Although low testosterone levels in men have been associated with high risk for cardiovascular disease, little is known about the association between male sex hormones and subclinical coronary disease in men with appa...Although low testosterone levels in men have been associated with high risk for cardiovascular disease, little is known about the association between male sex hormones and subclinical coronary disease in men with apparently low cardiometabolic risk. This study was performed to investigate the association between male sex hormones and subclinical coronary artery calcification measured as coronary calcium score in non-obese Korean men. We examined the relationship of total testosterone, sex hormone-binding globulin, bioavai lable testosterone and free testosterone with coronary calcium score in 291 non-obese Korean men (mean age: 52.8--- 9.3 years) not having a history of cardiovascular disease. Using multiple linear regression, we evaluated associations between log (sex hormone) levels and log (coronary calcium score) after adjusting for confounding variables in 105 men with some degree of coronary calcification defined as coronary calcium score ~〉 1. In multiple linear regression analysis, bioavailable testosterone was inversely associated with coronary calcium score (P=0.046) after adjusting for age, body mass index, smoking status, alcohol consumption, regular exercise, mean blood pressure, resting heart rate, C-reactive protein, fasting plasma glucose, total cholesterol, triglyceride, high-density lipoprotein (HDL) cholesterol, hypertension medication and hyperlipidernia medication, whereas total testosterone, sex hormone-binding globulin and free testosterone were not (P=0.674, P=O. 121 and P=O. 102, respectively). Our findings indicate that bioavailable testosterone is inversely associated with the degree of subclinical coronary artery calcification in non-obese men.展开更多
Various forms of phosphorus (P) could become bioavailable such as from desorption, dissolution and enzymatic hydrolysis. Potential bioavailable P estimation is critical to minimize eutrophication in freshwater systems...Various forms of phosphorus (P) could become bioavailable such as from desorption, dissolution and enzymatic hydrolysis. Potential bioavailable P estimation is critical to minimize eutrophication in freshwater systems. Thus, this study was conducted to predict potential bioavailable P in the water columns and sediments and their relations with enzymatic hydrolysis, and estimate impacts of land use and anthropogenic activities on P bioavailability, P transport and water quality in the Bronx River, New York, USA. In sediment samples collected in 2006, total P (TP), total inor-ganic P (IP), total organic P (OP) and bioavailable P (BAP) were in highest concentrations in sites located at Bronx River Valley upstream in Westchester (site 2), Troublesome Brook (TB, site 4), Sprain Brook (SB, site 7b) and Bronx River estuary near Sound View Park (site 14) respectively. Also, phosphodiesterase and native phosphatases (PDEase and NPase) hydrolyzed distinguishingly high amounts of OP or enzymatically hydrolysable P (EHP) in samples from sites 4, 7b, 10 (New York Botanical Garden) and 14. Microbial P was in negative values (caused by different bacteria and microorganisms could not be paralyzed by chloroform), and the most negative concentrations were appeared at sties 4 and 14. Spatial comparisons among different locations showed distinguished characteristics in tributaries and estuary. In sediments collected in 2007, TP, BAP and IP were in highest concentrations at sites 7-SB, 11-Bronx Zoo, 12-East Tremont Ave Bridge where fresh and saline water meets, 13-estuary facing Hunts Point Waste Water Treatment Plant (HP WWTP) and 14-estuary along Sound View Park. Besides, PDEase-P highest concentrations ap-peared at sties 7, 13 and 11, NPase-P concentrations were highest at 7 and 11. Microbial P was highest at sties 11 and 14. Spatial variations showed that higher P content and more intense enzymatic hydrolysis in silty clay finer sediments at site 7, 11 and 13. Temporal variations between the two years’ data showed land use and other anthropogenic factors’ impacts on P transport in river and deposit in sediments. Analysis of the river water samples showed that average soluble reactive P (SRP, 67 μg.l-1) in 2006 and SRP (68μg.l-1) in 2007 both were greater than background P concentration in most natural water (42 μg.l-1).展开更多
[Objectives] The research was conducted to study characteristics of bioavailable levels pollution of heavy metals in the surface soil of the lead-zinc mine in Changhua.[Methods] A total of 56 surface samples were coll...[Objectives] The research was conducted to study characteristics of bioavailable levels pollution of heavy metals in the surface soil of the lead-zinc mine in Changhua.[Methods] A total of 56 surface samples were collected from the 3 study zones (peripheral zone, reclamation zone and tailing zone) located at the lead-zine mine in Changhua. Based on total and bioavailable heavy metals (Pb, Zn, Cu and Cd) in soils, the correlation of total content with bioavailable content was analyzed, and their pollution characteristics were assessed by methods of single factor pollution index, Nemerow pollution index, geological accumulation index and potential ecological risk index.[Results] (i) The surface soils were polluted by Pb, Zn, Cu, Cd in different degrees, and the overall trend of the contents of the 4 heavy metals was in order of Cd 〉 Pb 〉 Zn 〉 Cu. The average excess multiple of heavy metals of total and bioavailable content in soils were in the order of peripheral zone 〉 tailing zone 〉 reclaimed zone, and their pollution degrees were tailing zone 〉 peripheral zone 〉 reclaimed zone. (ii) In general, the total and bioavailable contents of Pb, Zn, Cu, Cd showed a significant correlation, but were not correlated in each study zone. (iii) Pollution degrees of the study zones were in the order of tailing zone 〉 peripheral zone 〉 reclamation zone. The pollutions of heavy metals Pb and Cd were more serious, especially Cd reached high levels of pollution degree, and the pollution degrees of Zn, Cu were lighter. Contributors of ecological risk were mainly Cd, Pb and Cu, and the contribution of Cd achieved more than 90 %, making it the main source of pollution.[Conclusions] The results not only revealed the pollution status of heavy metals in the surface soil of the abandoned coal mine, but also could provide scientific guidance for reasonable utilization and ecological recovery of the land.展开更多
BACKGROUND Itraconazole is a broad-spectrum triazole antifungal inhibiting fungal growth by inhibiting ergosterol synthesis and exhibits a nonlinear pharmacokinetic profile.Erratic absorption pattern with wide fluctua...BACKGROUND Itraconazole is a broad-spectrum triazole antifungal inhibiting fungal growth by inhibiting ergosterol synthesis and exhibits a nonlinear pharmacokinetic profile.Erratic absorption pattern with wide fluctuations in blood levels causes inconsistent and unpredictable clinical behaviour of this drug despite its low minimum inhibitory concentration(MIC)as compared to other antifungal agents.AIM To compare the oral bioavailability and bioequivalence of Fixtral SB(supra bioavailable itraconazole)with reference product R2(supra bioavailable 2×50 mg itraconazole).METHODS The study population consisted of 54 healthy volunteers,aged between 18-45 years and randomized to receive a single oral dose of either test[T;Fixtral SB(supra bioavailable itraconazole)100 mg]or reference product(R1;Sporanox 100 mg×2 capsules and R2;Lozanoc capsules 50 mg×2 capsules).Blood samples were taken pre-dose and post-dose up to 96 h.The study evaluated bioequivalence by comparing the oral bioavailability of the test