As one of the major diseases threatening human health,the early accurate diagnosis and localization of tumors are crucial for formulating effective treatment plans.In recent years,molecular probes(MPs)have made significant progress in the field of biological imaging.With advantages such as high sensitivity,high specificity,and non-invasiveness,they have become a research hotspot in the field of tumor diagnosis and treatment.This paper systematically reviews the applications of MPs in tumor diagnosis and treatment,covering their classifications(such as fluorescent,photoacoustic,chemiluminescent,bioluminescent,and multimodal probes),design strategies(including active/pas-sive targeting mechanisms and the synergistic construction of identification units,imaging units,signal conversion units and treatment units),as well as detection principles.It also focuses on elabo-rating the research progress of MPs based on enzymes,receptors,reactive substances,and tumor microenvironment.Meanwhile,this paper emphasizes the advantages of multifunctional integration and multimodal imaging,and analyzes the challenges faced by MPs in clinical translation(such as biocompatibility and optimization of supporting equipment).It aims to provide ideas for the develop-ment of high-performance MPs and promote the advancement of precise and personalized tumor di-agnosis and treatment.

BACKGROUND:In recent years,deep learning technologies have been increasingly applied in the field of oral medicine,enhancing the efficiency and accuracy of oral imaging analysis and promoting the rapid development of intelligent oral medicine. OBJECTIVE:To elaborate the current research status,advantages,and limitations of deep learning based on oral imaging in the diagnosis and treatment decision-making of oral diseases,as well as future prospects,exploring new directions for the transformation of oral medicine under the backdrop of deep learning technology. METHODS:PubMed was searched for literature related to deep learning in oral medical imaging published from January 2017 to January 2024 with the search terms"deep learning,artificial intelligence,stomatology,oral medical imaging."According to the inclusion criteria,80 papers were finally included for review. RESULTS AND CONCLUSION:(1)Classic deep learning models include artificial neural networks,convolutional neural networks,recurrent neural networks,and generative adversarial networks.Scholars have used these models in competitive or cooperative forms to achieve more efficient interpretation of oral medical images.(2)In the field of oral medicine,the diagnosis of diseases and the formulation of treatment plans largely depend on the interpretation of medical imaging data.Deep learning technology,with its strong image processing capabilities,aids in the diagnosis of diseases such as dental caries,periapical periodontitis,vertical root fractures,periodontal disease,and jaw cysts,as well as preoperative assessments for procedures such as third molar extraction and cervical lymph node dissection,helping clinicians improve the accuracy and efficiency of decision-making.(3)Although deep learning is promising as an important auxiliary tool for the diagnosis and treatment of oral diseases,it still has certain limitations in model technology,safety ethics,and legal regulation.Future research should focus on demonstrating the scalability,robustness,and clinical practicality of deep learning,and finding the best way to integrate automated deep learning decision support systems into routine clinical workflows.

Objective To observe the clinical effect of Huangqi Yixin Decoction combined with sacubitril/valsartan in treatment of patients with heart failure with preserved ejection fraction(HFpEF)of Qi deficiency and blood stasis type.Methods A total of 86 patients with HFpEF of Qi deficiency and blood stasis type were randomly divided into western medicine group and combination group using the random number table method,with 43 cases in each group.The western medicine group was trea-ted with sacubitril/valsartan sodium tablets on the basis of conventional anti-heart failure therapy,while the combination group was additionally treated with Huangqi Yixin Decoction on the basis of the western medicine group's treatment.The therapeutic efficacy,traditional Chinese medicine(TCM)syndrome scores,cardiac function indicators[Tei index,N-terminal pro-brain natriuretic peptide(NT-proBNP)],exercise tolerance[6-minute walk distance(6MWD),maximum exercise heart rate,metabolic equivalent(MET)],and the occurrence of adverse reactions were compared between the two groups.Results The overall clinical effective rate in the combination group was 93.02％,which was higher than that in the western medicine group(76.74％),and the difference was statistically significant(P＜0.05).After treatment,the TCM syndrome scores in both groups were lower than those before treatment,and the scores in the combination group were lower than those in the western medicine group,with a statistically significant difference(P＜0.05).After treatment,the levels of Tei index and NT-proBNP in both groups were lower than those before treatment,and the levels in the combination group were lower than those in the western medicine group,with a statistically sig-nificant difference(P＜0.05).After treatment,the 6MWD,maximum exercise heart rate,and MET in both groups were higher than those before treatment,and the values in the combination group were higher than those in the western medicine group,with a statistically significant difference(P＜0.05).The incidence of adverse reactions in the western medicine group was 18.60％,which was higher than that in the combination group(4.65％),and the difference was statistically signifi-cant(P＜0.05).Conclusion Huangqi Yixin Decoction combined with sacubitril/valsartan has a good therapeutic effect on HFpEF of Qi deficiency and blood stasis type.It can reduce the TCM syn-drome scores of patients,improve exercise tolerance,and has good safety.

