them, drug revenue, examination revenue, acceptance revenue before the DIP payment system reform all showed a downward trend, medical service revenue showed an overall upward trend. However, there was no significant impact on the average hospitalization days of the patients, inpatient per capita medical costs, outpatient per capita medical costs, and the proportion of hospitalization income from the health insurance fund for patients (P>0.05). Conclusion The implementation of the DIP payment system can effectively improve the comprehensive level of performance of Deyang peopel’s hospital.