ObjectiveTo dynamically observe the clinical symptoms and pathological changes in a rat model of vinorelbine-induced phlebitis via injection into the dorsalis pedis vein. MethodsTwenty-eight 11-week-old male SPF-grade SD rats were randomly divided into a model group (n=20) and a control group (n=8). The model group received a single injection of 0.1 mL vinorelbine solution (4 mg/mL) via the right hind limb dorsalis pedis vein, while the control group received an equal volume of normal saline via the same method. The occurrence and grading of phlebitis in both groups were observed and recorded daily. The volume of the injured limb was measured by the drainage method to calculate the swelling rate. The weight-bearing ratio of the injured limb was assessed using a bipedal balance pain meter, and the skin temperature of the injured limb was measured by infrared thermal imaging. These measurements were conducted for 9 consecutive days. Starting from day 1, three rats from the model group were euthanized every other day. A 1-cm segment of the vein extending proximally from the injection site was collected. Pathological changes in the vein tissue were examined by hematoxylin-eosin staining, and ultrastructural changes of the vascular endothelium were observed using scanning electron microscopy. ResultsCompared to the control group, the injected hindlimb of model rats showed redness and swelling on day 1, with the swelling rate peaking at (81.89±15.75) % on day 3 (P<0.001), then gradually alleviating and decreasing to (15.41±0.33) % by day 9 (P<0.01). Pain was observed in the affected limbs of model rats on day 1 and worsened markedly on day 3, with the weight-bearing ratio decreasing to (36.35±4.91)% (P<0.001). Meanwhile, the skin temperature of the lesion site increased, reaching (36.36±0.40) ℃ on day 5 (P<0.001). Both pain and fever returned to near normal levels by day 9. Phlebitis grading in the model group showed that 75.0% of rats were grade Ⅱ on day 1; grade Ⅲ and Ⅳ each accounted for 37.5% on day 3; from days 5 to 9, most rats exhibited cord-like veins, predominantly grade III. Venous tissue showed peripheral edema and inflammatory cell infiltration on day 1, which gradually progressed to intimal rupture, vessel wall thickening, and even lumen narrowing from day 3 to 9. The venous intima exhibited destruction of tight junctions between endothelial cells and adhesion of blood cells, progressing to roughened, wrinkled, and protruding intimal surfaces. ConclusionThe vinorelbine-induced phlebitis of dorsal foot vein in rat model is characterized by local redness, swelling, warmth, and pain from days 3 to 5, which largely resolve by day 9, although cord-like veins can still be observed. With disease progression, venous tissue develops edema, vessel wall thickening, and lumen narrowing. The venous intima shows rupture, roughening, and in some cases, complete loss.

ObjectiveTo dynamically observe the clinical symptoms and pathological changes in a rat model of vinorelbine-induced phlebitis via injection into the dorsalis pedis vein. MethodsTwenty-eight 11-week-old male SPF-grade SD rats were randomly divided into a model group (n=20) and a control group (n=8). The model group received a single injection of 0.1 mL vinorelbine solution (4 mg/mL) via the right hind limb dorsalis pedis vein, while the control group received an equal volume of normal saline via the same method. The occurrence and grading of phlebitis in both groups were observed and recorded daily. The volume of the injured limb was measured by the drainage method to calculate the swelling rate. The weight-bearing ratio of the injured limb was assessed using a bipedal balance pain meter, and the skin temperature of the injured limb was measured by infrared thermal imaging. These measurements were conducted for 9 consecutive days. Starting from day 1, three rats from the model group were euthanized every other day. A 1-cm segment of the vein extending proximally from the injection site was collected. Pathological changes in the vein tissue were examined by hematoxylin-eosin staining, and ultrastructural changes of the vascular endothelium were observed using scanning electron microscopy. ResultsCompared to the control group, the injected hindlimb of model rats showed redness and swelling on day 1, with the swelling rate peaking at (81.89±15.75) % on day 3 (P<0.001), then gradually alleviating and decreasing to (15.41±0.33) % by day 9 (P<0.01). Pain was observed in the affected limbs of model rats on day 1 and worsened markedly on day 3, with the weight-bearing ratio decreasing to (36.35±4.91)% (P<0.001). Meanwhile, the skin temperature of the lesion site increased, reaching (36.36±0.40) ℃ on day 5 (P<0.001). Both pain and fever returned to near normal levels by day 9. Phlebitis grading in the model group showed that 75.0% of rats were grade Ⅱ on day 1; grade Ⅲ and Ⅳ each accounted for 37.5% on day 3; from days 5 to 9, most rats exhibited cord-like veins, predominantly grade III. Venous tissue showed peripheral edema and inflammatory cell infiltration on day 1, which gradually progressed to intimal rupture, vessel wall thickening, and even lumen narrowing from day 3 to 9. The venous intima exhibited destruction of tight junctions between endothelial cells and adhesion of blood cells, progressing to roughened, wrinkled, and protruding intimal surfaces. ConclusionThe vinorelbine-induced phlebitis of dorsal foot vein in rat model is characterized by local redness, swelling, warmth, and pain from days 3 to 5, which largely resolve by day 9, although cord-like veins can still be observed. With disease progression, venous tissue develops edema, vessel wall thickening, and lumen narrowing. The venous intima shows rupture, roughening, and in some cases, complete loss.

