Novel insights into necrozoospermia from a single-center study: reference ranges, possible etiology, and impact on male fertility.

ABSTARCT: Necrozoospermia is a poorly documented condition with a low incidence, and its definition and clinical significance are unclear. Herein, we provide a reference range for necrozoospermia and discuss its possible etiology and impact on male fertility and assisted reproductive outcomes. We extracted relevant information from 650 Chinese male partners of infertile couples and statistically analyzed sperm vitality. Necrozoospermia was present in 3.4% (22/650) of our study population, and the lower cut-off value for sperm vitality was 75.3%. We compared two methods for assessing sperm vitality (eosin-nigrosin head staining and hypo-osmotic swelling test [HOST]), for which the percentage in the eosin-nigrosin group (mean ± standard deviation [s.d.]: 77.5% ± 10.5%) was significantly higher than that in the HOST group (mean ± s.d.: 58.1% ± 6.7% [5-10 min after incubation] and 55.6% ± 8.2% [25-30 min after incubation]; both P < 0.001). The incidence of necrozoospermia increased with age (odds ratio [OR] = 1.116, 95% confidence interval [CI]: 1.048-1.189, P = 0.001), while the percentage of normal sperm morphology and DNA fragmentation index (DFI) were significantly associated with necrozoospermia, with ORs of 0.691 (95% CI: 0.511-0.935, P = 0.017) and 1.281 (95% CI: 1.180-1.390, P < 0.001), respectively. In the following 6 months, we recruited 166 patients in the nonnecrozoospermia group and 87 patients in the necrozoospermia group to compare intracytoplasmic sperm injection (ICSI) and pregnancy outcomes between the two groups. The necrozoospermia group had a significantly lower normal fertilization rate (74.7% vs 78.2%, P = 0.041; OR = 0.822; 95% CI: 0.682-0.992) than that in the nonnecrozoospermia group. This study presents substantial information on necrozoospermia to establish comprehensive and applicable reference values for sperm vitality for spontaneous conception and artificially assisted reproductive management.

Effective Low-Powered Photocatalytic Disinfection via Synchronous Introduction of Oxygen Dopants and Carbon Defects in Carbon Nitride.

Establishing an effective metal-free photocatalyst for sustainable applications remains a huge challenge. Herein, we developed ultrathin oxygen-doped g-C3N4 nanosheets with carbon defects (OCvN) photocatalyst via a facile gas bubble template-assisted thermal copolymerization method. A series of OCvN with different dopant amounts ranging from 0 to 10% were synthesized and used as photocatalysts under illumination of low-power (2 × 18 W, 0.18 mW/cm2) and commercially available energy-saving light bulbs. Upon testing for photocatalytic Escherichia coli inactivation, the best-performing sample, OCvN-3, demonstrated an astonishing disinfection activity of over 7-log reduction after 3 h of illumination, boasting an 18-fold improvement in its antibacterial activity compared to that of pristine g-C3N4. The enhanced performance was attributed to the synergistic effects of increased surface area, extended visible light harvesting, improved electronic conductivity, and ultralow resistance to charge transfer. This study successfully introduced a green photocatalyst that demonstrates the most effective disinfection performance ever recorded among metal-free g-C3N4 materials. Its disinfection capabilities are comparable to those of metal-based photocatalysts when they are exposed to low-power light.

Bioinspired and self-restorable alginate-tyramine hydrogels with plasma reinforcement for arthritis treatment.

Long-standing administration of disease-modifying antirheumatic drugs confirms their clinical value for managing rheumatoid arthritis (RA). Nevertheless, there are emergent worries over unwanted adverse risks of systemic drug administration. Hence, a novel strategy that can be used in a drug-free manner while diminishing side effects is immediately needed, but challenges persist in the therapy for RA. To this end, herein we conjugated tyramine (TYR) with alginate (ALG) to form ALG-TYR and then treated it for 5 min with oxygen plasma (ALG-TYR + P/5 min). It was shown that the ALG-TYR + P/5 min hydrogel exhibited favorable viscoelastic, morphological, mechanical, biocompatible, and cellular heat-shock protein amplification behaviors. A thorough physical and structural analysis was conducted on the ALG-TYR + P/5 min hydrogel, revealing favorable physical characteristics and uniform porous structural features within the hydrogel. Moreover, ALG-TYR + P/5 min not only effectively inhibited inflammation of RA but also potentially regulated lesion immunity. Once ALG-TYR + P/5 min was intra-articularly administered to joints of rats with zymosan-induced arthritis, we observed that ALG-TYR + P/5 min could ameliorate syndromes of RA joint. This bioinspired and self-restorable ALG-TYR + P/5 min hydrogel can thus serve as a promising system to provide prospective outcomes to potentiate RA therapy.