product with reference product R2.The pharmacodynamic characteristics of the drug were evaluated by comparing the test product with reference product R1.Pharmacokinetics(PK)-PD comparative analysis[area under the concentration-time curve(AUC)/minimum inhibitory concentration(MIC)>25]was performed for conventional itraconazole 100 mg and supra bioavailable itraconazole 50 mg.Adverse events(AEs)assessments were performed in each study period and post-study evaluation.RESULTS Statistical analysis of primary PK variables revealed bioequivalence,with confidence intervals being completely inside the acceptance criteria of 80%-125%.The peak concentration levels of itraconazole were achieved at 10 h(T)and 8.5 h(R2),respectively.Pharmacodynamic parameter assessment showed that AUC/MIC for R1 are comparable to Fixtral SB 100mg for MIC levels up to 16mcg/mL(P>0.05 and observed P=0.3196).Six AEs were observed that were mild to moderate in severity and resolved.No severe AE was reported.CONCLUSION Test product itraconazole Capsule 100 mg is bioequivalent with the reference product(R2)at 100 mg dose(2 capsules of Lozanoc®50 mg)under fed conditions.Pharmacodynamics activity in terms of AUC/MIC is comparable between the test product at 100 mg dose and marketed itraconazole 200 mg.Fixtral SB is expected to have therapeutically similar efficacy at half the equivalent dose.Tested formulations were found to be safe and well tolerated.展开更多
Curcumin is a widely studied natural compound which has shown tremendous in vitro therapeutic poten- tial. Despite that, the clinical efficacy of the native curcumin is weak due to its low bioavailability and high met...Curcumin is a widely studied natural compound which has shown tremendous in vitro therapeutic poten- tial. Despite that, the clinical efficacy of the native curcumin is weak due to its low bioavailability and high metabolism in the gastrointestinal tract. During the last decade, researchers have come up with dif- ferent formulations with a focus on improving the bioavailability of curcumin. As a result, a significant number of bioavailable curcumin-based formulations were introduced with the varying range of enhanced bioavailability. The purpose of this review is to collate the published clinical studies of cur- cumin products with.improved bioavailability over conventional (unformulated) curcumin. Based on the literature search, 11 curcumin formulations with available human bioavailability and pharmacokinet- ics data were included in this review. Further, the data on clinical study design, analytical method, phar- macokinetic parameters and other relevant details of each formulation were extracted. Based on a review of these studies, it is evident that better bioavailability of formulated curcumin products is mostly attrib- uted to improved solubility, stability, and possibly low first-pass metabolism. The review hopes to provide a quick reference guide for anyone looking information on these bioavailable curcumin formulations. Based on the published reports, NovaSol (185), CurcuWin (136) and LongVida (100) exhibited over 100-fold higher bioavailability relative to reference unformulated curcumin. Suggested mechanisms accounting for improved bioavailability of the formulations and details on the bioanalysis methods are also discussed.展开更多
The method to remove bioavailable amounts of heavy metals from a contaminated soil by using plants is defined as bioavailable contaminant stripping (BCS) and could safely be applied if the soil's long-term ability ...The method to remove bioavailable amounts of heavy metals from a contaminated soil by using plants is defined as bioavailable contaminant stripping (BCS) and could safely be applied if the soil's long-term ability to replenish the bioavuilable pool is known. The aim of this study was to evaluate the ability of three common plant species selected, Brassica juncea, Poa annua, and Helianthus annus, to remove bioavailable amounts of mercury (Hg) from a contaminated industrial soil containing 15.1 mg kg-1 Hg. Trials were carried out under greenhouse conditions using pots (mesocosms). According to the precautionary principle, we modified the BCS remediation approach by adding a new step, in which mercury bioavailability was increased by the addition of a strong mobilizing agent, ammonium thiosulphate, (NH4)28203, to obtain an estimate of the likely long-term bioavailable Hg pool. The modified BCS remediation approach was called enhanced bioavailable contaminant stripping (EBCS). After one growth cycle, nearly all the bioavailable mercury (95.7%) was removed and the metal remaining in the soil was considered inert since it was neither extractable by (NH4)2S2O3 nor taken up by plants during a second growth cycle. The results demonstrated that EBCS appeared promising since it removed the most dangerous metal forms while substantially shortening the cleanup time.展开更多
The bioavailability of selenium(Se)from ground beef has been previously found in this laboratory to be greater than that of selenite or selenate when fed to female Fischer 344 rats(B. Shi,J.E.Spallholz,J Am Coil Nutr,...The bioavailability of selenium(Se)from ground beef has been previously found in this laboratory to be greater than that of selenite or selenate when fed to female Fischer 344 rats(B. Shi,J.E.Spallholz,J Am Coil Nutr,13:95 ̄101,1994).In the present study we examined the bioavailability of Se from various commercial portions of beef,the liver,striploin,round, shoulder and brisket.All beef was cooked, freeze-dried,finely powdered and mixed with the other dietary ingredients.The experimental diets were fed to the weanling Fischer 344 rats which had been subjected to dietary depletion of Se for 6 weeks.The bioavailability of Se from the beef diets was compared with that of Se as se lenite or L-seienomethionine(SeMet)added to torula-yeast diets.Each experimental diet contained 0'10mg Se/kg.After 8 weeks of dietary Se repletion,relative activity of liver glutathione peroxidase (EC 1.11.1.9;GSHPx) from the different dietary groups colllpared with that of control animals(100%)was(%):selenite 91,SeMet 122 (P<0.05),liver 108, striploin 105,round 106, shoulder 106,brisket 103.Se recovery in liver was generally highest from SeMet>beef muscle=beef liver>selenite.Muscle tissue deposition of Se was highest from SeMet>beef muscle>selenite=beef liver.In addition, the feeal excretion of Se was lowest from the SeMet dietary group and highest from the selenite dietary group.The experimetal results suggest that all cuts of beef appear to be highly bioavailable sources of dietary Se when compared with selenite or L-SeMet.展开更多
Experiments on Phosphorus (P) fraction characteristics in sediment resuspension were performed under adequate hydrodynamic conditions. It is found that the concentration of Suspended Particulate Matter (SPM) in th...Experiments on Phosphorus (P) fraction characteristics in sediment resuspension were performed under adequate hydrodynamic conditions. It is found that the concentration of Suspended Particulate Matter (SPM) in the eddy current region exhibits the "Matthew effect". Velocity is an impact factor of the Equilibrium Phosphate Concentration (EPC), which is related to other hydraulic conditions. Overall bioavailable dissolved P in the SPM causes migration to overlying water and sediment, eventually being converted into a chemical speciation of P. Conditions of resuspension promote A1-P of SPM that migrated to the sediment and water. Concentrations of A1-P in SPM are reduced. P is released from SPM to water bodies, mainly through conversion into particulate P and dissolved total P. Meanwhile, exchange between SPM and sediments occur mainly through Ca-P migration. A1-P and BD-P possess similar geochemical characteristics or source. Ca-P and A1-P exhibit a negative correlation between migration and conversion.展开更多
