Development and application of three-dimensional point cloud radiotherapy real-time monitoring system based on depth camera / 中华放射肿瘤学杂志

Objective:To develop the real-time radiotherapy monitoring system of three-dimensional (3D) point cloud by using depth camera and verify its feasibility.Methods:Taking the depth camera coordinate system as the world coordinate system, the conversion relationship between the simulation CT coordinate system and the world coordinate system was obtained from the calibration module. The patient's simulation CT point cloud was transformed into the world coordinate system through the above relationship, and registered with the patient's surface point cloud obtained in real-time manner by the depth camera to calculate the six-dimensional (6D) error, and complete the positioning verification and fractional internal position error monitoring in radiotherapy. Mean and standard deviation of 6D calculation error, Hausdorff distance of point cloud after registration and the running time of each part of the program were calculated to verify the feasibility of the system. Fifteen real patients were selected to calculate the 6D error between the system and cone beam CT (CBCT).Results:In the phantom experiment, the errors of the system in the x, y and z axes were (1.292±0.880)mm, (1.963±1.115)mm, (1.496±1.045)mm, respectively, and the errors in the rotation, pitch and roll directions were 0.201°±0.181°, 0.286°±0.326°, 0.181°±0.192°, respectively. For real patients, the translational error of the system was within 2.6 mm, the rotational error was approximately 1°, and the program run at 1-2 frames/s. The precision and speed met the radiotherapy requirement. Conclusion:The 3D point cloud radiotherapy real-time monitoring system based on depth camera can automatically complete the positioning verification before radiotherapy, real-time monitoring of body position during radiotherapy, and provide error visual feedback, which has potential clinical application value.

Real-time SERS monitoring anticancer drug release along with SERS/MR imaging for pH-sensitive chemo-phototherapy

In situ and real-time monitoring of responsive drug release is critical for the assessment of pharmacodynamics in chemotherapy. In this study, a novel pH-responsive nanosystem is proposed for real-time monitoring of drug release and chemo-phototherapy by surface-enhanced Raman spectroscopy (SERS). The Fe3O4@Au@Ag nanoparticles (NPs) deposited graphene oxide (GO) nanocomposites with a high SERS activity and stability are synthesized and labeled with a Raman reporter 4-mercaptophenylboronic acid (4-MPBA) to form SERS probes (GO-Fe3O4@Au@Ag-MPBA). Furthermore, doxorubicin (DOX) is attached to SERS probes through a pH-responsive linker boronic ester (GO-Fe3O4@Au@Ag-MPBA-DOX), accompanying the 4-MPBA signal change in SERS. After the entry into tumor, the breakage of boronic ester in the acidic environment gives rise to the release of DOX and the recovery of 4-MPBA SERS signal. Thus, the DOX dynamic release can be monitored by the real-time changes of 4-MPBA SERS spectra. Additionally, the strong T2 magnetic resonance (MR) signal and NIR photothermal transduction efficiency of the nanocomposites make it available for MR imaging and photothermal therapy (PTT). Altogether, this GO-Fe3O4@Au@Ag-MPBA-DOX can simultaneously fulfill the synergistic combination of cancer cell targeting, pH-sensitive drug release, SERS-traceable detection and MR imaging, endowing it great potential for SERS/MR imaging-guided efficient chemo-phototherapy on cancer treatment.

Effect of real-time radiation data on radiation exposure of interventional surgical personnel / 中国辐射卫生

Objective To analyze the radiation exposure of medical personnel, and to provide real-time radiation dose monitoring data for medical personnel in interventional surgeries. Methods A total of 96 person-times who participated in cardiac surgeries in interventional operating rooms from September 2019 to March 2022 were selected as subjects. The subjects were divided into two groups according to the time progress, with 43 person-times in intervention group and 53 person-times in control group. The subjects in the intervention group were provided with radiation dose monitoring data during surgeries, while the subjects in the control group performed surgeries with routine procedures. The average intraoperative radiation dose rates of the two groups were compared. Results The median radiation dose rate was significantly lower in the intervention group than in the control group (88.80 μSv/h vs 188.40 μSv/h, U = 637.000, P = 0.000). Conclusion Providing real-time radiation dose monitoring data for medical personnel in interventional surgeries can effectively reduce their occupational radiation exposure and improve their occupational radiation protection.

