Lung transplantation is the ultimate therapeutic option for end-stage pulmonary diseases such as interstitial pneumonia, chronic obstructive pulmonary disease and pneumoconiosis. Currently, the shortage of allogeneic lung donors significantly limits the opportunity for end-stage lung disease patients to receive lung transplantation. In recent years, with the rapid development of biomedical engineering technologies, especially the major breakthroughs in genetic modification and cloning, xenogeneic lung transplantation has shown important potential for clinical translation. Among them, genetically modified pigs have become the most promising xenogeneic lung source due to the close similarity of organ size and physiological characteristics to humans, and the ability to perform targeted gene knockouts (such as α-Gal antigen knockout) to reduce the occurrence of hyperacute rejection. This article focuses on the research progress of porcine xenogeneic lung transplantation, systematically reviews the latest achievements and challenges in animal experiments and human trials, and introduces the technical experience accumulated by Shenzhen Third People's Hospital in the porcine-to-monkey xenogeneic lung transplantation model, in the hope of providing practical references for future research in this field.

Enhanced recovery after surgery (ERAS) is a series of perioperative optimization measures based on evidence-based medicine aimed at achieving rapid recovery. Existing studies have shown that ERAS can effectively reduce surgical stress, decrease the incidence of complications, shorten hospital stays, save medical costs, and improve patient satisfaction. Although lung transplantation techniques have become increasingly mature, lung transplant recipients still have a high incidence of complications during perioperative period. To further improve the perioperative survival rate of lung transplant recipients, introducing ERAS concept into the perioperative management strategy of lung transplantation is of great significance for reducing incidence of perioperative complications, promoting rapid recovery and long-term survival of lung transplant recipients. This article discusses the advances in application of ERAS concept in the perioperative management of lung transplantation, aiming to provide references for optimizing the perioperative management of lung transplant recipients and reducing perioperative complications.

Objective:To explore the understanding on health-related quality of life(HRQoL)among the Chinese populations and to develop a HRQoL conceptual framework that can be used to guide the development of Chinese HRQoL instruments.Methods:Respondents of Chinese general population and patients populations were recruited from 31 provinces in China.One-to-one semi-structured qualitative interviews were conducted to collect the views and perceptions on HRQoL.Based on the grounded theory,multi-level coding of qualitative interviews was carried out,and the framework method was used to sort out and summarize the coding to develop the HRQoL conceptual framework in China.Results:A total of 68 respondents were included in the study.The study extracted 1 558 open coding from the qualitative interview,which were analyzed and sorted into 180 axial coding and 31 selective coding(dimensions).The HRQoL conceptual framework for the Chinese population with 6 themes was finally summarized.Conclusions:The HRQoL conceptual framework based on the health concepts and preferences of the Chinese population contains 6 themes,refers to symptoms,physical function,emotion,cognition,activities and social function.In particular,the items of appetite,sleep and fatigue identifies may reflect Chinese cultural specific perceptions on important aspects of HRQoL.

The advantages of fluorescence detection of uric acid were introduced compared to the traditional detection methods.The preparation process,detection principle and performance of organic,inorganic and organic-inorganic hybrid fluorescent probes were reviewed.The advantages and disadvantages of kinds of fluorescent probes were analyzed when used for uric acid detection,and the futural directions were pointed out for related research.[Chinese Medical Equipment Journal,2024,45(6):93-104]

Atherosclerosis is the main pathological basis for the occurrence and development of cardiovascular and cerebrovascular diseases.Macrophage efferocytosis deficiency exists in the formation of atherosclerosis.Defective effero-cytosis leads to the accumulation of uncleared apoptotic cells and secondary necrosis,leading to characteristic formation of necrotic core and plaque instability in atherosclerosis.The complete process of efferocytosis includes recognition("find me")stage,phagocytosis("eat me")stage,and the post-processing reaction(digestion)stage.It has been reported that miRNA is involved in the regulation of key signal transduction and lipid homeostasis in atherosclerotic efferocytosis.This paper discussed the important role of efferocytosis in the process of atherosclerosis and the influence of efferocytosis defect on atherosclerosis.This review focuses on the regulatory effects of"eat me"and"don't eat me"signals of effero-cytosis in the overall inflammation of atherosclerosis,and meanwhile the regulation of miRNA on lipid metabolism and in-flammation regression in atherosclerosis,and the fine tuning of miRNA targeting macrophage efferocytosis in the process of atherosclerosis.