Epilepsy is a devastating neurological condition that affects over 70 million people worldwide.Apart from idiopathic epilepsy,numerous diseases have been reported to cause secondary epilepsy.Polyphenols,ubiquitously e...Epilepsy is a devastating neurological condition that affects over 70 million people worldwide.Apart from idiopathic epilepsy,numerous diseases have been reported to cause secondary epilepsy.Polyphenols,ubiquitously existing in fruits and vegetables,has become a promising neuroprotective candidate against multiple neurological abnormalities due to its interplay with gut microbiome composed of the bacterial population in gastrointestinal system.This bioactive compound is also being tested for the management of epileptogenesis.However,there is still insufficient evidence from mechanistic studies to demonstrate the causal relationship between anti-epileptic effect of polyphenols and microbial alteration.In this review,we provide the brief overview of epilepsy,polyphenols and gut microbiota.We then analysis the association of polyphenols and gut microbiota particularly in the epilepsy and symptomatic seizures-induced by epilepsy related disorders.We also discuss the possibility for the combined application with probiotics to improve the bioavailability and bioaccessibility of polyphenols for expanding its anti-epileptic function.We finally summarize the therapeutic potential of anti-seizure polyphenols through affecting gut microbiome,and propose that the anti-epileptic effect of polyphenols may be tightly relevant to intestinal bacterial flora for overcoming epilepsy and its comorbidities simultaneously.Therefore,the dietary polyphenols targeting specific bacteria may achieve the outcome of‘one stone,two birds’.展开更多
BACKGROUND The rising global burden of liver diseases,such as non-alcoholic fatty liver disease and liver fibrosis,has necessitated innovative therapeutic approaches.Plant-based therapies,recognized for their anti-inf...BACKGROUND The rising global burden of liver diseases,such as non-alcoholic fatty liver disease and liver fibrosis,has necessitated innovative therapeutic approaches.Plant-based therapies,recognized for their anti-inflammatory and antioxidant properties,have shown promising effects.However,poor bioavailability limits their clinical application.AIM To map global research trends,key contributors,and emerging themes in plant-based therapies combined with advanced drug delivery systems for liver health.METHODS Using the Scopus database,645 documents were retrieved and analyzed using bibliometric tools Biblioshiny and VOSviewer.Analysis focused on publication trends,geographical contributions,and advancements in drug delivery technologies,including nanoparticles,liposomes,and polymeric micelles.Metrics such as publication growth rate,authorship collaboration,and thematic clustering were assessed.RESULTS The dataset spans 43 years(1981-2024),with an annual growth rate of 11.09%in the number of publications.Research output is dominated by China(33%),followed by the United States(24%)and India(18%).Collaborative studies accounted for 24.34%of publications,with an average of 5.81 co-authors per document.Key innovations include nanoparticle encapsulation of curcumin and silymarin,improving bioavailability by up to 85%.Highly cited studies demonstrated the antioxidant,anti-inflammatory,and anti-fibrotic properties of these compounds.For instance,curcumin nanoparticles showed a 70%improvement in solubility,and silymarin liposomal formulations enhanced therapeutic efficiency by 62%.Thematic analysis revealed a transition from basic clinical observations to molecular and pharmacokinetic research,with a focus on oxidative stress mitigation and hepatoprotection.CONCLUSION This study highlights the growing synergy between plant-based therapies and advanced drug delivery systems,with significant contributions from Asian and Western countries.Future efforts should prioritize clinical trials,standardization of plant extract formulations,and interdisciplinary approaches to maximize therapeutic outcomes.The findings provide a foundation for integrating plant-derived compounds into evidence-based hepatological therapies,addressing critical challenges in bioavailability and safety.展开更多
Guava(Psidium guajava L.),a plant belonging to the Myrtaceae family,holds significant medicinal and nutritional values.Leaves of the plant are described to be elliptical with a dark green color and are utilized in the...Guava(Psidium guajava L.),a plant belonging to the Myrtaceae family,holds significant medicinal and nutritional values.Leaves of the plant are described to be elliptical with a dark green color and are utilized in the treatment of gastrointestinal and respiratory issues along with increasing the platelet count in patients suffering from dengue.In this review paper,the nutritional composition and bioactive compounds of guava leaves,including proteins,vitamins,minerals,and polysaccharides,have been reviewed.The methods of extraction of bioactive compounds from guava leaves and their bioactivities,including antioxidant,anti-diabetic,and anti-cancer potential,have been explored.Further,encapsulation techniques for improving the transport of bioactive compounds and living cells into foods have been studied.The application of guava leaves in different food systems such as herbal tea,pork sausage,chocolates,jelly,meals for chickens,functional beverages,and as antibacterial agents in food preservatives has also been investigated.The findings of this review illustrated that the phytochemicals present in guava leaves showed excellent antimicrobial and antioxidant properties.Encapsulation appears to be a promising technique for improving the stability,bioavailability,and controlled release of bioactive chemicals extracted from guava leaves.Different methods for the encapsulation of bioactive compounds employed and applied in distinct food systems showed preservation of phytochemicals,improved bioactivities,and nutritional values.Overall,this review paper demonstrated how guava leaves,an abundant source of bioactive compounds,can be used as a multipurpose component to create functional foods,edible coatings,and active packaging to enhance the nutritional,antioxidant,and antimicrobial properties of various food systems that have qualities that promote health.展开更多
The intricate interplay between natural compounds like curcumin and the gut microbiome has gained significant attention in recent years due to their potential therapeutic implications in various health conditions.Curc...The intricate interplay between natural compounds like curcumin and the gut microbiome has gained significant attention in recent years due to their potential therapeutic implications in various health conditions.Curcumin,a polyphenolic compound derived from turmeric,exhibits diverse pharmacological properties,including anti-inflammatory,antioxidant,and anticancer effects.Understanding how curcumin modulates gut microbiota composition and function is crucial for elucidating its therapeutic mechanisms.This review examines the current literature on the interactions between curcumin and the gut microbiome.A systematic search of relevant databases was conducted to identify studies investigating the effects of curcumin on gut microbial diversity and abundance.Key findings from studies exploring curcumin's efficacy in neurological disorders,gastrointestinal diseases,and metabolic dysfunction are synthesized and discussed.Studies have demonstrated that curcumin supplementation can modulate gut microbiota composition and function,leading to beneficial effects on gut health and homeostasis.Mechanisms underlying curcumin's therapeutic effects include immune modulation,neuroprotection,and inflammation regulation.However,challenges such as poor bioavailability and safety concerns remain significant hurdles to overcome.The interactions between curcumin and the gut microbiome hold promise for therapeutic interventions in a diverse range of health conditions.Further research is needed to optimize curcumin formulations,improve bioavailability,and address safety concerns.展开更多
