Minimally invasive has surgery become the target of the surgeons,Da Vinci robot assisted surgical system has been used generally for colorectal cancer,with the advantages of three-dimensional high-definition imaging,flexible and high degree of freedom robotic arms,functions of action correction and shake filtration compared with laparoscopic surgery.However,advantages and disadvantages between Da Vinci robot assisted surgical system and traditional laparoscopic surgery are still controversial.In this paper,the present situation and prospect of Da Vinci robot assisted surgical system for colorectal cancer surgery are explored.

【Objective】 To establish the donor bank for local region and distinguish the donors based on the past blood donation frequency and blood donation type, so as to improve the application efficiency of platelet bank. 【Methods】 1) According to the donation type and frequency of blood donors, the blood donors who had joined China Marrow Donor Program(CMDP)in our center from 2011 to 2020 were screened and classified. They are classified as reserve donors, prospective donors, and active donors. The donors, who met the selection conditions of active donors, were enrolled from all apheresis donors in 2020 to expand the local platelet bank. 2) In 2020, 739 blood donors who met the conditions of active donors were screened(including donors who had entered CMDP), and their HLA-A/B loci were detected by HLA high-resolution genotyping, and HPA was detected by Q-PCR genotyping. 3) The compatible platelets provided by three types of donors in 2021 were calculated. 【Results】 1) Taiyuan platelet bank, composed of donors with different previous donation experiences, had been constructed, including 739 active donors, 3840 prospective donors and 18 715 reserve donors. The composition ratio of ABO blood groups among three types of donors was found to be similar via chi square test; there were more male than female in three groups. 2) In 2021, the ratio of the average redonation by active donors in the platelet bank to the regular donation by the general donors was 14.4∶3.98. 3) Of the 142 compatible platelets, supplied to PTR patients in 2021, 83.8% of them came from the redonation of active donors after registration in the bank, and 9.9% and 6.3% from prospective donors and reserve donors, respectively. 4) In 2021, 28.1% of the stored pheresis platalets in our center had HLA typing data, and 54.2% of compatible platelets were retrieved from the inventory, which timely met the needs of clinical patients. 【Conclusion】 Integrating resources and distinguishing the activity degree of donors in platelet bank can reduce the cost of bank building and improve the application efficiency of the platelet bank.

【Objective】 To analyze the epidemic of hepatitis C virus (HCV) in voluntary blood donors , and to assess the residual risk of HCV transmission by blood transfusion in Taiyuan. 【Methods】 The HCV screening results of voluntary blood donors in Taiyuan from 2016 to 2021 were collected by blood center information system, and the epidemiologic feature of first-time and repeated donors were analyzed. The incidence-window period model was used to assess the residual risk of HCV transmission by transfusion in first-time/repeated donors as well as that in repeated donors under different blood screening modes. 【Results】 Of the 662 705 samples in Taiyuan from 2016 to 2021, the HCV positive rate of the first-time donors was 1.83‰(595/325 009) and the residual risk of HCV transmission was 14.91/100 000. The HCV positive rate of the repeated donors was 0.04‰ (13/337 696) and the residual risk was 0.31/1 000 000. The total residual risk of HCV transmission was 7.47/1 000 000. A total of 337 696 blood samples of repeated blood donors were tested, the repeated blood donors’ residual risk of transfusion-transmitted HCV was 0.31/100 000 after dual ELISA tests , and 0.06/100 000 after dual ELISA and once NAT, which reduce by 80.65% since NAT were adopted. 【Conclusion】 The residual risk of HCV transmission from repeated donors was less than that from first-time donors. The blood screening mode of HCV by dual ELISA and once NAT can effectively reduce the residual risk of transfusion-transmitted HCV and improve blood safety. The rate of repeat blood donation needs to be increased by continuously optimizing the recruitment strategy of blood donors.

