Objective To explore the value of iteration algorithm (AIDR 3D) and filter-back projection (FBP) combined with CT low dose scanning in evaluation of lumbar intervertebral disc hernia.Methods Totally 150 patients with lumbar degenerative osteoarthropathy were randomly divided into A＞E groups,with 30 cases in each group.Scanning parameters of A＞D groups were 120 kV of tube voltage,and 100 mAs,50 mAs,30 mAs,as well as 20 mAs of tube current.While parameters of group E were 80 kV of tube voltage and 100 mAs of tube current.Each group was reconstructed with FBP and AIDR 3D,respectively,and their noises,SNRs and CNRs of groups were compared.And 3-point evaluation method was used to score the imaging,while score ≥2 were acceptable image quantity for clinical imaging.Results Under different radiation doses,AIDR 3D reconstruction images were superior to FBP in noise,SNR,CNR and display of intervertebral disc hernia.Under the same reconstruction technology,with the reduction of dose,noise increased,SNR and display of intervertebral disc hernia decreased.Except for slightly lower in AIDR 3D reconstruction with 50 mAs than that with 30 mAs,CNR decreased with the reduction of dose.Two reconstruction technologies under the same dose,image quality of reducing the tube current were better than that of lowering the tube voltage.Conclusion It is valuable of AIDR 3D combined with CT low dose scanning in evaluation on lumbar intervertebral disc hernia.

Objective To identify the risk factors for prostate-sparing cystectomy by evaluating the risk of prostatic invasion or incidental prostatic adenocarcinoma (PCa) in bladder cancer (BCa) patients undergoing radical cystectomy.Methods The patients undergoing radical cystectomy from 2009 to 2014 in Fujian Medical University Union Hospital were enrolled to analyze the risk factors of prostatic tumor invasion.These factors included age,tumor size,location,quantity,histologic grade and pathologic stage.Results In the 123 male patients,the mean age was 60 years (range,31-78 years);23 (18.7％) patients had BCa or PCa in the prostate;14 (11.4％) had prostatic Bca;11 (8.9％) had PCa.The risk factors of prostatic BCa included multifocal bladder tumors (OR =26.70,P =0.032),tumor in the bladder neck and trigone(OR =17.13,P =0.013),pathological stage (OR =26.70,P ＜ 0.001).Among the 11 patients with PCa,3(27.3％) patients had Gleason score of ≥7,8(72.7％) patients ≤6 and 2(18.2％) patients had extracapsular extension.Three patients had clinically significant PCa.The factor of advanced age was associated with incidental PCa (P =0.003).Conclusion The risk factors of prostatic tumor invasion in patients undergoing radical cystectomy included advanced age,bladder tumor in bladder neck and trigone,muhifocal bladder tumors,and advanced pathological stage.

Objective To explore risk factors of the progression to castration-resistant prostate cancer(CRPC)after hormone therapy (HT).Methods A total of 178 patients with prostate cancer from February 2009 to February 2018 were enrolled to analyze the risk factors of the progression to castrationresistant prostate cancer after androgen deprivation therapy in Fujian Medical University Union Hospital.The mean age was72 years (range,49-91 years);the middle Gleason score was 7 (range,4-10);the middle PSA at the initiation of HT was 24.45 ng/ml (range,0.16-100.0 ng/ml);the middle time to PSA nadir was 9 months (range,0.5-69.0 months);the middle PSA nadir after HT was 0.030 ng/ml (range,0.003-78.670 ng/ml);the mean hemoglobin level was 131 g/L (range,64-184 g/L);the mean alkaline phosphatase level was 98 U/L (range,35-734 U/L);39 patients were diabetes mellitus (21.9％);82 patients were bone metastasis/visceral metastasis (46.1％);85 patients (47.8 ％) were in clinical T1 + T2;93 patients(52.2％)were in clinical T3 + T4.We studied the relationship between CRPC and these risk factors including age,Gleason score,PSA at the initiation of HT,PSA nadir after HT,the time to PSA nadir,hemoglobin level,alkaline phosphatase,bone metastasis/visceral metastasis,clinical T stage,diabetes mellitus by x2 test,univariate and multivariate Cox regression analysis methods.Results The middle follow-up time was 30 months (range,6-92 months).There were 74 of 178 patients progressed to CRPC after HT.The median time of progression to CRPC in this cohort was 15 months (range,4-47 months).On x2 test analysis,there were statistically significant differences between the progression to CRPC group after HT and the rest group in Gleason score (P ＜0.001),PSA nadir after HT (P ＜0.001),PSA at the initiation of HT (P =0.042),alkaline phosphatase (P =0.002),bone metastasis/visceral metastasis (P＜0.001) and clinical T stage (P ＜0.001).Additionally,on multivariate Cox regression analysis,Gleason score (OR =6.152,P ＜ 0.001),PSA nadir after HT (OR =3.022,P ＜ 0.004) and the time to PSA nadir (OR =0.375,P ＜0.001) were found to be significantly associated with the rapid progression to CRPC.Conelusions Gleason score,PSA nadir after HT and the time to PSA nadir were significantly associated with the progression to CRPC.Patients with higher PSA nadir or the shorter time to PSA nadir were more likely to progress to CRPC.