Propolis is a resinous complex mixture made from plant resins collected by worker bees and mixed with their own secretions.It is rich in polyphenols and flavonoids and thus has a wide range of biological activities an...Propolis is a resinous complex mixture made from plant resins collected by worker bees and mixed with their own secretions.It is rich in polyphenols and flavonoids and thus has a wide range of biological activities and is considered a functional source for promoting human health.However,propolis and its bioactive compounds have poor water solubility,rapid and intense metabolism,and low oral bioavailability,which limits their wide application.In this paper,the main bioactive substances in propolis were summarized,and the biological characteristics and therapeutic potential of propolis and its bioactive substances were discussed.In addition,this paper discussed the factors affecting the bioavailability of propolis and its functional ingredients,focusing on the research progress in improving the bioavailability and bioactivity of propolis and its functional ingredients using nanoencapsulation technology.Finally,the current situation of the global propolis market and the applications of propolis products in the pharmaceutical,food,cosmetic and other industrial fields were discussed,providing useful references for promoting the development of the propolis industry.展开更多
Cadmium(Cd)contamination in soil can lead to food chain accumulation and greatly impacts on human health.Bioremediation has gained more and more attention due to its environment-friendly,high efficiency and low-cost.I...Cadmium(Cd)contamination in soil can lead to food chain accumulation and greatly impacts on human health.Bioremediation has gained more and more attention due to its environment-friendly,high efficiency and low-cost.In this work,we studied the impact of phosphate solubilizing bacterial agent(PSBA)on Cd bioavailability,microbial communities in soil and Cd accumulation in lettuce plants with pot experiment and field trial.Results of pot experiment showed that PSBA could decrease the bioavailability of Cd(Cd-acid extractable from 3.30 to 2.34mg/kg,Cd-reducible from 1.94 to 1.56 mg/kg),promote lettuce plants growth(increased by 33.85%height and by 33.65%fresh weight)and reduce the accumulation of Cd(from 5.85 to 3.73 mg/kg)in lettuce plants.High-throughput sequencing identified that PSBA could change the composition and structure of the soil microbial communities.The relative abundances of the three ecologically beneficial bacterial families of Pseudomonadaceae,Burkholderiaceae,and Enterobacteriaceae increased from 2.29%to 5.13%,0.56%to 5.24%,and 1.87%to 16.93%,respectively.And the former two were positively correlated with redox potential(Eh)(R^(2)=0.474,p<0.05,R^(2)=0.590,p<0.01,respectively).The bacterial networks were more complex in PSBA treatment,reflecting through more links(from 1893 to 2185)and a higher average degree(from 38.242 to 45.052)and density(from 0.390 to 0.469).Results of field trial demonstrated that PSBA could also decrease Cd content in lettuce plants and microbial composition in soil.This study indicated that PSBA could be served as an alternative material in bioremediation of Cd contamination in soil.展开更多
Traditional Chinese medicine(TCM)offers diverse therapeutic compounds but faces challenges like poor bioavailability and instability.Recent innovations in drug delivery systems,including nanotechnology-based drug deli...Traditional Chinese medicine(TCM)offers diverse therapeutic compounds but faces challenges like poor bioavailability and instability.Recent innovations in drug delivery systems,including nanotechnology-based drug delivery systems have shown potential to enhance solubility,stability,and therapeutic efficacy.This review examines these advancements,focusing on their mechanisms and applications in improving TCM formulations.Cutting-edge techniques,such as microneedles,iontophoretic patches,and self-orienting applicators,are also discussed for their potential to revolutionize TCM delivery.By bridging traditional wisdom with modern innovations,this review emphasizes the transformative role of these strategies in advancing TCM's integration into contemporary medicine.展开更多
Algal copper uptake(i.e.,Cu bioavailability)in the euphotic zone plays a vital role in algal photosynthesis and respiration,affecting the primary productivity and the source and sink of atmospheric carbon.Algal Cu upt...Algal copper uptake(i.e.,Cu bioavailability)in the euphotic zone plays a vital role in algal photosynthesis and respiration,affecting the primary productivity and the source and sink of atmospheric carbon.Algal Cu uptake is controlled by natural dissolved organic Cu(DOCu)speciation(i.e.,complexed with the dissolved organic matter)that conventionally could be tested by model prediction or molecular-level characterizations in the lab,while DOCu uptake are hardly directly assessed.Thus,the new chemistrybiology insight into the mechanisms of the Cu uptake process in algae is urgent.The DOCu speciation transformation(organic DOCu to free Cu(II)ions),enzymatic reduction-induced valence change(reduction of free Cu(II)to Cu(I)ions),and algal Cu uptake at the algae-water interface are imitated.Herein,an intelligent system with DOCu colorimetric sensor is developed for real-time monitoring of newly generated Cu(I)ions.Deep learning with whole sample image-based characterization and powerful feature extraction capabilities facilitates colorimetric measurement.In this context,the Cu bioavailability with 7 kinds of organic ligands(e.g.,amino acids,organic acids,carbohydrates)can be predicted by the mimetic intelligent biosensor within 15.0min,i.e.,the DOCu uptake and speciation is successfully predicted and streamlined by the biomimetic approach.展开更多
Utilizing transporter-mediated drug delivery to achieve effective oral absorption emerges as a promising strategy.Researchers have been concentrated on discovering solutions to the issues of low solubility and poor pe...Utilizing transporter-mediated drug delivery to achieve effective oral absorption emerges as a promising strategy.Researchers have been concentrated on discovering solutions to the issues of low solubility and poor permeability of insoluble drugs,whereas,current reports have revealed that drug transporter proteins are abundantly expressed in the mucosa of intestinal epithelial cells,and that their mediated drug absorption effectively improved the bioavailability of orally administered drugs.There are two main categories based on the transporter mechanism,which include the family of ATP-binding cassette(ABC)transporters with efflux effects that reduce drug bioavailability and the family of solute carriers(SLC)transporters with uptake effects that promote drug absorption,respectively.Thus,we review studies of intestinal transporter-mediated delivery of drugs to enhance oral absorption,including the types of intestinal transporters,distribution characteristics,and strategies for enhancing oral absorption using transporter-mediated drug delivery systems are summarized,with the aim of providing important theoretical references for the development of intestinal-targeted delivery system.展开更多
