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In situ tissue engineering utilizes the regenerative potential of the human body to control cell function for tissue regeneration and has shown considerable prospect in urology. However, many problems are still to be understood, especially the interactions between scaffolds and host macrophages at the wound site and how these interactions direct tissue integration and regeneration. This study was designed to evaluate the efficacy of hyaluronic acid (HA) functionalized collagen nanofibers in modulating the pro-healing phenotype expression of macrophages for urethral regeneration. Tubular HA-collagen nanofibers with HA-coating were prepared by coaxial electrospinning. The formation of a thin HA-coating atop each collagen nanofiber endowed its nanofibrous mats with higher anisotropic wettability and mechanical softness. The macrophages growing on the surface of HA-collagen nanofibers showed an elongated shape, while collagen nanofibers’ surface exhibited a pancake shape. Immunofluorescence and ELISA analysis showed that elongation could promote the expression of M2 phenotype marker and reduce the secretion of inflammatory cytokines. In vivo experiments showed that tubular HA-collagen nanofibers significantly facilitate male puppy urethral regeneration after injury. In the regenerated urethra bridged by tubular HA-collagen nanofibers, anti-inflammatory M2 macrophages are recruited to the surface of the scaffold, which can promote angiogenesis and endogenous urothelial progenitor cell proliferation.

Cryptorchidism, characterized by undescended testes, is associated with infertility and increased cancer risk through complex, multifactorial pathophysiological mechanisms involving interconnected alterations in testicular microenvironment, including but not limited to elevated temperature, hormonal dysregulation, altered vascular perfusion, and immune responses. These factors interact synergistically to drive testicular pathology. Using a surgically induced bilateral cryptorchid mouse model established at postnatal day 21 (PND21), we investigated phase-specific pathological mechanisms through analyses at prepubertal (PND35) and sexually mature (PND70) phases. Our transcriptome analysis revealed distinct molecular signatures at different developmental phases, with prepubertal cryptorchid testes showing 2570 differentially expressed genes predominantly enriched in immunoproteasome components and inflammatory pathways, while sexually mature testes exhibited 883 differentially expressed genes primarily related to extracellular matrix (ECM) remodeling and oncogenic pathways. Prepubertal molecular changes indicated immunoproteasome activation and inflammatory responses, whereas mature-phase alterations were characterized by ECM reorganization and fibrotic remodeling. Functional analysis demonstrated prepubertal enrichment in spermatogenesis regulation and interferon responses, while mature-phase signatures were associated with apoptosis, epithelial–mesenchymal transition, and inflammatory signaling cascades. Phase-specific oncogenic pathway correlations revealed distinct mechanisms: metabolic reprogramming and epigenetic regulation in prepubertal testes versus structural remodeling and invasion-related pathways in mature testes. Molecular validation confirmed elevated PI3K-Akt and NF-κB signaling at both developmental phases, identifying these as potential therapeutic targets. This first phase-resolved characterization of cryptorchidism pathology provides insights into developmental phase-specific mechanisms and suggests timing-dependent therapeutic strategies. Although differing from human congenital cryptorchidism in developmental timing and etiology, our surgically induced model recapitulates anatomical testicular malposition with multiple inseparable pathophysiological alterations, and the identified molecular signatures reflect integrated responses to the complex cryptorchid microenvironment.

This paper describes the spectroscopic measurement of arc plasma temperature and the radiation lines of different atoms in an electrical discharge machining (EDM) process under different controlling parameters: discharge current, voltage, and pulse width. The radiation lines of W, Co, and C were calibrated, and the intensities of these radiation lines, which increased with increasing discharge energy, represented the electrode wear and the material removal rate. It was found that the electrode wear and plasma temperature increased seriously with increasing discharge current, but a low electrode wear rate and high machining efficiency were obtained because of the low intensity of the radiation line of Cu and the high intensities of the C and Co lines resulting from increasing impulse width. The plasma temperature was calculated by the line-pair method, and the temperature was in the range of 5132–7758 K, which is higher than the gas/solid transition temperature of diamond at normal pressure and temperature. The results showed that some parts of the diamonds were directly transformed to a gaseous state by the high temperature generated by the discharge in the EDM process; the white layer, which consisted of some metals, covered the surface of the diamond.

This study was designed to investigate the regulatory effect of hyaluronic acid (HA)—coating silk fibroin (SF) nanofibers during epithelialization of urinary tract for urethral regeneration. The obtained electrospun biomimetic tubular HA‐SF nanofiber scaffold is composed of a dense inner layer and a porous outer layer in order to mimic adhesion and cavernous layers of the native tissue, respectively. A thin layer of HA‐gel coating was fixed in the inner wall to provide SF nanofibers with a dense and smooth surface nano‐topography and higher hydrophilicity. Compared with pure SF nanofibers, HA‐SF nanofibers significantly promoted the adhesion, growth, and proliferation of primary urothelial cells, and up‐regulate the expression of uroplakin‐3 (terminal differentiation keratin protein in urothelium). Using the New Zealand male rabbit urethral injury model, the scaffold composed of tubular HA‐SF nanofibers could recruit lumen and myoepithelial cells from the adjacent area of the host, rapidly reconstructing the urothelial barrier in the wound area in order to keep the urinary tract unobstructed, thereby promoting luminal epithelialization, smooth muscle bundle structural remodeling, and capillary formation. Overall, the synergistic effects of nano‐topography and biophysical cues in a biomimetic scaffold design for effective endogenous regeneration.