Structure-based design of novel heterocycle-substituted ATDP analogs as non-nucleoside reverse transcriptase inhibitors with improved selectivity and solubility

Following on our recently developed biphenyl-ATDP non-nucleoside reverse transcriptase inhibitor ZLM-66 (SI = 2019.80, S = 1.9 μg/mL), a series of novel heterocycle-substituted ATDP derivatives with significantly improved selectivity and solubility were identified by replacement of the biphenyl moiety of ZLM-66 with heterocyclic group with lower lipophilicity. Evidently, the representative analog 7w in this series exhibited dramatically enhanced selectivity and solubility (SI = 12,497.73, S = 4472 μg/mL) in comparison with ZLM-66 (SI = 2019.80, S = 1.9 μg/mL). This new NNRTI conferred low nanomolar inhibition of wild-type HIV-1 strain and tested mutant strains (K103N, L100I, Y181C, E138K, and K103N + Y181C). The analog also demonstrated favorable safety and pharmacokinetic profiles, as evidenced by its insensitivity to CYP and hERG, lack of mortality and pathological damage, and good oral bioavailability in rats (F = 27.1%). Further development of 7w for HIV therapy will be facilitated by this valuable information.

Picomolar inhibitor of reverse transcriptase featuring significantly improved metabolic stability

Considering the undesirable metabolic stability of our recently identified NNRTI 5 (t1/2 = 96 min) in human liver microsomes, we directed our efforts to improve its metabolic stability by introducing a new favorable hydroxymethyl side chain to the C-5 position of pyrimidine. This strategy provided a series of novel methylol-biphenyl-diarylpyrimidines with excellent anti-HIV-1 activity. The best compound 9g was endowed with remarkably improved metabolic stability in human liver microsomes (t1/2 = 2754 min), which was about 29-fold longer than that of 5 (t1/2 = 96 min). This compound conferred picomolar inhibition of WT HIV-1 (EC50 = 0.9 nmol/L) and low nanomolar activity against five clinically drug-resistant mutant strains. It maintained particularly low cytotoxicity (CC50 = 264 μmol/L) and good selectivity (SI = 256,438). Molecular docking studies revealed that compound 9g exhibited a more stable conformation than 5 due to the newly constructed hydrogen bond of the hydroxymethyl group with E138. Also, compound 9g was characterized by good safety profiles. It displayed no apparent inhibition of CYP enzymes and hERG. The acute toxicity assay did not cause death and pathological damage in mice at a single dose of 2 g/kg. These findings paved the way for the discovery and development of new-generation anti-HIV-1 drugs.

The role of inflammation in heart failure with preserved ejection fraction / 生理学报

Heart failure with preserved ejection fraction (HFpEF) is a type of heart failure characterized by left ventricular diastolic dysfunction with preserved ejection fraction. With the aging of the population and the increasing prevalence of metabolic diseases, such as hypertension, obesity and diabetes, the prevalence of HFpEF is increasing. Compared with heart failure with reduced ejection fraction (HFrEF), conventional anti-heart failure drugs failed to reduce the mortality in HFpEF due to the complex pathophysiological mechanism and multiple comorbidities of HFpEF. It is known that the main changes of cardiac structure of in HFpEF are cardiac hypertrophy, myocardial fibrosis and left ventricular hypertrophy, and HFpEF is commonly associated with obesity, diabetes, hypertension, renal dysfunction and other diseases, but how these comorbidities cause structural and functional damage to the heart is not completely clear. Recent studies have shown that immune inflammatory response plays a vital role in the progression of HFpEF. This review focuses on the latest research progress in the role of inflammation in the process of HFpEF and the potential application of anti-inflammatory therapy in HFpEF, hoping to provide new research ideas and theoretical basis for the clinical prevention and treatment in HFpEF.

Uncovering the multifaceted roles of nitrogen defects in graphitic carbon nitride for selective photocatalytic carbon dioxide reduction: a density functional theory study.