The study investigated using rice husk biochar(RHB)to immobilize TNT and RDX explosives in soil at demining sites in Amuru District,Uganda.RHB produced via pyrolysis at 550℃was applied at a rate of 5%w/w to soil samp...The study investigated using rice husk biochar(RHB)to immobilize TNT and RDX explosives in soil at demining sites in Amuru District,Uganda.RHB produced via pyrolysis at 550℃was applied at a rate of 5%w/w to soil samples spiked at 50μg·g^(−1)RDX or TNT.The Liquid chromatography-tandem mass spectrometer(LC-MS/MS)analysis showed that the RHB immobilized 56%-67%of RDX and 55%-69%of TNT.The biochar’s porous structure and surface functional groups facilitated the explosive adsorption,reducing bioavailability.This demonstrates RHB’s effectiveness as an environmentally friendly and cost-effective remediation strategy.展开更多
Nano ceria(nano-CeO_(2))has been widely applied in various fields of industry and daily life,however,knowledge regarding the biological effects of nano-CeO_(2)with different intrinsic physicochemical properties remain...Nano ceria(nano-CeO_(2))has been widely applied in various fields of industry and daily life,however,knowledge regarding the biological effects of nano-CeO_(2)with different intrinsic physicochemical properties remains limited.In this study,we investigated the impact of nano-CeO_(2)with different properties on the growth of a typical environmental species(romaine lettuce,Lactuca sativa L.)by exposing the plant to four types of CeO_(2)(rod-like nano-CeO_(2)(RNC),cubic nano-CeO_(2)(CNC),spherical nano-CeO_(2)(SNC)and commercial irregular CeO_(2)(CIC))during the germination stage.The results indicated that different types of CeO_(2)exhibited varying inhibitory effects on plant growth.RNC and SNC significantly inhibited the elongation of roots and shoots,while CNC and CIC did not have a significant impact.We further examined the distribution and biotransformation of the four CeO_(2)in plant tissues using transmission electron microscopy(TEM)and synchrotron X-ray absorption near edge structure(XANES).Specifically,the positively charged RNC and SNC were more readily adsorbed onto the root surface,and needle-like nanoclusters were deposited in the intercellular space inside the roots.The absolute content of Ce(III)in the roots romaine lettuce was in the order of RNC>SNC>>CNC>>CIC.The size and shape(i.e.,exposed crystal surface)of the materials affected their reactivity and dissolution ratios,and zeta potentials affected their bioavailability,both of which influenced the overall contents of Ce^(3+)ions in plant tissues.Thus,these characteristics together led to different biological effects.These findings highlight the importance of considering the intrinsic properties of nano-CeO_(2)when assessing their environmental and biological effects.展开更多
In this paper,the vegetable field in the teaching base of College of Agriculture,Yangtze University was taken as the research object.The indoor simulation method was used to explore the effects of temperature and mois...In this paper,the vegetable field in the teaching base of College of Agriculture,Yangtze University was taken as the research object.The indoor simulation method was used to explore the effects of temperature and moisture on the phosphorus(P)bioavailability of vegetable soil.Three temperature gradients[T1(15℃),T2(25℃),T3(35℃)]and three humidity gradients[W1(40%),W2(70%),W3(100%)]were set in the test.The results showed that it could improve the contents of HCl-P,Enzyme-P,Citrate-P,and Olsen-P in vegetable soil by increasing soil moisture content;temperature rise was helpful to increase the contents of HCl-P and Olsen-P,but it could reduce the content of Citrate-P.The contents of Enzyme-P and CaCl 2-P were significantly affected by hydrothermal interaction.Within a certain range of soil temperature and humidity,temperature and moisture had a positive coupling effect on soil P bioavailability components,and significantly affected soil P supply capacity.展开更多
文摘Although low testosterone levels in men have been associated with high risk for cardiovascular disease, little is known about the association between male sex hormones and subclinical coronary disease in men with apparently low cardiometabolic risk. This study was performed to investigate the association between male sex hormones and subclinical coronary artery calcification measured as coronary calcium score in non-obese Korean men. We examined the relationship of total testosterone, sex hormone-binding globulin, bioavai lable testosterone and free testosterone with coronary calcium score in 291 non-obese Korean men (mean age: 52.8--- 9.3 years) not having a history of cardiovascular disease. Using multiple linear regression, we evaluated associations between log (sex hormone) levels and log (coronary calcium score) after adjusting for confounding variables in 105 men with some degree of coronary calcification defined as coronary calcium score ~〉 1. In multiple linear regression analysis, bioavailable testosterone was inversely associated with coronary calcium score (P=0.046) after adjusting for age, body mass index, smoking status, alcohol consumption, regular exercise, mean blood pressure, resting heart rate, C-reactive protein, fasting plasma glucose, total cholesterol, triglyceride, high-density lipoprotein (HDL) cholesterol, hypertension medication and hyperlipidernia medication, whereas total testosterone, sex hormone-binding globulin and free testosterone were not (P=0.674, P=O. 121 and P=O. 102, respectively). Our findings indicate that bioavailable testosterone is inversely associated with the degree of subclinical coronary artery calcification in non-obese men.
文摘Various forms of phosphorus (P) could become bioavailable such as from desorption, dissolution and enzymatic hydrolysis. Potential bioavailable P estimation is critical to minimize eutrophication in freshwater systems. Thus, this study was conducted to predict potential bioavailable P in the water columns and sediments and their relations with enzymatic hydrolysis, and estimate impacts of land use and anthropogenic activities on P bioavailability, P transport and water quality in the Bronx River, New York, USA. In sediment samples collected in 2006, total P (TP), total inor-ganic P (IP), total organic P (OP) and bioavailable P (BAP) were in highest concentrations in sites located at Bronx River Valley upstream in Westchester (site 2), Troublesome Brook (TB, site 4), Sprain Brook (SB, site 7b) and Bronx River estuary near Sound View Park (site 14) respectively. Also, phosphodiesterase and native phosphatases (PDEase and NPase) hydrolyzed distinguishingly high amounts of OP or enzymatically hydrolysable P (EHP) in samples from sites 4, 7b, 10 (New York Botanical Garden) and 14. Microbial P was in negative values (caused by different bacteria and microorganisms could not be paralyzed by chloroform), and the most negative concentrations were appeared at sties 4 and 14. Spatial comparisons among different locations showed distinguished characteristics in tributaries and estuary. In sediments collected in 2007, TP, BAP and IP were in highest concentrations at sites 7-SB, 11-Bronx Zoo, 12-East Tremont Ave Bridge where fresh and saline water meets, 13-estuary facing Hunts Point Waste Water Treatment Plant (HP WWTP) and 14-estuary along Sound View Park. Besides, PDEase-P highest concentrations ap-peared at sties 7, 13 and 11, NPase-P concentrations were highest at 7 and 11. Microbial P was highest at sties 11 and 14. Spatial variations showed that higher P content and more intense enzymatic hydrolysis in silty clay finer sediments at site 7, 11 and 13. Temporal variations between the two years’ data showed land use and other anthropogenic factors’ impacts on P transport in river and deposit in sediments. Analysis of the river water samples showed that average soluble reactive P (SRP, 67 μg.l-1) in 2006 and SRP (68μg.l-1) in 2007 both were greater than background P concentration in most natural water (42 μg.l-1).