Human beings are inevitably exposed to toxic substances as a result of influences of potential contamination factors in the environment,food and medicines,which poses a threat to human health.In order to effectively screen and prevent the exposure or intake of such substances,it is neces-sary to develop in vitro assays for the detection and toxicity evaluation of toxic substances.High content screening(HCS)has been recognized as an important tool for toxicity testing and risk assessment of compounds due to its high throughput and automation advantages,and has been widely used in in vitro toxicology research.In this review,we described the system components of HCS and its workflow in toxicity screening and toxicity evaluation by focusing on cases of their application in toxicity detection and evaluation studies,including the cytotoxicity,hepatotoxicity,nephrotoxicity,genotoxicity,neurotox-icity,cardiotoxicity,and developmental toxicity.In addition,the applications and developments of machine learning in HCS were explored,especially to the advantages of supervised and unsupervised machine learning strategies for high throughput image screening and data analysis.Finally,the future applications of HCS in toxicity screening and evaluation are outlined,especially in terms of binding new models and gene editing technology.

Objective:To explore the effects of orienting three-dimensional porous network (type A) and honeycomb briquette-shaped vertically penetrating three-dimensional porous network (type B) on the vascularization rate of artificial dermis.Methods:The experimental research method was used. The artificial dermis was composed of a double layer of silicone layer and scaffold layer. Based on the difference of scaffold layer, they were divided into type A and type B artificial dermis (type A dermis and type B dermis, for short) containing type A and type B structure, respectively. The type A and type B structures were prepared by gradient freeze-drying technique and physical pore-making technique, respectively. The micro-morphology of two kinds of dermis scaffold was observed by scanning electron microscopy. The porosity of two kinds of dermis scaffold was measured by the Pyrex method. According to the method of national medical industry standard, the hydroxyproline content in degradation liquids and their residues in two kind of dermis were determined after degradation at 4, 8, 13, and 24 h, reflecting the degradation rates of two kinds of dermis. According to the random number table, L929 cells were divided into type A dermis group, type B dermis group, negative control group, and positive control group. The positive control group was added with minimum essential medium (MEM) containing 5% dimethyl sulfoxide, The negative control group was added with high-density polyethylene extract, and the other two groups were added with the corresponding extract. At 24 hours after culture, the growth rate of L929 cells was detected by methyl thiazolyl tetrazolium, and the cytotoxicity was graded. L929 cells and human umbilical vein endothelial cells (HUVECs) were inoculated into pore plates with two kinds of dermis preinstalled. On 1, 4, 7, and 14 d after inoculating, the adhesion and growth of L929 cells on the surfaces of the two kinds of scaffolds were detected by immunofluorescence method. On 7 d after inoculating, the migration of the above two kinds of cells into the two kinds of dermal scaffolds was detected by immunofluorescence and hematoxylin-eosin (HE) staining. Three full-thickness skin defect wounds of 5.0 cm×5.0 cm were created on both sides of the back of three 6-month-old healthy male Ba-Ma mini pigs. According to the random number table, six columns of wounds were divided into type A dermis two-step method group, type B dermis two-step method group, and type B dermis one-step method group. The wounds in type A dermis two-step method group and type B dermis two-step method group were transplanted with type A or type B dermis respectively before, and with autologous split-thickness skin grafting later. The wounds in type B dermis one-step method group were transplanted