Purpose To study the changes of white matter microstructure in moderate and severe obstructive sleep apnea-hypopnea syndrome(OSAHS)via synthetic MRI.Materials and Methods A total of 30 patients with moderate and severe OSAHS diagnosed for the first time and 30 healthy controls were prospectively collected in General Hospital of Taiyuan Iron&Steel(Group)Co.,LTD from October 2022 to September 2023.Both groups underwent routine MRI,3D-T1 MPRAGE and synthetic MRI scans.The T1,T2 and proton density(PD)values of multiple white matter regions in the two groups were compared,and the correlation between T1,T2 and PD values in different brain regions and sleep parameters was analyzed.Results Compared with the control group,the T1 value were increased in various white matter regions,including the right cerebral peduncle,cingulate fasciculus,posterior thalamic radiation,external capsule,bilateral internal capsule,corona radiata,superior longitudinal fasciculus and superior frontal-occipital fasciculus(t/Z=-3.267-3.286,all P<0.05).The T2 value of the left inferior cerebellar peduncle was decreased(Z=2.114,P=0.035),and the T2 value of the right posterior thalamic radiation and bilateral external capsule were increased(Z=-2.410,-2.484,-2.306,all P<0.05).Furthermore,the PD value were increased in corpus callosum,left internal capsule,sagittal layer,hippocampus,right posterior thalamic radiation,cingulate fasciculus,bilateral corona radiata and superior longitudinal fasciculus(t/Z=-3.726-2.757,all P<0.05).The apnea hypopnea index of patients with moderate and severe OSAHS was positively correlated with the T1 value(r=0.387,P=0.035)and PD value(r=0.382,P=0.037)of the right cingulate bundle,and there was no correlation between the lowest oxygen saturation and the quantitative parameters in moderate and severe OSAHS(P>0.05).Conclusion Synthetic MRI can sensitively observe the changes of white matter relaxation values in moderate and severe OSAHS,and has high application value in evaluating the damage of white matter in OSAHS.

Objective:To evaluate the application effect of intelligent digital technology combined with quality control index system management mode in the management of large medical imaging equipment.Methods:Based on the composition and operation of medical imaging equipment,the intelligent digital technology and quality control parameter system architecture were integrated,and the joint management mechanism was used to manage large medical imaging equipment.A total of 26 medical imaging equipment in clinical use in Wuhan First Hospital from 2022-2023 were selected.According to different equipment management methods,conventional management method(13 units)and intelligent digital technology combined with the quality control index system mode(referred to as intelligent mode)(13 units)were adopted for management.The clinical effectiveness,management quality,management level and recognition scores of management personnel involved in the use of medical imaging equipment were compared between the two management methods.Results:The average start-up rate,operation rate,and turnover rate of the equipment managed by intelligent mode were(90.56±4.69)％,(12.36±2.45)％and(15.69±3.65)％,respectively,which were higher than those of conventional management method,the difference was statistically significant(t=13.366,15.637,9.082,P＜0.05).The average scores of clinical operation,information data,quality control and maintenance of the equipment managed by intelligent mode were(93.65±4.21)points,(94.65±4.36)points,(95.36±6.56)points and(94.26±5.63)points,respectively,which were higher than those of conventional management method,the difference was statistically significant(t=7.794,6.818,6.918,10.136,P＜0.05).The reasonable placement rate,standardized recording rate and equipment serviceability rate of equipment managed by intelligent mode were 76.92％(10/13),84.61％(11/13)and 84.61％(11/13),respectively,which were higher than those of conventional management method,the difference was statistically significant(x2=8.714,12.462,9.905,P＜0.05).The recognition scores of engineers,operators,medical staff and managers involved in the management and use of equipment were(93.54±3.65)points,(92.58±4.58)points,(90.78±3.14)points and(92.65±3.41)points,respectively,which were higher than those of conventional management method,the differences was statistically significant(t=3.333,4.142,6.424,7.278,P＜0.05).Conclusion:The application of intelligent digital technology combined with quality control index system management mode in the management of large medical imaging equipment can improve the quality of clinical use of equipment,enhance equipment technical support capabilities,and reduce equipment failure rate.

