Global trends in publications regarding macrophages-related diabetic foot ulcers in the last two decades

BACKGROUND Diabetic foot ulcers(DFUs)are one of the most severe and popular complications of diabetes.The persistent non-healing of DFUs is the leading cause of amputation,which causes significant mental and financial stress to patients and their families.Macrophages are critical cells in wound healing and perform essential roles in all phases of wound healing.However,no studies have been carried out to systematically illustrate this area from a scientometric point of view.Although there have been some bibliometric studies on diabetes,reports focusing on the investigation of macrophages in DFUs are lacking.AIM To perform a bibliometric analysis to systematically assess the current state of research on macrophage-related DFUs.METHODS The publications of macrophage-related DFUs from January 1,2004,to December 31,2023,were retrieved from the Web of Science Core Collection on January 9,2024.Four different analytical tools:VOSviewer(v1.6.19),CiteSpace(v6.2.R4),HistCite(v12.03.07),and Excel 2021 were used for the scientometric research.RESULTS A total of 330 articles on macrophage-related DFUs were retrieved.The most published countries,institutions,journals,and authors in this field were China,Shanghai Jiao Tong University of China,Wound Repair and Regeneration,and Aristidis Veves.Through the analysis of keyword co-occurrence networks,historical direct citation networks,thematic maps,and trend topics maps,we synthesized the prevailing research hotspots and emerging trends in this field.CONCLUSION Our bibliometric analysis provides a comprehensive overview of macrophage-related DFUs research and insights into promising upcoming research.

Serum albumin as a prognostic predictor reflecting host immunity in patients with non-small cell lung cancer

Objective:Serum albumin(ALB)can transport nutrients to circulating and local immune cells by passing through blood vessels and has attracted attention as a prognostic predictor of non-small cell lung cancer(NSCLC)because it reflects the host immunity from peripheral blood(PBL)to the tumor microenvironment. Methods:Clinical data regarding the PBL and tumor tissues were obtained at The First Hospital of Jilin University between February 2009 and March 2017.We detected indices of glucose and lipid metabolism,classified and counted PBL lymphocytes using flow cy-tometry,determined the tumor-infiltrating lymphocytes by quantitative immunofluorescence,and analyzed the T-cell receptor(TCR)rep-ertoire by high-throughput sequencing of the TCR β-chain.The correlations between ALB and metabolic immune indices were analyzed by t tests and Pearson chi-square test. Results:A total of 211 enrolled NSCLC patients were divided into a relatively high-ALB group(>41.75 g/L,n = 56)and a low-ALB group(≤41.75 g/L,n = 155);patients with high ALB had lower Treg cells(P<0.05)and more CD8+ cytotoxic T cells in the PBL(P<0.01)and a higher proportion of stromal CD8+ tumor-infiltrating lymphocytes(P = 0.047)than patients with low ALB.High ALB was also significantly related to more diversity in the TCR repertoire(P = 0.0021,r2 = 0.5481).Moreover,ALB was identified as an in-dependent prognostic factor based on a multivariate Cox regression analysis(P = 0.032;hazard ratio(HR)= 1.804;95%confidence interval(CI)= 1.035-3.146).The median overall survival in patients with low ALB vs high ALB was 28.2 vs 42.2 months(P=0.0142),respectively.Among patients with nonmetastatic NSCLC(stage Ⅰ-Ⅲ),there was a higher incidence of distant metastasis in the low-ALB group than that in the high-ALB group(41.3%and 22.2%,P=0.043).A low ALB also had a strong association with a higher risk for disease progression(P<0.001)and death(P<0.01;HR = 0.555;95%CI= 0.312-0.988). Conclusions:Albumin could affect the host immunity,and high ALB predicted a reduced risk of distant metastasis and improved the prognosis in NSCLC patients.

Observation of mother-perpetrated infanticide in golden takins(Budorcas taxicolor bedfordi)

DEAR EDITOR,Infanticide by unrelated individuals is widely reported in the animal kingdom;however,little is known about cases perpetrated by a parent,particularly the mother.This article reports on three cases of mother-initiated infanticide in Qinling golden takins(Budorcas taxicolor bedfordi)from video and camera images.Based on previous reports in other animals,we propose that the infanticide events observed in golden takins were related to the parental manipulation mechanism-i.e.

Optical and electrical anisotropy regulation engineering of low-dimensional materials toward polarized detection and imaging applications

Polarized-sensitive image sensors are a kind of photodetector with great development potential due to their enhanced ability to detect and identify the target objects from the aspect of spatial,spectral and polarized information.Recently,low-dimensional anisotropic materials with inherent anisotropic properties,ultrathin thickness,tunable bandgap and feasible integration with complementary metal oxide semiconductor(CMOS)fabrication processes have attracted great interest for their facilitation of polarized photodetector devices miniaturization.Maximizing the polarized detection performance of low-dimensional materials to satisfy realistic needs stimulates the exploration of modulation of anisotropic properties.In this review,we comprehensively introduce the latest research progress in modulating the optical and optoelectronic anisotropy characteristics of low-dimensional materials.The strategy of anisotropy regulation through crystal structure engineering and coupling system is discussed emphatically.Then,the latest progress in image recognition applications using anisotropic low-dimensional materials is reviewed in detail.Finally,we summarize the challenge and propose future opportunities in the practical application of polarized-sensitive imaging photodetectors based on low-dimensional anisotropic materials.