Surface defect engineering on the nanoscale has attracted extensive research attention lately; however, its role in modulating the properties and catalytic performance of a semiconducting material has not been comprehensively covered. Here, we systematically unraveled the effect of defect engineering towards textural, electronic and optical properties of graphitic carbon nitride (g-C3N4), as well as its photocatalytic mechanism of CO2 reduction using first-principle calculations by density functional theory through the introduction of various defect sites. Among the five unique atoms in g-C3N4, the vacancy site was found to be the most feasible at the two-coordinated nitrogen, N2. By initiating N2 point defects, an asymmetric electron density distribution was engendered around the vacancy region, which resulted in an evolution of semiconducting properties. We also discovered an improved charge separation efficiency and CO2 adsorption affinity in g-C3N4, which rendered a more thermodynamically feasible pathway for CO2 reduction to CO, CH3OH and CH4 fuels. This theoretical finding is hoped to shed light on the importance of the defect engineering strategy towards photocatalytic enhancement in g-C3N4.

Charge Modulation at Atomic-Level through Substitutional Sulfur Doping into Atomically Thin Bi2 WO6 toward Promoting Photocatalytic CO2 Reduction.

Photocatalytic reduction of CO2 has attracted enormous interest as a sustainable and renewable source of energy. In the past decade, numerous bulk-type semiconductors have been developed, but the existing designs suffer many limitations, namely rapid recombination of charge carriers and weak light absorption ability. Herein, a bottom-up approach was developed to design atomically thin sulfur-doped Bi2 WO6 perovskite nanosheets (S-BWO) with improved reduction ability, extended visible light absorption, prolonged lifetime of charge carriers, enhanced adsorption of CO2 , and reduced work function. Compared with pristine Bi2 WO6 (P-BWO), S-BWO nanosheets exhibited a 3-fold improvement in photocatalytic reduction of CO2 under simulated sunlight irradiation. Experimental studies and density functional theory calculations revealed the synergistic roles of atomically thin nanosheets and S atoms in promoting photocatalytic efficiency.

Calcium peroxide aids tyramine-alginate gel to crosslink with tyrosinase for efficient cartilage repair.

The innate cartilage extracellular matrix is avascular and plays a vital role in innate chondrocytes. Recapping the crucial components of the extracellular matrix in engineered organs via polymeric gels and bioinspired approaches is promising for improving the regenerative aptitude of encapsulated cartilage/chondrocytes. Conventional gel formation techniques for polymeric materials rely on employing oxidative crosslinking, which is constrained in this avascular environment. Further, poor mechanical properties limit the practical applications of polymeric gels and reduce their therapeutic efficacy. Herein, the purpose of this study was to develop a bioadhesive gel possessing dual crosslinking for engineering cartilage. Tyramine (TYR) was first chemically conjugated to the alginate (ALG) backbone to form an ALG-TYR precursor, followed by the addition of calcium peroxide (CaO2); calcium ions of CaO2 physically crosslink with ALG, and oxygen atoms of CaO2 chemically crosslink TYR with tyrosinase, thus enabling dual/enhanced crosslinking and possessing injectability. The ALG-TYR/tyrosinase/CaO2 gel system was chemically, mechanically, cellularly, and microscopically characterized. The gel system developed herein was biocompatible and showed augmented mechanical strength. The results showed, for the first time, that CaO2 supplementation preserved cell viability and enhanced the crosslinking ability, bioadhesion, mechanical strength, chondrogenesis, and stability for cartilage regeneration.

Insights from density functional theory calculations on heteroatom P-doped ZnIn2S4 bilayer nanosheets with atomic-level charge steering for photocatalytic water splitting.

ZnIn2S4 (ZIS) is an efficient photocatalyst for solar hydrogen (H2) generation from water splitting owing to its suitable band gap, excellent photocatalytic behaviour and high stability. Nevertheless, modifications are still necessary to further enhance the photocatalytic performance of ZIS for practical applications. This has led to our interest in exploring phosphorus doping on ZIS for photocatalytic water splitting, which has not been studied till date. Herein, phosphorus-doped ZnIn2S4 (P-ZIS) was modelled via Density Functional Theory to investigate the effects of doping phosphorus on the structural and electronics properties of ZIS as well as its performance toward photocatalytic water splitting. This work revealed that the replacement of S3 atom by substitutional phosphorus gave rise to the most stable P-ZIS structure. In addition, P-ZIS was observed to experience a reduction in band gap energy, an upshift of valence band maximum (VBM), an increase in electron density near VBM and a reduction of H* adsorption-desorption barrier, all of which are essential for the enhancement of the hydrogen evolution reaction. In overall, detailed theoretical analysis carried out in this work could provide critical insights towards the development of P-ZIS-based photocatalysts for efficient H2 generation via solar water splitting.