in a synchronous procedure including type B dermis (without silicone layer) and autologous skin grafting simultaneously. The bleeding, exudation, and infection of the wounds on the back in type A dermis two-step method group and type B dermis two-step method group on the 7th day after the second transplantation and in type B dermis one-step method group on the 14th day after the first transplantation were generally observed. The area of autologous skin graft was measured by the transparent film grid method, and the survival rate of autologous skin was calculated. On 4, 7, and 14 d after the first transplantation, the inflammatory cells, fibroblasts (Fbs), and capillary infiltration into the scaffolds of the three groups were detected by HE staining. On 7, 14 d after the first transplantation, the vascularization of the scaffolds was further observed by immunohistochemistry. On 28, 90 d after the first operation, the degradation of the scaffolds of type A dermis and type B dermis was observed by HE staining. Data were statistically analyzed with one-way analysis of variance, independent sample t test, and Bonferroni correction. Results:A large number of round and oval micropores were evenly distributed on the surface of type A scaffold, and the cylindrical hole walls could be observed arranging in a parallel direction in the longitudinal section. The honeycomb briquette-shaped penetrating macropores on the surface of type B scaffold were arranged in an orderly matrix. The pore walls of the honeycomb briquette-shaped penetrating macropores were connected by micropores to form a network structure. The porosity of type A dermis was (93.21±0.72)%, which was similar to (95.88±1.00)% of type B dermis ( t=4.653, P>0.05). The degradation rates of type A dermis at 4, 8, 13, and 24 h were similar to those of type B dermis at the corresponding time point ( t=0.232, 0.856, 0.258, 7.716, P>0.05). At 24 h after culture, the proliferation rates of L929 cells in the type A dermis group, type B dermis group, and negative control group were significantly higher than those of the positive control group ( t=2 393.46, 2 538.27, 1 077.77, P<0.01). The cytotoxicity rating of cells in positive control group was grade 4, while that of the other three groups was grade zero. On 1, 4, 7, and 14 d after inoculation, both L929 cells and HUVECs proliferated in a time-dependent manner in two kinds of dermal scaffolds. The adhesion growth and proliferation rate of the two kinds of cells on the surface of type B dermis was higher than that of type A dermis. On 7 d after inoculation, both L929 cells and HUVECs covered the surface of type B dermis and migrated into one side of the silicone layer. However, the above two kinds of cells migrated slowly into type A dermis, and only a few cells were found on one side of the silicone layer. There was no bleeding, exudation, or infection in the wounds repaired by type A and type B dermis. The survival rate of autologous skin grafting of 6 wounds in each group was 100%. On 4, 7, and 14 d after the first operation, inflammatory cells, Fbs, and capillaries gradually infiltrated into the scaffold layer, and the cell infiltration rate from high to low was type B dermis one-step method group, type B dermis two-step method group, and type A dermis two-step method group. The scaffold in wound in the type B dermis one-step method group gradually collapsed on 28 d after the first operation, and completely degraded in 3 months after the first operation. The scaffold degradation rate of type A dermis two-step method group was similar to that mentioned above. Conclusions:The honeycomb briquette-shaped vertically penetrating three-dimensional porous network structure of type B scaffold can accelerate its vascularization process, which is beneficial to autogenous split-thickness skin in one-step procedure to repair full-thickness skin defects wound in Ba-Ma mini pigs. Compared with the "two-step method" of staged transplantation of type A scaffold and autologous split-thickness skin, and one-step transplantation has equal efficacy and can provide a better choice for wound treatment.