The organoid co-culture model, as a novel tool for recreating a three-dimensional microenvironment to study cell-cell interactions, has demonstrated significant application potential in biomedical research in recent years. By simulating the in vivo tissue microenvironment, this model provides a more precise experimental platform for investigating complex cellular interactions, particularly in areas such as tumor immune evasion mechanisms, drug sensitivity testing, and the pathological characterization of neurodegenerative diseases, where it has demonstrated significant value. However, the organoid co-culture model still faces several challenges in terms of standardized procedures, large-scale cultivation, ethical guidelines, and future development. In particular, in the field of laboratory animal science, how to effectively combine organoids with traditional animal models, and how to select the most appropriate model for different research needs while exploring its potential for replacement, remain pressing issues. In the context of ethical approval and the replacement of animal experiments, the organoid co-culture model offers an experimental approach that better aligns with the "3R" principle (Replacement, Reduction, Refinement), potentially becoming an important tool for replacing traditional animal models. To this end, this paper reviews the latest advances and key challenges in this field, providing a detailed description of the construction methods for organoid co-culture models and discussing their applications in disease mechanism research and drug screening. The paper also systematically compares the organoid co-culture models with traditional animal models, exploring the criteria for selecting the appropriate model for specific applications. Furthermore, this paper discusses the potential value of organoid co-culture models as alternatives to animal experiments and anticipates future development trends of this technology. Through these discussions, the paper aims to promote the innovation and development of organoid co-culture technology and provide new perspectives and scientific evidence for future research.

The organoid co-culture model, as a novel tool for recreating a three-dimensional microenvironment to study cell-cell interactions, has demonstrated significant application potential in biomedical research in recent years. By simulating the in vivo tissue microenvironment, this model provides a more precise experimental platform for investigating complex cellular interactions, particularly in areas such as tumor immune evasion mechanisms, drug sensitivity testing, and the pathological characterization of neurodegenerative diseases, where it has demonstrated significant value. However, the organoid co-culture model still faces several challenges in terms of standardized procedures, large-scale cultivation, ethical guidelines, and future development. In particular, in the field of laboratory animal science, how to effectively combine organoids with traditional animal models, and how to select the most appropriate model for different research needs while exploring its potential for replacement, remain pressing issues. In the context of ethical approval and the replacement of animal experiments, the organoid co-culture model offers an experimental approach that better aligns with the "3R" principle (Replacement, Reduction, Refinement), potentially becoming an important tool for replacing traditional animal models. To this end, this paper reviews the latest advances and key challenges in this field, providing a detailed description of the construction methods for organoid co-culture models and discussing their applications in disease mechanism research and drug screening. The paper also systematically compares the organoid co-culture models with traditional animal models, exploring the criteria for selecting the appropriate model for specific applications. Furthermore, this paper discusses the potential value of organoid co-culture models as alternatives to animal experiments and anticipates future development trends of this technology. Through these discussions, the paper aims to promote the innovation and development of organoid co-culture technology and provide new perspectives and scientific evidence for future research.