The mechanical properties of the aorta tissue is not only important for maintaining the cardiovascular health, but also is closely related to the development of cardiovascular diseases. There are obvious differences between the ventral and dorsal tissues of the descending aorta. However, the cause of the difference is still unclear. In this study, a biaxial tensile approach was used to determine the parameters of porcine descending aorta by analyzing the stress-strain curves. The strain energy functions Gasser-Ogden-Holzapfel was adopted to characterize the orthotropic parameters of mechanical properties. Elastic Van Gieson (EVG) and Sirius red stain were used to observe the microarchitecture of elastic and collagen fibers, respectively. Our results showed that the tissue of descending aorta had more orthotropic and higher elastic modulus in the dorsal region compared to the ventral region in the circumferential direction. No significant difference was found in hyperelastic constitutive parameters between the dorsal and ventral regions, but the angle of collagen fiber was smaller than 0.785 rad (45°) in both dorsal and ventral regions. The arrangement of fiber was inclined to be circumferential. EVG and Sirius red stain showed that in outer-middle membrane of the descending aorta, the density of elastic fibrous layer of the ventral region was higher than that of the dorsal region; the amount of collagen fibers in dorsal region was more than that of the ventral region. The results suggested that the difference of mechanical properties between the dorsal and ventral tissues in the descending aorta was related to the microstructure of the outer membrane of the aorta. In the relatively small strain range, the difference in mechanical properties between the ventral and dorsal tissues of the descending aorta can be ignored; when the strain is higher, it needs to be treated differently. The results of this study provide data for the etiology of arterial disease (such as arterial dissection) and the design of artificial blood vessel.
Animals ; Aorta, Thoracic ; physiology ; Biomechanical Phenomena ; Collagen ; Elastic Modulus ; Stress, Mechanical ; Swine

At present, acellular matrix is an effective replacement material for the treatment of skin damage, but there are few systematic evaluation studies on its performance. The experimental group of this study used two decellularization methods to prepare the matrix: one was the acellular matrix which sterilized with peracetic acid first (0.2% PAA/4% ethanol solution) and then treated with hypertonic saline (group A), the other was 0.05% trypsin/EDTA decellularization after γ irradiation (group B); and the control group was soaked in PBS (Group C). Then physical properties and chemical composition of the three groups were detected. Hematoxylin eosin (HE) staining showed that the acellular effect of group B was good. The porosity of group A and B were both above 84.9%. In group A, the compressive modulus of elasticity was (9.94 ± 3.81) MPa, and the compressive modulus of elasticity was (12.59 ± 5.50) MPa in group B. There was no significant difference between group A or B and group C. The total content of collagen in acellular matrix of group A and B was significantly lower than that of group C (1. 662 ± 0.229) mg/g, but there was no significant difference in the ratio of collagen Ⅰ/Ⅲ between group B and group C. Scanning electron microscopy (SEM) and atomic force microscopy (AFM) showed that there was no significant difference in microstructure. Qualitative detection of fibronectin and elastin in each group was basically consistent with that in group C. Therefore, acellular matrix of group B had better performance as scaffold material. The experimental results show that the acellular matrix prepared by γ-ray sterilization and decellularization of 0.05% Trypsin enzyme/EDTA could be used for the construction of tissue-engineered skin. It could also provide reference for the preparation and mounting of heterogeneous dermal acellular matrix. It was also could be used for electrostatic spinning or three-dimensional printed tissue engineered skin scaffold which could provide physical and chemical parameters for it.
Acellular Dermis ; Cells, Cultured ; Extracellular Matrix ; Porosity ; Tissue Engineering ; Tissue Scaffolds

【Objective】 To evaluate the suitability of current quality standard for end-stage hemolytic rate required by Quality Requirements for Whole Blood and Blood Components in Taiyuan through a 5- year retrospective analysis of leukocyte-reduced RBCs in additive solution in Taiyuan Blood Center. 【Methods】 A total of 240 packs of leukocyte-reduced RBCs in additive solution were collected from January 2007 to December 2021. Hb concentration, hematocrit(Hct) and free Hb in supernatant at end-stage were detected to measure the hemolytic rate. And the hemolytic rate was then compared with the current standard(0.8%) to analyze whether statistical differences existed. 【Results】 The hemolytic rate of leukocyte-reduced RBCs in additive solution were 0.109±0.123 in 2017, 0.113±0.085 in 2018, 0.121±0.076 in 2019, 0.101±0.057 in 2020, and 0.128±0.089 in 2021, with no significant difference among each other (P>0.05). And 97.5% of the products showed an end-stage hemolytic rate below 0.4%, 0.83% among 0.6%~0.7%, and none over the standard of 0.8%. 【Conclusion】 The current national standard for end-stage hemolytic rate of leukocyte-reduced RBCs in additive solution might not be suitable for blood quality control in Taiyuan, and a much stricter criteria should be considered.