Construction of quality evaluation strategy for Chinese medicine based on ambient mass spectrometry / 中国中药杂志

Quality is the guarantee for the clinical safety and effectiveness of Chinese medicine. Accurate quality evaluation is the key to the standardization and modernization of Chinese medicine. Efforts have been made in improving Chinese medicine quality and strengthening the quality and safety supervision in China, but rapid and accurate quality evaluation of complex Chinese medicine samples is still a challenge. On the basis of the development of ambient mass spectrometry and the application in quality evaluation of complex Chinese medicine systems in recent years, the authors developed the multi-scenario Chinese medicine quality evaluation strategies. A systematic methodology was proposed in specific areas such as real-time monitoring of the quality of complex Chinese medicine decoction system, rapid toxicity grading of compound Chinese patent medicine, and evaluation of bulk medicinals of Chinese patent medicine. Allowing multi-scenario analysis of Chinese medicine, it is expected to provide universal research ideas and technical methods for rapid and accurate quality evaluation of Chinese medicine and boost the high-quality development of Chinese medicine industry.

Investigation on new paradigm of clinical physiological monitoring by using wearable devices / 生物医学工程学杂志

As a low-load physiological monitoring technology, wearable devices can provide new methods for monitoring, evaluating and managing chronic diseases, which is a direction for the future development of monitoring technology. However, as a new type of monitoring technology, its clinical application mode and value are still unclear and need to be further explored. In this study, a central monitoring system based on wearable devices was built in the general ward (non-ICU ward) of PLA General Hospital, the value points of clinical application of wearable physiological monitoring technology were analyzed, and the system was combined with the treatment process and applied to clinical monitoring. The system is able to effectively collect data such as electrocardiogram, respiration, blood oxygen, pulse rate, and body position/movement to achieve real-time monitoring, prediction and early warning, and condition assessment. And since its operation from March 2018, 1 268 people (657 patients) have undergone wearable continuous physiological monitoring until January 2020, with data from a total of 1 198 people (632 cases) screened for signals through signal quality algorithms and manual interpretation were available for analysis, accounting for 94.48 % (96.19%) of the total. Through continuous physiological data analysis and manual correction, sleep apnea event, nocturnal hypoxemia, tachycardia, and ventricular premature beats were detected in 232 (36.65%), 58 (9.16%), 30 (4.74%), and 42 (6.64%) of the total patients, while the number of these abnormal events recorded in the archives was 4 (0.63%), 0 (0.00%), 24 (3.80%), and 15 (2.37%) cases. The statistical analysis of sleep apnea event outcomes revealed that patients with chronic diseases were more likely to have sleep apnea events than healthy individuals, and the incidence was higher in men (62.93%) than in women (37.07%). The results indicate that wearable physiological monitoring technology can provide a new monitoring mode for inpatients, capturing more abnormal events and provide richer information for clinical diagnosis and treatment through continuous physiological parameter analysis, and can be effectively integrated into existing medical processes. We will continue to explore the applicability of this new monitoring mode in different clinical scenarios to further enrich the clinical application of wearable technology and provide richer tools and methods for the monitoring, evaluation and management of chronic diseases.

Advances in Ultrasound Tissue Characterization and Its Application in Thermal Ablation of Tumors / 中国医疗器械杂志

The methods of monitoring the thermal ablation of tumor are compared and analyzed in recent years. The principle method results and insufficient of ultrasound elastography and quantitative ultrasound imaging are discussed. The results show that ultrasonic tissue signature has great development space in the field of real-time monitoring of thermal ablation, but there are still some problems such as insufficient monitoring accuracy difficulty in whole-course monitoring and insufficient

Development of a luminescence real-time method for monitoring live bacteria during phage lysis / 生物工程学报

The toxin-producing bacterium Vibrio cholerae can cause severe diarrhea and has caused seven global pandemics. Traditional viable cell counts and phage plaques are commonly used to evaluate the efficacy of virulent phage clearance of V. cholerae, but these operations are time-consuming and labor-intensive, and difficult to provide real-time changes. It is desirable to develop a simple and real-time method to monitor V. cholerae during phage lysis. In this study, a luminescence-generating plasmid pBBR-pmdh-luxCDABE was transformed into three O1 serogroup drug-resistant strains of V. cholerae. The results showed that the luminescence value as a monitoring index correlates well with the traditional viable cell count method. Monitoring the number of live cells of V. cholerae by measuring the luminescence allowed real-time analysis of the number of bacteria remaining during phage lysis. This method enables repeated, interference-free, continuous multiple-time-point detection of the same sample without the time delay of re-culture or plaque formation, facilitating real-time monitoring and analysis of the interaction between the phage and the host bacteria.