MicroRNA(miRNA),an important type of non-coding RNAs existing widely in viruses and eukaryotes,regulate gene expression at transcriptional and post-transcriptional levels.Recent studies have demonstrated that plant miRNAs could enter microorganisms,animals and human bodies to affect their physiological and pathological processes by cross-kingdom regulation of gene expression.This review summarized the current knowledge of cross-kingdom regulation of gene expression by plant miRNAs,introduced the research progress in intervention of human diseases with plant miRNAs,including anti-virus,anti-tumor,anti-inflammation,immune regulation,anti-fatigue,anti-fibrosis,vascular protection,nerve protection,etc.,and analyzed the reasons why plant miRNAs remain stable in vivo and in vitro and the underlying mechanisms how they regulate human gene expression.Furthermore,the impact of cross-kingdom regulation by plant miRNAs on exploring new active ingredients of traditional Chinese herbs and elucidating their pharmacology were evaluated.Finally,"constructing the complex regulatory network of traditional Chinese medicine miRNAs in human body"and"exploring new mechanisms of gene expression regulation by traditional Chinese medicine miRNAs"were pointed out,which were two scientific problems worthy of further investigation.

Objective To explore the feasibility of endovascular intervention technology for constructing canine models of hepatic vein(HV)obstruction type Budd-Chiari syndrome(BCS).Methods HV obstruction type BCS models were established through double approaches including external jugular vein and percutaneous transhepatic vein puncture,blocking the main HV with double balloon and injecting anhydrous ethanol using 10 Beagle dogs.Laboratory indexes before and after modeling were compared.Liver ultrasound was performed 2,4 and 8 weeks after modeling,respectively,while intravascular ultrasound(IVUS)and digital subtracting angiography(DSA)were performed after the last time ultrasound to observe the obstruction degree,lumen and blood flow of left hepatic vein(LHV).The stenosis rate of LHV was evaluated based on DSA findings,and successful establishment of HV obstruction type BCS canine model was regarded as stenosis rate＞30%and incomplete occlusion of LHV,then the success rate of modeling was recorded.Results No significant difference of laboratory indexes was found before and after modeling(all P＞0.05).Ultrasound,IVUS and DSA showed that after modeling,different degrees of LHV stenosis complicated with intrahepatic collateral circulation were found in 9 dogs,while complete occlusion of LHV was noticed in 1 dog.The success rate of modeling was 90.00%(9/10).Pathological results showed the target HV lumen narrow with thickened endovascular wall,and the latter mainly composed of fibroblast and collagen fiber proliferation.Conclusion Endovascular intervention technology was feasible for constructing canine models of HV obstruction type BCS.

Objective:To analyze the influence of embolic agent type selection on the clinical efficacy of transfemoral artery interventional therapy for hepatocellular carcinoma.Methods:The clinical data of 140 cases of hepatocellular carcinoma patients treated with femoral artery interventional therapy in the 960th Hospital of the Joint Logistic Support Force of the PLA from January 2020 to December 2022 were retrospectively analyzed. Among them, 35 patients treated with iodized oil was in group A, 35 patients treated with anhydrous ethanol was in group B, 35 patients treated with gelatin sponge granule embolization agent was in group C, 35 patients treated with drug-loaded microsphere embolization agents was in group D. The clinical efficacy and serum tumor markers before and after treatment of the four groups were compared, and the occurrence of adverse reactions in the four groups were analyzed.Results:There was statistical significance in the total effective rate of the four groups ( P<0.05), among which the total effective rate of group D was the highest [97.14% (34/35)], followed by group C [85.71% (30/35)], and the total effective rate of group A and B [54.29% (19/35), 62.86% (22/35)] was lower.After treatment, the levels of alpha-fetoprotein (AFP), carcinoembryonic antigen (CEA), alkaline phosphatase (ALP), γ-glutamyltransferase (GGT) and alpha-fetoprotein anisoplast L3 (AFP-L3) were all decreased compared with those before treatment ( P<0.05), and there were statistically significant differences in the above indexes among the four groups ( P<0.05). Among them, the levels of AFP, CEA, ALP, GGT and AFP-L3 in group D were the lowest, followed by group C, and higher in group A and B. There was no significant difference in the total incidence of adverse reactions among the four groups ( P>0.05). Conclusions:There is no significant difference in the safety of oil iodide, anhydrous ethanol, gelatin sponge particles embolic agent and drug-carrying microspheres embolic agent applied in transfemoral interventional therapy of hepatocellular carcinoma, and in the comparison of the efficacy, it is found that the drug-carrying microspheres embolic agent have the best efficacy, followed by gelatin sponge particles embolic agent, and oil iodide embolic agent and anhydrous ethanol are poor.