Red Phosphorus: An Up-and-Coming Photocatalyst on the Horizon for Sustainable Energy Development and Environmental Remediation.

Photocatalysis is a perennial solution that promises to resolve deep-rooted challenges related to environmental pollution and energy deficit through harvesting the inexhaustible and renewable solar energy. To date, a cornucopia of photocatalytic materials has been investigated with the research wave presently steered by the development of novel, affordable, and effective metal-free semiconductors with fascinating physicochemical and semiconducting characteristics. Coincidentally, the recently emerged red phosphorus (RP) semiconductor finds itself fitting perfectly into this category ascribed to its earth abundant, low-cost, and metal-free nature. More notably, the renowned red allotrope of the phosphorus family is spectacularly bestowed with strengthened optical absorption features, propitious electronic band configuration, and ease of functionalization and modification as well as high stability. Comprehensively detailing RP's roles and implications in photocatalysis, this review article will first include information on different RP allotropes and their chemical structures, followed by the meticulous scrutiny of their physicochemical and semiconducting properties such as electronic band structure, optical absorption features, and charge carrier dynamics. Besides that, state-of-the-art synthesis strategies for developing various RP allotropes and RP-based photocatalytic systems will also be outlined. In addition, modification or functionalization of RP with other semiconductors for promoting effective photocatalytic applications will be discussed to assess its versatility and feasibility as a high-performing photocatalytic system. Lastly, the challenges facing RP photocatalysts and future research directions will be included to propel the feasible development of RP-based systems with considerably augmented photocatalytic efficiency. This review article aspires to facilitate the rational development of multifunctional RP-based photocatalytic systems by widening the cognizance of rational engineering as well as to fine-tune the electronic, optical, and charge carrier properties of RP.

Epidemiological characteristics and influencing factor of non-occupational carbon monoxide poisoning during 2007—2018 in Shanghai / 环境与职业医学

Background Non-occupational carbon monoxide (CO) poisoning is a public health problem that seriously affect people’s health and lives. Objective To describe the prevalence of non-occupational CO poisoning during 2007—2018 in Shanghai, analyze its epidemiological characteristics and potential influencing factors, and explore effective prevention and control measures. Methods Daily reported non-occupational CO poisoning cases and meteorological factors from 2007 to 2018 were collected in Shanghai, epidemiological characteristics were analyzed by descriptive epidemiology methods, and a distributed lag nonlinear model was used to assess the association between temperature and non-occupational CO poisoning. Results A total of 2264 non-occupational CO poisoning events and 3866 cases from 2007 to 2018 were reported in Shanghai, including 59 death cases. More than half of the poisoning cases were female (56.3%), and young adults accounted for more cases than any other age group (54.8%). The poisoning events mainly occurred in winter (from December to next February); however, cases reported in summer increased in recent years. The peak period of the events was from 20:00 to 24:00. Households (85.2%) and restaurants (8.0%) were the common places of non-occupational CO poisoning events, and the main cause was improper use of gas water heater (36.9%). A nonlinear curve was found between daily average temperature of current day and the occurrence of non-occupational CO poisoning. Temperature was negatively associated with the risk of non-occupational CO poisoning when the temperature was lower than 9.6 ℃, while a positive association was found during 9.7-26.0 ℃. Conclusion Winter is a high season for non-occupational CO poisoning in Shanghai, rising cases reported in summer is also worthy of attention. Supervision should be strengthened to ban sales of unqualified gas water heaters, and health education on CO poisoning prevention and control should be conducted through multiple channels, in order to reduce the incidence of CO poisoning.

Characterization and phylogenetic analysis of the complete chloroplast genome of Lycopus europaeus / 药学学报