基金Supported by the Natural Science Foundation of Hainan Province(411102)the Scientific Research Innovation Project for College Graduates of Hainan Normal University(Hsyx2015-33)the College Students Science and Technology Innovation Project in Hainan Province(cxcyxj2017016)
文摘[Objectives] The research was conducted to study characteristics of bioavailable levels pollution of heavy metals in the surface soil of the lead-zinc mine in Changhua.[Methods] A total of 56 surface samples were collected from the 3 study zones (peripheral zone, reclamation zone and tailing zone) located at the lead-zine mine in Changhua. Based on total and bioavailable heavy metals (Pb, Zn, Cu and Cd) in soils, the correlation of total content with bioavailable content was analyzed, and their pollution characteristics were assessed by methods of single factor pollution index, Nemerow pollution index, geological accumulation index and potential ecological risk index.[Results] (i) The surface soils were polluted by Pb, Zn, Cu, Cd in different degrees, and the overall trend of the contents of the 4 heavy metals was in order of Cd 〉 Pb 〉 Zn 〉 Cu. The average excess multiple of heavy metals of total and bioavailable content in soils were in the order of peripheral zone 〉 tailing zone 〉 reclaimed zone, and their pollution degrees were tailing zone 〉 peripheral zone 〉 reclaimed zone. (ii) In general, the total and bioavailable contents of Pb, Zn, Cu, Cd showed a significant correlation, but were not correlated in each study zone. (iii) Pollution degrees of the study zones were in the order of tailing zone 〉 peripheral zone 〉 reclamation zone. The pollutions of heavy metals Pb and Cd were more serious, especially Cd reached high levels of pollution degree, and the pollution degrees of Zn, Cu were lighter. Contributors of ecological risk were mainly Cd, Pb and Cu, and the contribution of Cd achieved more than 90 %, making it the main source of pollution.[Conclusions] The results not only revealed the pollution status of heavy metals in the surface soil of the abandoned coal mine, but also could provide scientific guidance for reasonable utilization and ecological recovery of the land.
文摘BACKGROUND Itraconazole is a broad-spectrum triazole antifungal inhibiting fungal growth by inhibiting ergosterol synthesis and exhibits a nonlinear pharmacokinetic profile.Erratic absorption pattern with wide fluctuations in blood levels causes inconsistent and unpredictable clinical behaviour of this drug despite its low minimum inhibitory concentration(MIC)as compared to other antifungal agents.AIM To compare the oral bioavailability and bioequivalence of Fixtral SB(supra bioavailable itraconazole)with reference product R2(supra bioavailable 2×50 mg itraconazole).METHODS The study population consisted of 54 healthy volunteers,aged between 18-45 years and randomized to receive a single oral dose of either test[T;Fixtral SB(supra bioavailable itraconazole)100 mg]or reference product(R1;Sporanox 100 mg×2 capsules and R2;Lozanoc capsules 50 mg×2 capsules).Blood samples were taken pre-dose and post-dose up to 96 h.The study evaluated bioequivalence by comparing the oral bioavailability of the test product with reference product R2.The pharmacodynamic characteristics of the drug were evaluated by comparing the test product with reference product R1.Pharmacokinetics(PK)-PD comparative analysis[area under the concentration-time curve(AUC)/minimum inhibitory concentration(MIC)>25]was performed for conventional itraconazole 100 mg and supra bioavailable itraconazole 50 mg.Adverse events(AEs)assessments were performed in each study period and post-study evaluation.RESULTS Statistical analysis of primary PK variables revealed bioequivalence,with confidence intervals being completely inside the acceptance criteria of 80%-125%.The peak concentration levels of itraconazole were achieved at 10 h(T)and 8.5 h(R2),respectively.Pharmacodynamic parameter assessment showed that AUC/MIC for R1 are comparable to Fixtral SB 100mg for MIC levels up to 16mcg/mL(P>0.05 and observed P=0.3196).Six AEs were observed that were mild to moderate in severity and resolved.No severe AE was reported.CONCLUSION Test product itraconazole Capsule 100 mg is bioequivalent with the reference product(R2)at 100 mg dose(2 capsules of Lozanoc®50 mg)under fed conditions.Pharmacodynamics activity in terms of AUC/MIC is comparable between the test product at 100 mg dose and marketed itraconazole 200 mg.Fixtral SB is expected to have therapeutically similar efficacy at half the equivalent dose.Tested formulations were found to be safe and well tolerated.
文摘Curcumin is a widely studied natural compound which has shown tremendous in vitro therapeutic poten- tial. Despite that, the clinical efficacy of the native curcumin is weak due to its low bioavailability and high metabolism in the gastrointestinal tract. During the last decade, researchers have come up with dif- ferent formulations with a focus on improving the bioavailability of curcumin. As a result, a significant number of bioavailable curcumin-based formulations were introduced with the varying range of enhanced bioavailability. The purpose of this review is to collate the published clinical studies of cur- cumin products with.improved bioavailability over conventional (unformulated) curcumin. Based on the literature search, 11 curcumin formulations with available human bioavailability and pharmacokinet- ics data were included in this review. Further, the data on clinical study design, analytical method, phar- macokinetic parameters and other relevant details of each formulation were extracted. Based on a review of these studies, it is evident that better bioavailability of formulated curcumin products is mostly attrib- uted to improved solubility, stability, and possibly low first-pass metabolism. The review hopes to provide a quick reference guide for anyone looking information on these bioavailable curcumin formulations. Based on the published reports, NovaSol (185), CurcuWin (136) and LongVida (100) exhibited over 100-fold higher bioavailability relative to reference unformulated curcumin. Suggested mechanisms accounting for improved bioavailability of the formulations and details on the bioanalysis methods are also discussed.
基金Supported by the National Council of Research (CNR), Italy
文摘The method to remove bioavailable amounts of heavy metals from a contaminated soil by using plants is defined as bioavailable contaminant stripping (BCS) and could safely be applied if the soil's long-term ability to replenish the bioavuilable pool is known. The aim of this study was to evaluate the ability of three common plant species selected, Brassica juncea, Poa annua, and Helianthus annus, to remove bioavailable amounts of mercury (Hg) from a contaminated industrial soil containing 15.1 mg kg-1 Hg. Trials were carried out under greenhouse conditions using pots (mesocosms). According to the precautionary principle, we modified the BCS remediation approach by adding a new step, in which mercury bioavailability was increased by the addition of a strong mobilizing agent, ammonium thiosulphate, (NH4)28203, to obtain an estimate of the likely long-term bioavailable Hg pool. The modified BCS remediation approach was called enhanced bioavailable contaminant stripping (EBCS). After one growth cycle, nearly all the bioavailable mercury (95.7%) was removed and the metal remaining in the soil was considered inert since it was neither extractable by (NH4)2S2O3 nor taken up by plants during a second growth cycle. The results demonstrated that EBCS appeared promising since it removed the most dangerous metal forms while substantially shortening the cleanup time.