Objective:To investigate the clinical efficacy of posterior midline incision combined with anteromedial approach in the treatment of complex olecranon fracture-dislocation.Methods:A retrospective analysis was performed on 26 patients (15 males and 11 females) with olecranon fracture-dislocation who were admitted from January 2020 to January 2024, including 5 cases of anterior transolecranon fracture-dislocation (2 cases of upper ulnar-radial joint dislocation), 21 cases of posterior transolecranon fracture-dislocation (5 cases of them were accompanied by upper ulnar-radial joint dislocation). Among them, there were 13 cases of traffic accidents, 7 cases of falling from heights, and 6 cases of walking falls. The average age is 45.1±15.3 years old (21-84 years old).Results:The operation time was 151.2±41.9 minutes, average tourniquet time was 93.7±22.6 minutes, and the intraoperative blood loss was 76.2±20.2 ml. The average follow-up was 16(12, 23) months, and the VAS score decreased significantly and the MEPS score increased significantly over time. At the last follow-up, the VAS score was 2(1, 2), and the MEPS score was 86.5±10.3, with 16 cases excellent, 7 cases good, and 3 cases medium, with an excellent rate of 89%. The range of motion of flexion-extension and pronation-supination were 119.3°±13.5°and 138.6°±15.2° respectively. Complications included 16 cases of ectopic ossification, of which 4 patients with significant effects on elbow function underwent surgical release 3-6 months after surgery. 1 case of ulnar nerve injury symptoms improved after emergency ulnar nerve release, and 1 case of elbow subluxation due to inaccurate coronoid process reduction and fixation. There were no serious complications such as vascular injury, internal fixation failure, fracture nonunion, and incision infection.Conclusion:The posterior midline incision combined with anteromedial approach can effectively treat complex olecranon fracture-dislocation and meet the requirements of early postoperative elbow rehabilitation.

Objective:To explore the application value of three-dimensional visualization reconstruction technology in robot-assisted laparoscopic partial nephrectomy（RAPN）for the treatment of highly complex（R.E.N.A.L. score≥10）renal hilar tumors.Methods:The clinical data of 87 patients with highly complex renal hilar tumors with R.E.N.A.L. scores ≥10 who were treated in First Affiliated Hospital of Nanchang University from January 2021 to December 2024 were retrospectively analyzed，of which 36 underwent 3D visualization reconstruction and 51 underwent conventional CT. The 3D visualization reconstruction method was to import the patient’s enhanced CT images in DICOM format into the 3D reconstruction image data processing software to produce a 3D visualization model. There were 22 males and 14 females in the 3D visualization group，with an average age of（54.2 ± 9.5）years，a body mass index of（24.8 ± 4.5）kg/m 2，and a tumor size of（4.3 ± 1.0）cm. Tumors were located on the left side in 16 cases and on the right side in 20 cases. Tumor stages were classified as T 1a in 11 cases，T 1b in 21 cases，and T 2a in 4 cases. The R.E.N.A.L. scores were distributed as follows：10 points in 21 cases，11 points in 12 cases，and 12 points in 3 cases. The estimated glomerular filtration rate（eGFR）before operation was（78.2±9.6）ml/（min·1.73 m 2）. There were 35 males and 16 females in the conventional CT group，with an average age of（51.3±8.9）years，a body mass index of（25.4 ± 3.9）kg/m 2，and a tumor size of（4.1 ± 1.2）cm. Tumors were located on the left side in 25 cases and on the right side in 26 cases. Tumor stages were classified as T 1a in 12 cases，T 1b in 33 cases，and T 2a in 6 cases. The R.E.N.A.L. scores were distributed as follows：10 points in 31 cases，11 points in 18 cases，and 12 points in 2 cases . The preoperative eGFR was（80.6 ± 8.8）ml/（min·1.73 m 2）. There was no statistical difference in general data and preoperative renal function between the two groups（ P > 0.05）. Both groups underwent RAPN. The two groups were analyzed and compared in terms of operation time，warm ischemia time，intraoperative blood loss，postoperative hospital stay，postoperative complications，and changes in renal function 3 months after surgery. Results:There were no cases of conversion to radical treatment or open surgery in both the 3D visualization group and the conventional CT group. The 3D visualization group had shorter operation time［（94.6 ± 18.5）min vs.（110.2 ± 17.2）min， P < 0.001］，shorter renal artery occlusion time［（23.3 ± 4.0）min vs.（27.2 ± 3.3）min， P < 0.001］，less intraoperative blood loss［120（100，250）ml vs. 150（120，300）ml， P = 0.018］，and a lower proportion of intraoperative collecting system incision（19/36 vs. 38/51， P = 0.042）than the conventional CT group. There was no significant statistical difference in the time of postoperative drainage tube removal and postoperative hospital stay between the two groups（ P > 0.05）. One case in the 3D visualization group had postoperative fever，and two cases in the conventional CT group had postoperative obvious macroscopic hematuria. Postoperative pathological diagnosis of the patients was clear cell carcinoma in 78 cases，papillary cell carcinoma in 6 cases，chromophobe cell carcinoma in 2 cases，and oncocytoma in 1 case. No positive resection margin was found in both groups. Three months after surgery，there was no significant statistical difference in eGFR between the two groups［（70.6 ± 8.5）ml/（min·1.73 m 2）vs.（71.4 ± 9.2）ml/（min·1.73 m 2）， P = 0.681］. During the median follow-up of 17.8 months，no tumor recurrence or metastasis was observed in either group. Conclusions:RAPN has good safety and feasibility in the treatment of highly complex（R.E.N.A.L. score ≥10）renal hilar tumors. Preoperative three-dimensional visualization reconstruction technology helps to reduce RAPN operation time，renal artery occlusion time and intraoperative blood loss，and has good clinical application value.