Real-time monitoring of blood transportation temperature conditions based on Internet of Things technology / 中国输血杂志

【Objective】 To monitor the vehicle positioning and temperature of each shipping container during blood transportation by the Internet of Things technology, so as to ensure the blood products for clinical are always within the standard temperature range, and early detect and deal with the temperature runaway during transportation thus realizing the objective and traceable process of blood transportation temperature. 【Methods】 The temperature of each shipping container was collected in real time, and uploaded to the cloud server through the temperature information receiver. The temperature, vehicle positioning and early warning were displayed on the large screen and computer through the cold chain real-time monitoring system platform, and recorded in real time. 【Results】 The comparative validation test of data in 5 months since formal operation showed that the transportation temperature monitoring and recording of the system met the requirements, the handling of abnormal early warning (alarm) was convenient, and the vehicle positioning was accurate. 【Conclusion】 The system achieves real-time monitoring, accuracy and controllability of abnormal disposal, and ensures the blood quality. The blood products with RFID tags can be accurately monitored during transportation.

A situation model of integrated health information platform in India: an anticipated review

Supportive supervision is one of the most important tasks in health systems management. A baseline assessment conducted by the primary health care transformation initiative had shown that the Gurage Zone health department had been conducting regular supportive supervision every quarter for the last five years in Gurage Zone. The study proposed establishing a feedback auditing system as an intervention to routinely assess the progress of previous visit actions included in the written feedback. The finding showed the culture of working on previous supportive supervision action items by woreda (district) health offices were significantly improved

In vivo fate study of drug nanocarriers: the applications of environment-responsive fluorescent dyes / 药学学报

The in vivo fate is a crucial factor that governs the successful translation of nanoformulations. However, one of the current biggest challenges is with the real-time monitoring of the body of the nanoparticles themselves. Conventional radioactive or fluorescent probes give signals even after they are disassociated from the particle matrix, generating interference to bioimaging and leading to misjudgment of results. Environment-responsive fluorescent dyes are regarded as promising tools due to signal switching in response to the changes in the environment. Currently, there are three categories of dyes in bioimaging of nanoparticles based on Förster resonance energy transfer (FRET), aggregation-induced emission (AIE) and aggregation-caused quenching (ACQ). They have similar characteristics that strong fluorescence is emitted when they are embedded in the matrix of nanocarriers, whereas the fluorescence quenches upon release from the matrix due to dissociation of nanocarriers. The fluorescence switching reflects the existing status of the nanocarriers and therefore helps to interpret the in vivo behaviors. FRET and AIE probes have been widely used in elucidating the interactions between nanoparticles and cell models. However, they show intrinsic defects in studying in vivo fate of nanoparticles. ACQ-based dyes are sensitive to water, a universal factor in the biological environment. Therefore, with the help of bioimaging equipment, the in vivo trafficking process of nanoparticles can be unraveled. This review article tends to provide an overview on the rationale, pros and cons and applications of the three categories of environment-responsive fluorescent dyes in the investigation of the in vivo fate of nanocarriers.

Monitoring Glutathione Dynamics and Heterogeneity in Living Stem Cells

Glutathione (GSH) is a major antioxidant in cells, and plays vital roles in the cellular defense against oxidants and in the regulation of redox signals. In a previous report, we demonstrated that stem cell function is critically affected by heterogeneity and dynamic changes in cellular GSH concentration. Here, we present a detailed protocol for the monitoring of GSH concentration in living stem cells using FreSHtracer, a real-time GSH probe. We describe the steps involved in monitoring GSH concentration in single living stem cells using confocal microscopy and flow cytometry. These methods are simple, rapid, and quantitative, and able to demonstrate intracellular GSH concentration changes in real time. We also describe the application of FreSHtracer to the sorting of stem cells according to their GSH content using flow cytometry. Typically, microscopic or flow cytometric analyses of FreSHtracer and MitoFreSHtracer signals in living stem cells take ~2~3 h, and the fractionation of stem cells into subpopulations on the basis of cellular GSH levels takes 3~4.5 h. This method could be applied to almost every kind of mammalian cell with minor modifications to the protocol described here.