In recent years,with the increase of social pressure,the incidence of"psycho-cardiological disease"increases.Western medicine mainly uses conventional cardiovascular drugs combined with antidepressant or anxiety drugs.TCM has the characteristics of multi-pathway,multi-target,multi-mechanism,integration and low toxicity.It has unique advantages in the intervention of"psycho-cardiological disease"and has significant clinical efficacy.However,the pathogenesis,clinical diagnosis,syndrome differentiation and treatment of this disease are not the same.This article summarized relevant literature and reviewed the etiology,pathogenesis,experience in syndrome differentiation and treatment,and clinical research of this disease from the perspective of TCM,in order to provide reference for diagnosis of disease,precision treatment and improvement of curative efficacy of"psycho-cardiological disease".

Human physiological indicators have become an important standard for assessing health in modern society.Traditional detection methods often require a separate laboratory,complex operation process and long detection time,so it is urgent to develop portable,fast and accurate on-site detection technologies for bioanalysis.Point-of-care testing(POCT),which differs from traditional laboratory testing,can realize the rapid in situ detection of biomarkers without the complicated analytical process of the laboratory.Smartphones,which are an essential tool in our daily life,not only have independent operating systems and built-in storage functions,but also have high-definition cameras,which have great application potential in POCT visualization.The combination of various biosensing technologies and smartphones has developed into a new direction in the field of POCT.This review mainly introduced the research progress of smartphone-based visual biosensors in POCT in recent years,including colorimetric sensors,fluorescence sensors,chemiluminescence sensors and electrochemiluminescence sensors.Finally,the problems faced by smart-phone-based visual biosensors in the application of POCT were summarized,and their future development was prospected.

BACKGROUND:Three-point mechanics is an effective method for ankle foot orthosis correction and prevention of various foot diseases.At present,the clinical application research on 3D printing ankle foot orthosis has been widespread;however,there are relatively few reports on numerical simulation and finite element analysis involving three-point mechanical correction.There is a lack of relevant biomechanical experimental verification. OBJECTIVE:Three-point force was loaded to analyze the composite model of ankle foot orthosis and foot by finite element method,observing the effect of foot correction with ankle foot orthosis under three-point force intervention,verifying the effectiveness of three-point force and the reliability of ankle foot orthosis. METHODS:A three-dimensional foot and ankle model of a healthy volunteer was constructed based on the medical image processing software Mimics.Rodin 4D and Geomagic reverse engineering software were used to optimize the models and design personalized ankle foot orthosis models.Solidworks software was utilized to turn the ankle model inside for 10° to simulate the foot varus disease.Static loading was carried out on the foot force application area by ANSYS software combined with the three-point mechanics principle.The deformation and stress changes of the foot and ankle tissues were analyzed when the human foot pain threshold was met.The display dynamics was used to further verify the effectiveness of the three-point force applied by the ankle foot orthosis. RESULTS AND CONCLUSION:(1)The personalized ankle foot orthosis designed in this paper had the effect of preventing and fixing foot and ankle varus.The ankle varus was 1.81 mm after being loaded with 1 N·m of varus when not wearing ankle foot orthosis,while it was only 0.44 mm after wearing ankle foot orthosis,the deformation rate was reduced by 75.7%,and the effect of preventing varus was significantly enhanced.(2)When only coronal correction was performed,the low calcaneal force would aggravate the varus angle of the front foot.After adjusting the correction force on the inside of the heel and above the medial malleolus,the varus angle of the front foot and the calcaneus position were improved;however,the medial phalangeal region of the foot still had different degrees of adduction and displacement,which would aggravate the adduction deformity of the patient's front foot.(3)The correction effect of the coronal plane and horizontal plane was better than that of the single coronal plane.There was no adduction and displacement of the medial phalanges of the front foot and the varus angle of the front foot decreased under the force(25,10,10,20 N)of the medial heel,the medial shaft of the first metatarsal,below the lateral malleolus and above the medial malleolus,and the valgus along the X-axis was corrected by 1.395 mm,the calcaneus valgus was corrected by 1.227 mm.The calcaneus varus angle was corrected from 10.21° to 7.25°,and the varus angle was improved by 28.9%.(4)The lateral plantar metatarsal load decreased,the medial plantar metatarsal load increased under the action of a two-plane three-point force,and the plantar bone stress was significantly improved after correction.Thus,the reliability of the three-point force principle was further verified.This study provides an important theoretical support for the implementation of ankle foot orthosis in the treatment of varus in clinical practice.