Objective:To investigate the clinical efficacy of posterior midline incision combined with anteromedial approach in the treatment of complex olecranon fracture-dislocation.Methods:A retrospective analysis was performed on 26 patients (15 males and 11 females) with olecranon fracture-dislocation who were admitted from January 2020 to January 2024, including 5 cases of anterior transolecranon fracture-dislocation (2 cases of upper ulnar-radial joint dislocation), 21 cases of posterior transolecranon fracture-dislocation (5 cases of them were accompanied by upper ulnar-radial joint dislocation). Among them, there were 13 cases of traffic accidents, 7 cases of falling from heights, and 6 cases of walking falls. The average age is 45.1±15.3 years old (21-84 years old).Results:The operation time was 151.2±41.9 minutes, average tourniquet time was 93.7±22.6 minutes, and the intraoperative blood loss was 76.2±20.2 ml. The average follow-up was 16(12, 23) months, and the VAS score decreased significantly and the MEPS score increased significantly over time. At the last follow-up, the VAS score was 2(1, 2), and the MEPS score was 86.5±10.3, with 16 cases excellent, 7 cases good, and 3 cases medium, with an excellent rate of 89%. The range of motion of flexion-extension and pronation-supination were 119.3°±13.5°and 138.6°±15.2° respectively. Complications included 16 cases of ectopic ossification, of which 4 patients with significant effects on elbow function underwent surgical release 3-6 months after surgery. 1 case of ulnar nerve injury symptoms improved after emergency ulnar nerve release, and 1 case of elbow subluxation due to inaccurate coronoid process reduction and fixation. There were no serious complications such as vascular injury, internal fixation failure, fracture nonunion, and incision infection.Conclusion:The posterior midline incision combined with anteromedial approach can effectively treat complex olecranon fracture-dislocation and meet the requirements of early postoperative elbow rehabilitation.

As one of the major diseases threatening human health,the early accurate diagnosis and localization of tumors are crucial for formulating effective treatment plans.In recent years,molecular probes(MPs)have made significant progress in the field of biological imaging.With advantages such as high sensitivity,high specificity,and non-invasiveness,they have become a research hotspot in the field of tumor diagnosis and treatment.This paper systematically reviews the applications of MPs in tumor diagnosis and treatment,covering their classifications(such as fluorescent,photoacoustic,chemiluminescent,bioluminescent,and multimodal probes),design strategies(including active/pas-sive targeting mechanisms and the synergistic construction of identification units,imaging units,signal conversion units and treatment units),as well as detection principles.It also focuses on elabo-rating the research progress of MPs based on enzymes,receptors,reactive substances,and tumor microenvironment.Meanwhile,this paper emphasizes the advantages of multifunctional integration and multimodal imaging,and analyzes the challenges faced by MPs in clinical translation(such as biocompatibility and optimization of supporting equipment).It aims to provide ideas for the develop-ment of high-performance MPs and promote the advancement of precise and personalized tumor di-agnosis and treatment.