Circular RNAs (circRNA) have been reported to exert evident functions in many human carcinomas. However, the possible mechanisms concerning the circRNA in various tumors are still elusive. In this research, we analyzed the expression profile and biological functions of circular RNA CDYL (circCDYL, circBase ID: hsa_circ_0008285) in Wilms’ tumor. Here, miRNA and gene expression were examined by real-time PCR in Wilms’ tumor tissues and cell lines. The functions of circCDYL and its potential targets to influence cell proliferation, migration, and invasion in Wilms’ tumor cells were determined by biological functional experiments in vitro and in vivo . We predicted and analyzed potential miRNA targets through online bioinformatic tools. To validate the interactions between circCDYL and its targets, we performed RNA fluorescence in situ hybridization, biotin-coupled miRNA capture assay, and biotin-coupled probe pull-down assay. Tight junction protein l (TJP1) was proved to be the target gene of the predicted miRNA by dual-luciferase reporter assay. The expression level of TJP1 in Wilms’ tumor cells was identified via Western blot. We showed that circCDYL was downregulated in WT tissue compared with adjacent non-tumor tissue. Upregulation of circCDYL could reduce cell proliferation, migration, and invasion. Mechanically, circCDYL, functioning as a miRNA sponge, decreased the expression level of miR-145-5p and TJP1 3′UTR was validated as the target of miR-145-5p, facilitating the circCDYL/miR-145-5p/TJP1 axis. In conclusion, our study suggested circCDYL as a novel biomarker and therapeutic target for WT treatment.

Background Hypospadias is one of the most common congenital diseases of the genitourinary system in children. The European Association of Urology (EAU) Guidelines recommend that children undergoing hypospadias surgery should be between 6 and 18 months. In China, where many children have hypospadias, it remains unknown whether clinical characteristics, socioeconomic factors and COVID-19 were associated with delayed surgery in children with hypospadias. Methods We retrospectively analyzed children with hypospadias who underwent primary surgery at the Department of Pediatric Urology in Guangzhou Women and Children’s Medical Center between January 2010 and October 2021. Patients who had two-stage surgery or a second round of surgery due to complications were excluded to eliminate data duplication. The clinical characteristics and demographic information were collected. We defined delayed surgery as primary surgery performed after 18 months following the EAU Guidelines. Results A total of 4439 children diagnosed with hypospadias were included in the study. The median age (29.1 ± 16.7 months) of surgery for hypospadias in our study was much higher than the recommended age reported in the EAU guidelines, and 76.6% of the children underwent surgery after the age of 18 months. Children without comorbidities including cryptorchidism (odds ratio [OR] = 1.562; 95% confidence interval [CI] 1.199–2.034; p  = 0.001), prostatic cyst (OR = 2.613; 95% CI 1.579–4.324; p  < 0.001), penile hypoplasia (OR = 1.778; 95% CI 1.225–2.580; p  = 0.002), inguinal hernia (OR = 2.070; 95% CI 1.394–3.075; p  < 0.001), and penoscrotal transposition (OR = 4.125; 95% CI 1.250–13.619; p  = 0.020) were more likely to receive delayed surgery. Living in a low economic area (OR = 1.731; 95% CI 1.068–2.806; p  = 0.026) or not close to a main medical center (OR = 1.580; 95% CI 1.370–1.824; p  < 0.001) was highly associated with delayed surgery. The proportion of children undergoing delayed surgery and the median age of surgery during the COVID-19 pandemic were significantly higher than those before the COVID-19 pandemic ( p  = 0.004 and < 0.001, respectively). Conclusions Most children with hypospadias received delayed surgery (surgical age > 18 months). Comorbidities, living in a low economic area, too far from a main medical center and the COVID-19 pandemic were highly associated with delayed surgery. It is vital to improve the public awareness of hypospadias and strengthen the re-education of primary community doctors to reduce delayed surgery.