Exploration and Practice of Drug Abuse Monitoring in Medical Institutions / 中国药房

OBJECTIVE： To explore the method for the development and implementation of drug abuse monitoring in medical institutions， and to provide reference for drug abuse monitoring in medical institutions. METHODS： Our hospital （the affiliated hospital of Binzhou medical college） had established the corresponding drug abuse monitoring mode from the two aspects of real-time monitoring and retrospective analysis， supplemented by relevant management measures， defined the content of drug abuse monitoring in medical institutions， and finally evaluated the implementation effect through the effective reporting quantity of drug abuse information， etc. RESULTS & CONCLUSIONS： The main contents of drug abuse monitoring in our hospital included the establishment of drug abuse monitoring management group， the improvement of drug abuse monitoring system and the sorting out of drug monitoring catalogue； the real-time drug abuse monitoring mode was established through timely reporting drug abuse information by medical， nursing and pharmaceutical personnel in daily diagnosis and treatment activities； at the same time， the retrospective analysis model of drug abuse was established by analyzing the relevant drug use data regularly through the hospital information system， paying attention to the key groups of key departments， and mining drug abuse information； a series of auxiliary management measures were taken， such as strengthening training and publicity， and establishing reward and punishment mechanism. Since the monitoring work was started in 2016， the effective number of drug abuse information reported in 2016-2018 was 38， 126 and 237 respectively， and through the monitoring， it was found that the elderly women over 60 years old （69.83％） were abusing in iatrogenic sedative hypnotic drugs. The development of drug abuse monitoring in hospital can collect drug abuse status， behavior characteristics and relevant information timely and effectively， analyze local drug abuse trends， find drug abuse risks， and provide basis for drug control of narcotics and psychotropic substances supervision.

Spatiotemporal Imaging of Cellular Energy Metabolism with Genetically-Encoded Fluorescent Sensors in Brain / 神经科学通报·英文版

The brain has very high energy requirements and consumes 20% of the oxygen and 25% of the glucose in the human body. Therefore, the molecular mechanism underlying how the brain metabolizes substances to support neural activity is a fundamental issue for neuroscience studies. A well-known model in the brain, the astrocyte-neuron lactate shuttle, postulates that glucose uptake and glycolytic activity are enhanced in astrocytes upon neuronal activation and that astrocytes transport lactate into neurons to fulfill their energy requirements. Current evidence for this hypothesis has yet to reach a clear consensus, and new concepts beyond the shuttle hypothesis are emerging. The discrepancy is largely attributed to the lack of a critical method for real-time monitoring of metabolic dynamics at cellular resolution. Recent advances in fluorescent protein-based sensors allow the generation of a sensitive, specific, real-time readout of subcellular metabolites and fill the current technological gap. Here, we summarize the development of genetically encoded metabolite sensors and their applications in assessing cell metabolism in living cells and in vivo, and we believe that these tools will help to address the issue of elucidating neural energy metabolism.

Design of Real-time Disease Warning System Based on Storm Technology / 中国医疗器械杂志

With the improvement of the quality of clinical diagnosis and treatment, the traditional scheduled "ward round" mode cannot meet the demands for real-time monitoring of acute and critically ill patients. This paper introduces the Storm, a real-time data stream processing technology and its application in the real time disease early warning system. By collecting the clinical data flow and calculating the MEWS scores in real time, the system can identify the potential deterioration of the disease, and promptly notify the medical staff. Score calculation results can be stored for further analysis and presentation as well.

Application of real-time transperineal ultrasound in radiotherapy of prostate cancer-4D analysis of intra-fractional prostate motion / 中华放射肿瘤学杂志