Tailoring the Crystallization Behavior and Mechanical Property of Poly(glycolic acid) by Self-nucleation

Biocompostable poly(glycolic acid)(PGA)crystallizes slowly under fast cooling condition,leading to poor mechanical performance of the final products.In this work,a self-nucleation(SN)route was carried out to promote the crystallization of PGA by regulating only the thermal procedure without any extra nucleating agents.When self-nucleation temperature(Ts)decreased from 250℃ to 227℃,the nuclei density was increased,and the non-isothermal crystallization temperature(Tc)of PGA was increased from 156℃ to 197℃ and the half-life time(t0.5)of isothermal crystallization at 207℃ was decreased by 89%.Consequently,the tensile strength and the elongation at break of the PGA were increased by 12%and 189%,respectively.According to the change of Tc as a function of Ts,a three-stage temperature domain map(Domain I,II and III)was protracted and the viscoelastic behavior of the self-nucleation melt and the homogeneous melt was studied.The results indicated that interaction among PGA chains was remained in Domain IIb,which can act as pre-ordered structure to accelerate the overall crystallization rate.This work utilizes a simple and effective SN method to regulate the crystallization behavior and the mechanical properties of PGA,which may broaden the application range of resulting materials.

Improvement on the Mechanical Performance and Resistance Towards Hydrolysis of Poly(glycolic acid)via Solid-state Drawing

Poly(glycolic acid)is a biocompatible as well as biocomposable polymer with superior mechanical and barrier properties and,consequently,has found important applications in both medical and packaging fields.However,the high hydrolysis rate in a high humidity environment restricts its application.In this work,a solid-state drawing process after melt extrusion is applied in order to produce fibrous PGA with enhanced mechanical properties and a much better resistance towards hydrolysis.The crystal structure of PGA gradually transformed from spherulites into oriented fibrous crystals in the stretching direction upon solid-state drawing.Meanwhile,both the length of microfibril and the size of lamellae increased initially with the drawing ratio(DR),while the chain-folded lamellae transformed into extended-chain fibrils at high(er)DR.The oriented structures lead to an overall improvement of the mechanical properties of PGA,e.g.,the tensile strength increased from 62.0±1.4 MPa to 910±54 MPa and the elongation at break increased from around 7%to 50%.Meanwhile,the heat capacity of totally mobile amorphous PGA(∆C_(p)^(0)=0.64 J·g^(−1)·℃^(−1))was reported for the first time,which was used to analyze the content of mobile amorphous fraction(XMAF)and rigid amorphous fraction(XRAF).Both the oriented chain-folded lamellae crystals and the tightly arranged RAF are beneficial to prevent water molecules from penetrating the matrix,thus improving the resistance towards hydrolysis.As a consequence,the fibrous PGA with a DR of 5 showed a tensile strength retention rate of 17.3%higher in comparison with the undrawn sample after 7-days accelerated hydrolysis.Therefore,this work provides a feasible method to improve the mechanical and resistance towards hydrolysis performance of PGA,which may broaden its application and prolong the shelf-life of PGA products.

Robust Poly(glycolic acid) Films with Crystal Orientation and Reinforcement of Chain Entanglement Network

The inherent brittleness of biodegradable poly(glycolic acid) (PGA) restricts its utilization in the packaging field. Traditional toughening methods usually require additional components accompanied by a sacrifice of strength. In the present work, PGA films with simultaneously enhanced strength and ductility are achieved via “casting-stretching-annealing” technology. The reinforced chain entanglement network of PGA induced by the intense extensional stress and the highly oriented crystals grown and refined during the stretching and annealing process endowed the improved ductility and strength of the PGA films, respectively. The relationships among the stretching process, microstructure and mechanical properties of the PGA films have been systematically investigated. As a result, the PGA film (SA-2) with low stretch ratios exhibits excellent ductility with an increase in elongation at break from 22% to 220% and tensile strength from 56 MPa to 130 MPa. Meanwhile, the PGA film (SA-4) with large stretch ratios features much higher tensile strength (335 MPa) while maintaining good ductility (elongation at break of 66%). In addition, highly oriented crystals result in obvious enhancement of heat resistance and dimensional stability of the PGA films. Therefore, this work provides an effective route to fabricate PGA films with both high strength and ductility which may promote the application of PGA materials.

Rauwolfia vomitoria extract suppresses benign prostatic hyperplasia by reducing expression of androgen receptor and 5a-reductase in a rat model

Objective:Herbal medicine is an important therapeutic option for benign prostatic hyperplasia(BPH),a common disease in older men that can seriously affect their quality of life.Currently,it is crucial to develop agents with strong efficacy and few side effects.Herein we investigated the effects of the extract of Rauwolfia vomitoria,a shrub grown in West Africa,on BPH.Methods:Rats with testosterone-induced BPH were treated with R.vomitoria.Prostates were histologically analyzed by Hematoxylin and eosin staining.Proliferation index and the expression levels of androgen receptor and its associated proteins were quantified through immunohistochemistry and immunoblotting.Androgen receptor target genes were examined by quantitative real-time polymerase chain reaction.The sperm count and body weight of rats were also measured.Results:The oral administration of R.vomitoria extract significantly reduced the prostate weight and prostate weight index in BPH rats,supported by the decreased thickness of the prostate epithelial layer and increased lumen size.Similar effects were observed in the BPH rats treated with the reference drug,finasteride.R.vomitoria extract significantly reduced the testosterone-induced proliferation markers,including proliferating cell nuclear antigen and cyclin D1,in the prostate glands of BPH rats;it also reduced levels of androgen receptor,its associated protein steroid 5 a-reductase 1 and its downstream target genes(FK506-binding protein 5 and matrix metalloproteinase 2).Notably,compared with the finasteride group,R.vomitoria extract did not significantly reduce sperm count.Conclusion:R.vomitoria suppresses testosterone-induced BPH development.Due to its milder side effects,R.vomitoria could be a promising therapeutic agent for BPH.