文摘The bioavailability of selenium(Se)from ground beef has been previously found in this laboratory to be greater than that of selenite or selenate when fed to female Fischer 344 rats(B. Shi,J.E.Spallholz,J Am Coil Nutr,13:95 ̄101,1994).In the present study we examined the bioavailability of Se from various commercial portions of beef,the liver,striploin,round, shoulder and brisket.All beef was cooked, freeze-dried,finely powdered and mixed with the other dietary ingredients.The experimental diets were fed to the weanling Fischer 344 rats which had been subjected to dietary depletion of Se for 6 weeks.The bioavailability of Se from the beef diets was compared with that of Se as se lenite or L-seienomethionine(SeMet)added to torula-yeast diets.Each experimental diet contained 0'10mg Se/kg.After 8 weeks of dietary Se repletion,relative activity of liver glutathione peroxidase (EC 1.11.1.9;GSHPx) from the different dietary groups colllpared with that of control animals(100%)was(%):selenite 91,SeMet 122 (P<0.05),liver 108, striploin 105,round 106, shoulder 106,brisket 103.Se recovery in liver was generally highest from SeMet>beef muscle=beef liver>selenite.Muscle tissue deposition of Se was highest from SeMet>beef muscle>selenite=beef liver.In addition, the feeal excretion of Se was lowest from the SeMet dietary group and highest from the selenite dietary group.The experimetal results suggest that all cuts of beef appear to be highly bioavailable sources of dietary Se when compared with selenite or L-SeMet.
基金supported by the National Basic Research Program of China (973 Program,Grant No.2008CB418203)the National Science and Technology Specific Project of China (Grant No.20080ZX07422-005)
文摘Experiments on Phosphorus (P) fraction characteristics in sediment resuspension were performed under adequate hydrodynamic conditions. It is found that the concentration of Suspended Particulate Matter (SPM) in the eddy current region exhibits the "Matthew effect". Velocity is an impact factor of the Equilibrium Phosphate Concentration (EPC), which is related to other hydraulic conditions. Overall bioavailable dissolved P in the SPM causes migration to overlying water and sediment, eventually being converted into a chemical speciation of P. Conditions of resuspension promote A1-P of SPM that migrated to the sediment and water. Concentrations of A1-P in SPM are reduced. P is released from SPM to water bodies, mainly through conversion into particulate P and dissolved total P. Meanwhile, exchange between SPM and sediments occur mainly through Ca-P migration. A1-P and BD-P possess similar geochemical characteristics or source. Ca-P and A1-P exhibit a negative correlation between migration and conversion.
基金supported by the National Natural Science Foundation Committee of China(81971212,81601129)Shenyang Young and Middle-aged Technological Innovation Talent Support Program(RC210268)Liaoning Province Natural Science Foundation(2023-MS-153).
文摘Epilepsy is a devastating neurological condition that affects over 70 million people worldwide.Apart from idiopathic epilepsy,numerous diseases have been reported to cause secondary epilepsy.Polyphenols,ubiquitously existing in fruits and vegetables,has become a promising neuroprotective candidate against multiple neurological abnormalities due to its interplay with gut microbiome composed of the bacterial population in gastrointestinal system.This bioactive compound is also being tested for the management of epileptogenesis.However,there is still insufficient evidence from mechanistic studies to demonstrate the causal relationship between anti-epileptic effect of polyphenols and microbial alteration.In this review,we provide the brief overview of epilepsy,polyphenols and gut microbiota.We then analysis the association of polyphenols and gut microbiota particularly in the epilepsy and symptomatic seizures-induced by epilepsy related disorders.We also discuss the possibility for the combined application with probiotics to improve the bioavailability and bioaccessibility of polyphenols for expanding its anti-epileptic function.We finally summarize the therapeutic potential of anti-seizure polyphenols through affecting gut microbiome,and propose that the anti-epileptic effect of polyphenols may be tightly relevant to intestinal bacterial flora for overcoming epilepsy and its comorbidities simultaneously.Therefore,the dietary polyphenols targeting specific bacteria may achieve the outcome of‘one stone,two birds’.
文摘BACKGROUND The rising global burden of liver diseases,such as non-alcoholic fatty liver disease and liver fibrosis,has necessitated innovative therapeutic approaches.Plant-based therapies,recognized for their anti-inflammatory and antioxidant properties,have shown promising effects.However,poor bioavailability limits their clinical application.AIM To map global research trends,key contributors,and emerging themes in plant-based therapies combined with advanced drug delivery systems for liver health.METHODS Using the Scopus database,645 documents were retrieved and analyzed using bibliometric tools Biblioshiny and VOSviewer.Analysis focused on publication trends,geographical contributions,and advancements in drug delivery technologies,including nanoparticles,liposomes,and polymeric micelles.Metrics such as publication growth rate,authorship collaboration,and thematic clustering were assessed.RESULTS The dataset spans 43 years(1981-2024),with an annual growth rate of 11.09%in the number of publications.Research output is dominated by China(33%),followed by the United States(24%)and India(18%).Collaborative studies accounted for 24.34%of publications,with an average of 5.81 co-authors per document.Key innovations include nanoparticle encapsulation of curcumin and silymarin,improving bioavailability by up to 85%.Highly cited studies demonstrated the antioxidant,anti-inflammatory,and anti-fibrotic properties of these compounds.For instance,curcumin nanoparticles showed a 70%improvement in solubility,and silymarin liposomal formulations enhanced therapeutic efficiency by 62%.Thematic analysis revealed a transition from basic clinical observations to molecular and pharmacokinetic research,with a focus on oxidative stress mitigation and hepatoprotection.CONCLUSION This study highlights the growing synergy between plant-based therapies and advanced drug delivery systems,with significant contributions from Asian and Western countries.Future efforts should prioritize clinical trials,standardization of plant extract formulations,and interdisciplinary approaches to maximize therapeutic outcomes.The findings provide a foundation for integrating plant-derived compounds into evidence-based hepatological therapies,addressing critical challenges in bioavailability and safety.
文摘Guava(Psidium guajava L.),a plant belonging to the Myrtaceae family,holds significant medicinal and nutritional values.Leaves of the plant are described to be elliptical with a dark green color and are utilized in the treatment of gastrointestinal and respiratory issues along with increasing the platelet count in patients suffering from dengue.In this review paper,the nutritional composition and bioactive compounds of guava leaves,including proteins,vitamins,minerals,and polysaccharides,have been reviewed.The methods of extraction of bioactive compounds from guava leaves and their bioactivities,including antioxidant,anti-diabetic,and anti-cancer potential,have been explored.Further,encapsulation techniques for improving the transport of bioactive compounds and living cells into foods have been studied.The application of guava leaves in different food systems such as herbal tea,pork sausage,chocolates,jelly,meals for chickens,functional beverages,and as antibacterial agents in food preservatives has also been investigated.The findings of this review illustrated that the phytochemicals present in guava leaves showed excellent antimicrobial and antioxidant properties.Encapsulation appears to be a promising technique for improving the stability,bioavailability,and controlled release of bioactive chemicals extracted from guava leaves.Different methods for the encapsulation of bioactive compounds employed and applied in distinct food systems showed preservation of phytochemicals,improved bioactivities,and nutritional values.Overall,this review paper demonstrated how guava leaves,an abundant source of bioactive compounds,can be used as a multipurpose component to create functional foods,edible coatings,and active packaging to enhance the nutritional,antioxidant,and antimicrobial properties of various food systems that have qualities that promote health.