Objective To apply real-time transperineal ultrasound ( TPUS) to monitor the intra-fractional prostate motion,collect and analyze the data of the prostate motion,aiming to provide evidence for the optimization of the target area and plan of radiotherapy for prostate cancer. Methods TPUS is a non-invasive monitoring technique that utilizes an automatic scanning ultrasound probe to dynamically monitor and correct the motion of organs during radiotherapy. In this study, TPUS was utilized to collect 1588 intra-fractional data of 70 patients with prostate cancer. Prior to each cycle of radiotherapy,CBCT was adopted to correct the errors between intra-factional data by using VMAT. During radiotherapy, real-time ( once per second) ultrasound images were acquired to monitor the 3D motion of the prostate on the x (left+,right-),y (cranial+, caudal-), and z ( abdominal+, dorsal-) axes, emphasizing the analysis of 4D motion of the prostate. Results All patients successfully completed the treatment and data collection. The median time of effective monitoring per faction was 179 seconds (132-286 seconds). During 95% of the monitoring time,the distance of prostate motion was 2. 22 mm in the left direction,2. 17 mm in the right,2. 08 mm in the cranial, 1. 98 mm in the caudal,2. 44 mm in the abdominal and 2. 97 mm in the dorsal direction,respectively. In the x,y and z axes,the percentage of time in which the distance of prostate motion less than 1 mm among the total time was 83. 07%,85. 46% and 78. 27%,respectively,whereas 97. 70%,97. 87% and 96. 45% for＜3 mm, respectively. Conclusions TPUS is a non-invasive real-time monitoring technique,which can detect the 4D motion of the prostate during radiotherapy. By using VMAT,the range of prostate motion is relatively small, and the motion range is less than 3 mm in each direction within 95% of the time.

Application value of non-invasive disturbance coefficient measurement on brain edema in patients with cerebral injury / 重庆医学

Objective To explore the application disturbance coefficient (DC) value of noninvasive brain edema monitoring in patients after traumatic brain injury.Methods A total of 54 cerebral injury patients were performed by non-invasive brain edema monitoring from June to November 2016.The essential information,DC,intracranial pressure (ICP),and 6-month-later glasgow outcome score (GOS) were collected.Results DC was negatively correlated with ICP (r=-0.779 5,P＜0.01),and it was positively correlated with glasgow coma scale (GCS) and GOS (r=0.667 5,P＜0.01;r=0.630 6,P＜0.01).The mean of DC with good prognosis patients was 106.99±4.09,and that of the poor prognosis patients was85.26±4.45,the difference was statistically significant (P＜0.05).Conclusion DC has a good clinical application value.

Development of a real-time monitoring platform for medical equipments using multi-mode data acquisition / 中华医院管理杂志

The authors described the architecture of a real-time platform designed to monitor medical equipments.Three types of data collectors were employed to collect information into the background servers for real-time analysis and presentation.Such a platform can effectively enable the hospital to manage its medical equipments, for their positioning, assets management and risk control.

Real-time Monitoring System for Heart Rate and Movement during Rehabilitation Exercises / 中国康复理论与实践

Objective To integrate a real-time remote monitoring device for movement and heart rate load during rehabilitation exercis-es. Methods Polar heart rate sensor was used, and assisted with a wireless relay to transmit the heat rate signals to 100 meters away. The vid-eo overlay device combined and superimposed the synchronized movement video to heart rate data. It completed the simultaneous acquisi-tion of heat rate signal and movement video, as well as the real-time recording and analysis of data and images with a customized software. Results and Conclusion This system provides a platform for the real-time movement and heart rate monitoring and analysis of rehabilita-tion exercise on the Windows.

Research on real-time monitoring indexes of medical process quality at tertiary general hospitals / 中华医院管理杂志

In the scientific,systematic,practical and feasible principles,the quality control needs and management needs of health authorities and medical institutions were analyzed.The study probed into the real-time monitoring functions of existing hospital information systems and information products of IT technology firms,and the feasibility of setting up key monitoring points during medical service processes.685 real-time monitoring indicators have been set up for real-time monitoring of medical process quality.

Design of hospital infection information early warning and monitoring system and its application / 中华医学图书情报杂志

Objective To improve the prevention and control of hospital infection by real-time monitoring of hospital infection, identifying and early warning of hospital infection cases.Methods A hospital infection real-time monito-ring system was designed using computer network techniques according to the PDCA design concept in combination with practical experiences .Results The hospital infection real-time monitoring system could monitor the hospitalized patients and early warn the suspected patients.The system maintenance technicians and medical staff participated in the diagnosis of hospital infection through the information interaction platform and a complete hospital infection management network system was thus formed.Conclusion Hospital infection management and hospital infection monitoring are improved through the highly effective early warning and clinical intervention-feedback mechanism , thus a novel model is established for the prevention and control of hospital infection.