BACKGROUND:The extracellular matrix is a complex network structure,which not only builds physical support for tissue cells,but also plays an important regulatory role in cell survival,proliferation,and death.Abnormal changes in the biochemical and biomechanical properties of the extracellular matrix can significantly affect the proliferation,migration,immune evasion,and treatment resistance of tumor cells.Stiffness is an important mechanical property of the extracellular matrix,and abnormalities in matrix stiffness are closely related to tumor progression.OBJECTIVE:By reviewing the mechanism of extracellular matrix sclerosis,the impact of high stiffness matrix on tumor progression,and the latest research progress in the treatment of cancer based on reducing matrix stiffness,to deeply understand the mechanical properties of the extracellular matrix,improve the understanding of the complex mechanism of tumor progression,and provide new ideas and directions for tumor treatment.METHODS:"Extracellular matrix function,extracellular matrix stiffness,collagen deposition cross-linking,extracellular matrix stiffness therapy,immunotherapy"were used as the search terms in Chinese and English.Relevant literature published from January 2016 to June 2024 was searched in CNKI,PubMed,and WanFang databases,and 80 articles were finally included for review.RESULTS AND CONCLUSION:(1)Deposition and excessive cross-linking of collagen and elastin in the extracellular matrix leads to matrix remodeling,which in turn increases matrix stiffness.This sclerosis activates pro-cancer signaling pathways such as cyclin-D1,Rho/ROCK,p-PXN-Rac1-YAP,and STAT3/p-STAT3,promotes malignant behaviors such as cancer cell proliferation,metastasis,tumor microangiogenesis and immune escape,and accelerates tumor progression.(2)Reducing the deposition and cross-linking of matrix proteins can reduce matrix stiffness,which cannot only inhibit the activation of multiple cancer-promoting signaling pathways,but also enhance the penetration and delivery of drugs at tumor sites,which is a new strategy for cancer treatment.(3)At present,drugs based on matrix degradation to reduce tumor stiffness are under development,and a few drugs have entered the clinical trial stage,which are expected to provide a new powerful weapon for tumor treatment.

MicroRNA(miRNA),an important type of non-coding RNAs existing widely in viruses and eukaryotes,regulate gene expression at transcriptional and post-transcriptional levels.Recent studies have demonstrated that plant miRNAs could enter microorganisms,animals and human bodies to affect their physiological and pathological processes by cross-kingdom regulation of gene expression.This review summarized the current knowledge of cross-kingdom regulation of gene expression by plant miRNAs,introduced the research progress in intervention of human diseases with plant miRNAs,including anti-virus,anti-tumor,anti-inflammation,immune regulation,anti-fatigue,anti-fibrosis,vascular protection,nerve protection,etc.,and analyzed the reasons why plant miRNAs remain stable in vivo and in vitro and the underlying mechanisms how they regulate human gene expression.Furthermore,the impact of cross-kingdom regulation by plant miRNAs on exploring new active ingredients of traditional Chinese herbs and elucidating their pharmacology were evaluated.Finally,"constructing the complex regulatory network of traditional Chinese medicine miRNAs in human body"and"exploring new mechanisms of gene expression regulation by traditional Chinese medicine miRNAs"were pointed out,which were two scientific problems worthy of further investigation.

Objective To explore the feasibility of endovascular intervention technology for constructing canine models of hepatic vein(HV)obstruction type Budd-Chiari syndrome(BCS).Methods HV obstruction type BCS models were established through double approaches including external jugular vein and percutaneous transhepatic vein puncture,blocking the main HV with double balloon and injecting anhydrous ethanol using 10 Beagle dogs.Laboratory indexes before and after modeling were compared.Liver ultrasound was performed 2,4 and 8 weeks after modeling,respectively,while intravascular ultrasound(IVUS)and digital subtracting angiography(DSA)were performed after the last time ultrasound to observe the obstruction degree,lumen and blood flow of left hepatic vein(LHV).The stenosis rate of LHV was evaluated based on DSA findings,and successful establishment of HV obstruction type BCS canine model was regarded as stenosis rate＞30%and incomplete occlusion of LHV,then the success rate of modeling was recorded.Results No significant difference of laboratory indexes was found before and after modeling(all P＞0.05).Ultrasound,IVUS and DSA showed that after modeling,different degrees of LHV stenosis complicated with intrahepatic collateral circulation were found in 9 dogs,while complete occlusion of LHV was noticed in 1 dog.The success rate of modeling was 90.00%(9/10).Pathological results showed the target HV lumen narrow with thickened endovascular wall,and the latter mainly composed of fibroblast and collagen fiber proliferation.Conclusion Endovascular intervention technology was feasible for constructing canine models of HV obstruction type BCS.