We intend to study the structural characteristics of Lycopus europaeus Linn. chloroplast genome and compare the evolutionary relationship of species from Lamiaceae with similar medicinal effects. The total DNA of Lycopus europaeus was sequenced using the Illumina Hiseq 4000 Sequencing platform and was assembled using NOVOplasty software. And then we annotated and analyzed the genome using the CPGAVAS2 online tool. We constructed the phylogenetic tree using the Stellera chamaejasme and Potentilla chinensis as the outgroup. The whole length of Lycopus europaeus chloroplast genome was 152 085 bp. A total of 132 genes were annotated including 88 protein-coding genes, 8 rRNA genes and 36 tRNA genes. Among them, 8 protein-coding genes (ndhB, rps7, rps12, rps19, rpl2, rpl23, ycf2, ycf15), 7 tRNA coding genes (trnM-CAU, trnL CAA, trnN-GUU, trnE-UUC, trnV-GAC, trnA-UGC, trnR-ACG) and 4 rRNA coding genes (rrn16s, rrn23s, rrn4.5s, rrn5s) are located in the IR region. There are 13 protein coding genes [rps16, rps19 (×2), atpF, rpoC1, rpl2 (×2), petB, petD, rpl16, ndhB (×2), ndhA] each contains one intron, two protein-coding genes (ycf3, clpP) each contain two introns, and 8 tRNA coding genes each contain one intron. A total of 34 SSRs were detected in the chloroplast genome of Lycopus europaeus. Phylogenetic analysis revealed that two species in the Lycopus genus, four species in the Dracocephalum genus, Glechoma longituba, two species in the Mentha genus and Prunella vulgari, in total 10 species are most related. The complete genome sequence of Lycopus europaeus was obtained and analyzed, which clarified the evolutional relationship between the species of Lycopus europaeus and in the Lamiaceae family.

Cardiac Protection Mechanism and Clinical Application of Dexmedetomidine / 中国医学科学院学报

Dexmedetomidine is an α2 adrenoceptor agonist and has cardioprotective effect,the mechanism of which is being studied.Increasing studies have proved the clinical value of dexmedetomidine in reducing postoperative complications and improving the prognosis of patients.Therefore,this review summarizes the cardiac protection mechanism of dexmedetomidine based on the existing studies and expounds the application of dexmedetomidine in the perioperative period of cardiovascular surgery.

Mediating effect of psychological resilience between perceived organizational support and presenteeism among medical staff in the prevention and control of COVID-19 / 中国职业医学

@#Objective （ ） To explore the influence of perceived organizational support POS and psychological resilience on （ - ）Methods presenteeism behavior in medical staff in the prevention and control of coronavirus disease COVID 19 . Doctors - - and nurses engaged in the front line work of prevention and control in the four designated hospitals for the treatment of COVID ， 19 in Guangdong Province Hunan Province and Jiangsu Province were selected as the research subjects using a random cluster ， - - sampling method. The Survey of Perceived Organizational Support Scale the 10 item Connor Davidson Resilience Scale and - ， Results Standford Presenteeism Scale 6 were used to investigate their POS psychological resilience and presenteeism. The ， （ ），（ ） （ ）， total scores of POS psychological resilience and presenteeism were 44.9±7.6 31.2±5.7 and 18.5±3.7 respectively. （ Both POS and psychological resilience had negative effect on presenteeism standardized regression coefficient were −0.59 ， P ） ［ and −0.38 both <0.01 . Psychological resilience played a partial mediating role between POS and presenteeism 95% （ - ）， ］ Conclusion confidence interval −0.22 −0.09 the mediating effect ratio was 23.4% . Both POS and psychological - ， resilience can directly affect the presenteeism behavior of medical staff in COVID 19 prevention and control and POS can also indirectly affect their presenteeism by affecting psychological resilience.

Mediating effect of psychological resilience between perceived organizational support and presenteeism among medical staff in the prevention and control of COVID-19 / 中国职业医学

@#Objective （ ） To explore the influence of perceived organizational support POS and psychological resilience on （ - ）Methods presenteeism behavior in medical staff in the prevention and control of coronavirus disease COVID 19 . Doctors - - and nurses engaged in the front line work of prevention and control in the four designated hospitals for the treatment of COVID ， 19 in Guangdong Province Hunan Province and Jiangsu Province were selected as the research subjects using a random cluster ， - - sampling method. The Survey of Perceived Organizational Support Scale the 10 item Connor Davidson Resilience Scale and - ， Results Standford Presenteeism Scale 6 were used to investigate their POS psychological resilience and presenteeism. The ， （ ），（ ） （ ）， total scores of POS psychological resilience and presenteeism were 44.9±7.6 31.2±5.7 and 18.5±3.7 respectively. （ Both POS and psychological resilience had negative effect on presenteeism standardized regression coefficient were −0.59 ， P ） ［ and −0.38 both <0.01 . Psychological resilience played a partial mediating role between POS and presenteeism 95% （ - ）， ］ Conclusion confidence interval −0.22 −0.09 the mediating effect ratio was 23.4% . Both POS and psychological - ， resilience can directly affect the presenteeism behavior of medical staff in COVID 19 prevention and control and POS can also indirectly affect their presenteeism by affecting psychological resilience.