Food safety is facing great challenges in preventing foodborne diseases caused by pathogenic pollution, especially in resource-limited areas. The rapid detection technique of microorganisms, such as immunological methods and molecular biological methods, plays a crucial key in timely bioanalysis and disease treatment strategies. However, it is difficult for these methods to simultaneously meet the criteria of simple operation, high specificity, and sensitivity, as well as low cost. Coconut water is known as the “water of life” in Hainan. It is a refreshing and nutritious beverage which is widely consumed due to its beneficial properties to health. Coconut water processing is an important pillar industry in Hainan. The detection of pathogenic microorganisms, such as Escherichia coli, in coconut water has become an important factor which has restricted the upgrading and development of this industry. Based on the needs of industrial development, we developed a microbial photoelectric detection system which was composed of a fluorescent probe detection reagent and a photoelectric sensor detection device. This system combined microbial enzyme targets, selective fluorescent substrate metabolism characteristics, and a photoelectric sensor signal transduction mechanism, which produce a strong signal with a high signal-to-noise ratio. The microbial detection system developed here has a simple structure, simple and convenient operation, short detecting time (≥2 h), and high sensitivity (1 CFU/mL). This system may also enable early warning and monitoring programs for other pathogenic microorganisms in order to promote the overall competitiveness of the Hainan coconut water industry.

Coconut water (CW) is a popular and healthful beverage, and ensuring its quality is crucial for consumer satisfaction. This study aimed to explore the potential of near-infrared spectroscopy (NIRS) and chemometric methods for analyzing CW quality and distinguishing samples based on postharvest storage time, cultivar, and maturity. CW from nuts of Wenye No. 2 and Wenye No. 4 cultivars in China, with varying postharvest storage time and maturities, were subjected to NIRS analysis. Partial least squares regression (PLSR) models were developed to predict reducing sugar and soluble sugar contents, revealing moderate applicability but lacking accuracy, with the residual prediction deviation (RPD) values ranging from 1.54 to 1.83. Models for TSS, pH, and TSS/pH exhibited poor performance with RPD values below 1.4, indicating limited predictability. However, the study achieved a total correct classification rate exceeding 95% through orthogonal partial least squares discriminant analysis (OPLS-DA) models, effectively discriminating CW samples based on postharvest storage time, cultivar, and maturity. These findings highlight the potential of NIRS combined with appropriate chemometric methods as a valuable tool for analyzing CW quality and efficiently distinguishing samples. NIRS and chemometric techniques enhance quality control in coconut water, ensuring consumer satisfaction and product integrity.

Accurately measuring the cutting temperature in micro cutting zone is crucial for characterizing and optimizing the cutting status during ultra-precision machining. This work proposes an innovative method for self-sensing of cutting temperature using a locally boron-doped diamond tool. A longitudinal layered deposition synthesis methodology, instead of the traditional growth method under high temperature and high pressure conditions (HTHP), was developed to enable the fabrication of the locally boron-doped diamond tool. The doping contents, lattice integrity, and electrical properties of the diamond were characterized. Owing to the inherently low thermal capacity and quick carrier migration induced by the thin-layer structure for sensing temperature, the diamond tool has the advantages of rapid response and enhanced sensitivity, compared with traditional cutting temperature measurement technologies. An insulated diamond tool edge without boron doping enables to accurately measure cutting temperature for various conductive materials in ultra-precision cutting processes. The locally boron-doped diamond tool was employed for in-process monitoring of the temperature in micro cutting zone during ultra-precision machining processes. The experimental results demonstrated the capabilities of in-process cutting temperature monitoring of conductive materials using the diamond tool, as well as the high-sensitivity identification of micro/nano morphologies and defects on machined surface based on the measured temperature. It provides a potential approach for advanced status analysis and diagnosis in the process of ultra-precision machining.

Di-(2-ethylhexyl) phthalate (DEHP) is a kind of environmental endocrine disruptors (EEDs), which has been confirmed to cause serious consequences, such as cryptorchidism. Patients with unilateral cryptorchidism still had oligospermia or infertility even if they received orchidopexy before puberty. Testicular dysgenesis syndrome (TDS) attributes this kind of problems to the abnormal testicular development during the embryonic period, and considers that the environmental exposure factors during pregnancy play a major role. Therefore, for unilateral cryptorchidism, even if one testicle has dropped to scrotum, it may be exposed to these substances and cause damage. Cystic fibrosis transmembrane conduction regulator (CFTR) is very important for the maturation of male reproductive system. Previously, cryptorchidism was thought to cause abnormal expression of heat sensitive protein CFTR in testis, but the expression of CFTR in healthy side (descended side) testis was not clear. In this study, we established SD rats with unilateral cryptorchidism by exposure to DEHP (500 mg/kg/day) during pregnancy, and detected the expression of CFTR and downstream signal NF-κB/COX-2/PGE2 in bilateral testis. Finally, we found that the expression of CFTR and downstream signal NF-κB/COX-2/PGE2 in the undescended testis was significantly abnormal, but the expression of them in the descended testis was also abnormal to some extent. Therefore, we speculate that in addition to high temperature will affect the expression of CFTR, there may be other factors that cause abnormal expression of CFTR induced by DEHP, and lead to abnormal male reproductive function eventually, but the specific mechanism needs to be further studied.