Objective:To analyze the influence of embolic agent type selection on the clinical efficacy of transfemoral artery interventional therapy for hepatocellular carcinoma.Methods:The clinical data of 140 cases of hepatocellular carcinoma patients treated with femoral artery interventional therapy in the 960th Hospital of the Joint Logistic Support Force of the PLA from January 2020 to December 2022 were retrospectively analyzed. Among them, 35 patients treated with iodized oil was in group A, 35 patients treated with anhydrous ethanol was in group B, 35 patients treated with gelatin sponge granule embolization agent was in group C, 35 patients treated with drug-loaded microsphere embolization agents was in group D. The clinical efficacy and serum tumor markers before and after treatment of the four groups were compared, and the occurrence of adverse reactions in the four groups were analyzed.Results:There was statistical significance in the total effective rate of the four groups ( P<0.05), among which the total effective rate of group D was the highest [97.14% (34/35)], followed by group C [85.71% (30/35)], and the total effective rate of group A and B [54.29% (19/35), 62.86% (22/35)] was lower.After treatment, the levels of alpha-fetoprotein (AFP), carcinoembryonic antigen (CEA), alkaline phosphatase (ALP), γ-glutamyltransferase (GGT) and alpha-fetoprotein anisoplast L3 (AFP-L3) were all decreased compared with those before treatment ( P<0.05), and there were statistically significant differences in the above indexes among the four groups ( P<0.05). Among them, the levels of AFP, CEA, ALP, GGT and AFP-L3 in group D were the lowest, followed by group C, and higher in group A and B. There was no significant difference in the total incidence of adverse reactions among the four groups ( P>0.05). Conclusions:There is no significant difference in the safety of oil iodide, anhydrous ethanol, gelatin sponge particles embolic agent and drug-carrying microspheres embolic agent applied in transfemoral interventional therapy of hepatocellular carcinoma, and in the comparison of the efficacy, it is found that the drug-carrying microspheres embolic agent have the best efficacy, followed by gelatin sponge particles embolic agent, and oil iodide embolic agent and anhydrous ethanol are poor.

BACKGROUND:The extracellular matrix is a complex network structure,which not only builds physical support for tissue cells,but also plays an important regulatory role in cell survival,proliferation,and death.Abnormal changes in the biochemical and biomechanical properties of the extracellular matrix can significantly affect the proliferation,migration,immune evasion,and treatment resistance of tumor cells.Stiffness is an important mechanical property of the extracellular matrix,and abnormalities in matrix stiffness are closely related to tumor progression.OBJECTIVE:By reviewing the mechanism of extracellular matrix sclerosis,the impact of high stiffness matrix on tumor progression,and the latest research progress in the treatment of cancer based on reducing matrix stiffness,to deeply understand the mechanical properties of the extracellular matrix,improve the understanding of the complex mechanism of tumor progression,and provide new ideas and directions for tumor treatment.METHODS:"Extracellular matrix function,extracellular matrix stiffness,collagen deposition cross-linking,extracellular matrix stiffness therapy,immunotherapy"were used as the search terms in Chinese and English.Relevant literature published from January 2016 to June 2024 was searched in CNKI,PubMed,and WanFang databases,and 80 articles were finally included for review.RESULTS AND CONCLUSION:(1)Deposition and excessive cross-linking of collagen and elastin in the extracellular matrix leads to matrix remodeling,which in turn increases matrix stiffness.This sclerosis activates pro-cancer signaling pathways such as cyclin-D1,Rho/ROCK,p-PXN-Rac1-YAP,and STAT3/p-STAT3,promotes malignant behaviors such as cancer cell proliferation,metastasis,tumor microangiogenesis and immune escape,and accelerates tumor progression.(2)Reducing the deposition and cross-linking of matrix proteins can reduce matrix stiffness,which cannot only inhibit the activation of multiple cancer-promoting signaling pathways,but also enhance the penetration and delivery of drugs at tumor sites,which is a new strategy for cancer treatment.(3)At present,drugs based on matrix degradation to reduce tumor stiffness are under development,and a few drugs have entered the clinical trial stage,which are expected to provide a new powerful weapon for tumor treatment.