Keloids are benign skin tumors resulting from the excessive proliferation of connective tissue in wound skin. Precise prediction of keloid risk in trauma patients and timely early diagnosis are of paramount importance for in-depth keloid management and control of its progression. This study analyzed four keloid datasets in the high-throughput gene expression omnibus (GEO) database, identified diagnostic markers for keloids, and established a nomogram prediction model. Initially, 37 core protein-encoding genes were selected through weighted gene co-expression network analysis (WGCNA), differential expression analysis, and the centrality algorithm of the protein-protein interaction network. Subsequently, two machine learning algorithms including the least absolute shrinkage and selection operator (LASSO) and the support vector machine-recursive feature elimination (SVM-RFE) were used to further screen out four diagnostic markers with the highest predictive power for keloids, which included hepatocyte growth factor (HGF), syndecan-4 (SDC4), ectonucleotide pyrophosphatase/phosphodiesterase 2 (ENPP2), and Rho family guanosine triphophatase 3 (RND3). Potential biological pathways involved were explored through gene set enrichment analysis (GSEA) of single-gene. Finally, univariate and multivariate logistic regression analyses of diagnostic markers were performed, and a nomogram prediction model was constructed. Internal and external validations revealed that the calibration curve of this model closely approximates the ideal curve, the decision curve is superior to other strategies, and the area under the receiver operating characteristic curve is higher than the control model (with optimal cutoff value of 0.588). This indicates that the model possesses high calibration, clinical benefit rate, and predictive power, and is promising to provide effective early means for clinical diagnosis.
Humans ; Keloid/genetics* ; Nomograms ; Algorithms ; Calibration ; Machine Learning

The effect of parasitic ions on the results of ultraviolet A (UVA) cross-linking in iontophoresis was still not clear. In this work, the porcine sclera was cross-linked by riboflavin lactate Ringer's solution (group A) and riboflavin normal saline (group B)
Animals ; Collagen ; Cross-Linking Reagents ; Ions ; Iontophoresis ; Permeability ; Photosensitizing Agents/pharmacology* ; Riboflavin ; Sclera ; Swine ; Ultraviolet Rays

Study of the mechanical properties of in vivo corneal materials is an important basis for further study of corneal physiological and pathological phenomena by means of finite element method. In this paper, the elastic coefficient ( ) and viscous coefficient ( ) of normal cornea and keratoconus under pulse pressure are calculated by using standard linear solid model with the data provided by corneal visualization scheimpflug technology. The results showed that there was a significant difference of and between normal cornea and keratoconus cornea ( < 0.05). Receiver operating characteristic curve analysis showed that the area under curve (AUC) for , and their combined indicators were 0.776, 0.895 and 0.948, respectively, which indicated that keratoconus could be predicted by and . The results of this study may provide a reference for the early diagnosis of keratoconus and avoid the occurrence of keratoconus after operation, so it has a certain clinical value.
Area Under Curve ; Cornea ; physiology ; Elasticity ; Humans ; Keratoconus ; pathology ; ROC Curve ; Viscosity

The decrease of corneal stiffness is the key factor leading to keratoconus, and the corneal collagen fiber stiffness and fiber dispersion are closely related to the corneal biomechanical properties. In this paper, a finite element model of human cornea based on corneal microstructure, namely collagen fiber, was established before and after laser assisted in situ keratomileusis (LASIK). By simulating the Corvis ST process and comparing with the actual clinical results, the hyperelastic constitutive parameters and corneal collagen fiber stiffness modulus of the corneal material were determined before and after refractive surgery. After LASIK, the corneal collagen fiber stiffness modulus increased significantly, and was highly correlated with central corneal thickness (CCT). The predictive relationship between the corneal collagen fiber stiffness modulus and the corresponding CCT before and after surgery was: = exp(9.14 - 0.009CCT ), = exp(8.82 - 0.008CCT ). According to the results of this study, the central corneal thickness of the patient can be used to estimate the preoperative and postoperative collagen fiber stiffness modulus, and then a personalized corneal model that is more consistent with the actual situation of the patient can be established, providing a theoretical reference for more accurately predicting the safe surgical cutting amount of the cornea.
Biomechanical Phenomena ; Cornea ; Corneal Topography ; Finite Element Analysis ; Humans ; Keratomileusis, Laser In Situ ; Myopia