Objective:To explore the application value of three-dimensional visualization reconstruction technology in robot-assisted laparoscopic partial nephrectomy（RAPN）for the treatment of highly complex（R.E.N.A.L. score≥10）renal hilar tumors.Methods:The clinical data of 87 patients with highly complex renal hilar tumors with R.E.N.A.L. scores ≥10 who were treated in First Affiliated Hospital of Nanchang University from January 2021 to December 2024 were retrospectively analyzed，of which 36 underwent 3D visualization reconstruction and 51 underwent conventional CT. The 3D visualization reconstruction method was to import the patient’s enhanced CT images in DICOM format into the 3D reconstruction image data processing software to produce a 3D visualization model. There were 22 males and 14 females in the 3D visualization group，with an average age of（54.2 ± 9.5）years，a body mass index of（24.8 ± 4.5）kg/m 2，and a tumor size of（4.3 ± 1.0）cm. Tumors were located on the left side in 16 cases and on the right side in 20 cases. Tumor stages were classified as T 1a in 11 cases，T 1b in 21 cases，and T 2a in 4 cases. The R.E.N.A.L. scores were distributed as follows：10 points in 21 cases，11 points in 12 cases，and 12 points in 3 cases. The estimated glomerular filtration rate（eGFR）before operation was（78.2±9.6）ml/（min·1.73 m 2）. There were 35 males and 16 females in the conventional CT group，with an average age of（51.3±8.9）years，a body mass index of（25.4 ± 3.9）kg/m 2，and a tumor size of（4.1 ± 1.2）cm. Tumors were located on the left side in 25 cases and on the right side in 26 cases. Tumor stages were classified as T 1a in 12 cases，T 1b in 33 cases，and T 2a in 6 cases. The R.E.N.A.L. scores were distributed as follows：10 points in 31 cases，11 points in 18 cases，and 12 points in 2 cases . The preoperative eGFR was（80.6 ± 8.8）ml/（min·1.73 m 2）. There was no statistical difference in general data and preoperative renal function between the two groups（ P > 0.05）. Both groups underwent RAPN. The two groups were analyzed and compared in terms of operation time，warm ischemia time，intraoperative blood loss，postoperative hospital stay，postoperative complications，and changes in renal function 3 months after surgery. Results:There were no cases of conversion to radical treatment or open surgery in both the 3D visualization group and the conventional CT group. The 3D visualization group had shorter operation time［（94.6 ± 18.5）min vs.（110.2 ± 17.2）min， P < 0.001］，shorter renal artery occlusion time［（23.3 ± 4.0）min vs.（27.2 ± 3.3）min， P < 0.001］，less intraoperative blood loss［120（100，250）ml vs. 150（120，300）ml， P = 0.018］，and a lower proportion of intraoperative collecting system incision（19/36 vs. 38/51， P = 0.042）than the conventional CT group. There was no significant statistical difference in the time of postoperative drainage tube removal and postoperative hospital stay between the two groups（ P > 0.05）. One case in the 3D visualization group had postoperative fever，and two cases in the conventional CT group had postoperative obvious macroscopic hematuria. Postoperative pathological diagnosis of the patients was clear cell carcinoma in 78 cases，papillary cell carcinoma in 6 cases，chromophobe cell carcinoma in 2 cases，and oncocytoma in 1 case. No positive resection margin was found in both groups. Three months after surgery，there was no significant statistical difference in eGFR between the two groups［（70.6 ± 8.5）ml/（min·1.73 m 2）vs.（71.4 ± 9.2）ml/（min·1.73 m 2）， P = 0.681］. During the median follow-up of 17.8 months，no tumor recurrence or metastasis was observed in either group. Conclusions:RAPN has good safety and feasibility in the treatment of highly complex（R.E.N.A.L. score ≥10）renal hilar tumors. Preoperative three-dimensional visualization reconstruction technology helps to reduce RAPN operation time，renal artery occlusion time and intraoperative blood loss，and has good clinical application value.