Mediating effect of psychological resilience between perceived organizational support and presenteeism among medical staff in the prevention and control of COVID-19 / 中国职业医学

@#Objective （ ） To explore the influence of perceived organizational support POS and psychological resilience on （ - ）Methods presenteeism behavior in medical staff in the prevention and control of coronavirus disease COVID 19 . Doctors - - and nurses engaged in the front line work of prevention and control in the four designated hospitals for the treatment of COVID ， 19 in Guangdong Province Hunan Province and Jiangsu Province were selected as the research subjects using a random cluster ， - - sampling method. The Survey of Perceived Organizational Support Scale the 10 item Connor Davidson Resilience Scale and - ， Results Standford Presenteeism Scale 6 were used to investigate their POS psychological resilience and presenteeism. The ， （ ），（ ） （ ）， total scores of POS psychological resilience and presenteeism were 44.9±7.6 31.2±5.7 and 18.5±3.7 respectively. （ Both POS and psychological resilience had negative effect on presenteeism standardized regression coefficient were −0.59 ， P ） ［ and −0.38 both <0.01 . Psychological resilience played a partial mediating role between POS and presenteeism 95% （ - ）， ］ Conclusion confidence interval −0.22 −0.09 the mediating effect ratio was 23.4% . Both POS and psychological - ， resilience can directly affect the presenteeism behavior of medical staff in COVID 19 prevention and control and POS can also indirectly affect their presenteeism by affecting psychological resilience.

Recent development on COX-2 inhibitors as promising anti-inflammatory agents: The past 10 years

Cyclooxygenases play a vital role in inflammation and are responsible for the production of prostaglandins. Two cyclooxygenases are described, the constitutive cyclooxygenase-1 and the inducible cyclooxygenase-2, for which the target inhibitors are the non-steroidal anti-inflammatory drugs (NSAIDs). Prostaglandins are a class of lipid compounds that mediate acute and chronic inflammation. NSAIDs are the most frequent choices for treatment of inflammation. Nevertheless, currently used anti-inflammatory drugs have become associated with a variety of adverse effects which lead to diminished output even market withdrawal. Recently, more studies have been carried out on searching novel selective COX-2 inhibitors with safety profiles. In this review, we highlight the various structural classes of organic and natural scaffolds with efficient COX-2 inhibitory activity reported during 2011-2021. It will be valuable for pharmaceutical scientists to read up on the current chemicals to pave the way for subsequent research.

Proton-Functionalized Graphitic Carbon Nitride for Efficient Metal-Free Destruction of Escherichia coli under Low-Power Light Irradiation.

Universal access to clean water has been a global ambition over the years. Photocatalytic water disinfection through advanced oxidation processes has been regarded as one of the promising methods for breaking down microbials. The forefront of this research focuses on the application of metal-free photocatalysts for disinfection to prevent secondary pollution. Graphitic carbon nitride (g-C3 N4 ) has achieved instant attention as a metal-free and visible-light-responsive photocatalyst for various energy and environmental applications. However, the photocatalytic efficiency of g-C3 N4 is still affected by its rapid charge recombination and sluggish electron-transfer kinetics. In this contribution, two-dimensionally protonated g-C3 N4 was employed as metal-free photocatalyst for water treatment and demonstrated 100 % of Escherichia coli within 4 h under irradiation with a 23 W light bulb. The introduction of protonation can modulate the surface charge of g-C3 N4 ; this enhances its conductivity and provides a "highway" for the delocalization of electrons. This work highlights the potential of conjugated polymers in antibacterial application.

Research progress on functional assessment and rehabilitation treatment of vascular cognitive impairment / 中国基层医药

Vascular cognitive impairment is a common type of cognitive impairment. At present, there is no targeted treatment, especially for moderate to severe dementia. This review focuses on the early functional evaluation and rehabilitation treatment in patients with vascular cognitive impairment, in order to obtain optimal curative effects and improve the quality of daily living. Neuropsychological test is helpful for early screening of vascular cognitive impairment. Neuropsychological test, together with the results of neuroelectrophysiology and imaging examination as objective evidence, can further predict the disease progress and can be used to guide rehabilitation treatment and curative effect evaluation. Cognitive training, exercise training, non-invasive nerve regulation technology, acupuncture and moxibustion are currently effective rehabilitation treatments. Combined application of various methods has a better improvement effect than monotherapy. Among them, non-invasive nerve regulation technology shows a good application prospect. At present, more high-quality clinical research evidence is needed.