文摘The intricate interplay between natural compounds like curcumin and the gut microbiome has gained significant attention in recent years due to their potential therapeutic implications in various health conditions.Curcumin,a polyphenolic compound derived from turmeric,exhibits diverse pharmacological properties,including anti-inflammatory,antioxidant,and anticancer effects.Understanding how curcumin modulates gut microbiota composition and function is crucial for elucidating its therapeutic mechanisms.This review examines the current literature on the interactions between curcumin and the gut microbiome.A systematic search of relevant databases was conducted to identify studies investigating the effects of curcumin on gut microbial diversity and abundance.Key findings from studies exploring curcumin's efficacy in neurological disorders,gastrointestinal diseases,and metabolic dysfunction are synthesized and discussed.Studies have demonstrated that curcumin supplementation can modulate gut microbiota composition and function,leading to beneficial effects on gut health and homeostasis.Mechanisms underlying curcumin's therapeutic effects include immune modulation,neuroprotection,and inflammation regulation.However,challenges such as poor bioavailability and safety concerns remain significant hurdles to overcome.The interactions between curcumin and the gut microbiome hold promise for therapeutic interventions in a diverse range of health conditions.Further research is needed to optimize curcumin formulations,improve bioavailability,and address safety concerns.
基金supported by the National Natural Science Foundation of China(31972087)the earmarked fund for China Agriculture Research System-Bee(CARS-44-KXJ17)the Science and Technology Innovation Project of Chinese Academy of Agricultural Sciences(CAAS-ASTIP-2021-IAR)。
文摘Propolis is a resinous complex mixture made from plant resins collected by worker bees and mixed with their own secretions.It is rich in polyphenols and flavonoids and thus has a wide range of biological activities and is considered a functional source for promoting human health.However,propolis and its bioactive compounds have poor water solubility,rapid and intense metabolism,and low oral bioavailability,which limits their wide application.In this paper,the main bioactive substances in propolis were summarized,and the biological characteristics and therapeutic potential of propolis and its bioactive substances were discussed.In addition,this paper discussed the factors affecting the bioavailability of propolis and its functional ingredients,focusing on the research progress in improving the bioavailability and bioactivity of propolis and its functional ingredients using nanoencapsulation technology.Finally,the current situation of the global propolis market and the applications of propolis products in the pharmaceutical,food,cosmetic and other industrial fields were discussed,providing useful references for promoting the development of the propolis industry.
基金supported by the Science and Technology Programs of Department of Natural Resources of Zhejiang Province,China(No.2020006)the Zhejiang Provincial Natural Science Foundation of China(No.LGF22D030001)the Key R&D Program of Zhejiang Province,China(No.2021C04020)。
文摘Cadmium(Cd)contamination in soil can lead to food chain accumulation and greatly impacts on human health.Bioremediation has gained more and more attention due to its environment-friendly,high efficiency and low-cost.In this work,we studied the impact of phosphate solubilizing bacterial agent(PSBA)on Cd bioavailability,microbial communities in soil and Cd accumulation in lettuce plants with pot experiment and field trial.Results of pot experiment showed that PSBA could decrease the bioavailability of Cd(Cd-acid extractable from 3.30 to 2.34mg/kg,Cd-reducible from 1.94 to 1.56 mg/kg),promote lettuce plants growth(increased by 33.85%height and by 33.65%fresh weight)and reduce the accumulation of Cd(from 5.85 to 3.73 mg/kg)in lettuce plants.High-throughput sequencing identified that PSBA could change the composition and structure of the soil microbial communities.The relative abundances of the three ecologically beneficial bacterial families of Pseudomonadaceae,Burkholderiaceae,and Enterobacteriaceae increased from 2.29%to 5.13%,0.56%to 5.24%,and 1.87%to 16.93%,respectively.And the former two were positively correlated with redox potential(Eh)(R^(2)=0.474,p<0.05,R^(2)=0.590,p<0.01,respectively).The bacterial networks were more complex in PSBA treatment,reflecting through more links(from 1893 to 2185)and a higher average degree(from 38.242 to 45.052)and density(from 0.390 to 0.469).Results of field trial demonstrated that PSBA could also decrease Cd content in lettuce plants and microbial composition in soil.This study indicated that PSBA could be served as an alternative material in bioremediation of Cd contamination in soil.
文摘Traditional Chinese medicine(TCM)offers diverse therapeutic compounds but faces challenges like poor bioavailability and instability.Recent innovations in drug delivery systems,including nanotechnology-based drug delivery systems have shown potential to enhance solubility,stability,and therapeutic efficacy.This review examines these advancements,focusing on their mechanisms and applications in improving TCM formulations.Cutting-edge techniques,such as microneedles,iontophoretic patches,and self-orienting applicators,are also discussed for their potential to revolutionize TCM delivery.By bridging traditional wisdom with modern innovations,this review emphasizes the transformative role of these strategies in advancing TCM's integration into contemporary medicine.
基金supported by the National Natural Science Foundation of China(No.22074058,S.Li).
文摘Algal copper uptake(i.e.,Cu bioavailability)in the euphotic zone plays a vital role in algal photosynthesis and respiration,affecting the primary productivity and the source and sink of atmospheric carbon.Algal Cu uptake is controlled by natural dissolved organic Cu(DOCu)speciation(i.e.,complexed with the dissolved organic matter)that conventionally could be tested by model prediction or molecular-level characterizations in the lab,while DOCu uptake are hardly directly assessed.Thus,the new chemistrybiology insight into the mechanisms of the Cu uptake process in algae is urgent.The DOCu speciation transformation(organic DOCu to free Cu(II)ions),enzymatic reduction-induced valence change(reduction of free Cu(II)to Cu(I)ions),and algal Cu uptake at the algae-water interface are imitated.Herein,an intelligent system with DOCu colorimetric sensor is developed for real-time monitoring of newly generated Cu(I)ions.Deep learning with whole sample image-based characterization and powerful feature extraction capabilities facilitates colorimetric measurement.In this context,the Cu bioavailability with 7 kinds of organic ligands(e.g.,amino acids,organic acids,carbohydrates)can be predicted by the mimetic intelligent biosensor within 15.0min,i.e.,the DOCu uptake and speciation is successfully predicted and streamlined by the biomimetic approach.
基金funded by the National Natural Science Foundation of China(No.82304730)the Project of Academic and Technical Leaders in Major Disciplines in Jiangxi Province(No.20212BCJL23060)+3 种基金the Natural Science Foundation of Jiangxi Province(No.20232BAB216128)the Project of Jiangxi Provincial Department of Education(No.GJJ2200977)the Jiangxi University of Chinese Medicine Science and Technology Innovation Team Development Program(Nos.CXTD-22004,CXTD-22008)the PhD Startup Foundation of Affiliated Hospital of Jiangxi University of Chinese Medicine(No.23KYQDZJ02).
文摘Utilizing transporter-mediated drug delivery to achieve effective oral absorption emerges as a promising strategy.Researchers have been concentrated on discovering solutions to the issues of low solubility and poor permeability of insoluble drugs,whereas,current reports have revealed that drug transporter proteins are abundantly expressed in the mucosa of intestinal epithelial cells,and that their mediated drug absorption effectively improved the bioavailability of orally administered drugs.There are two main categories based on the transporter mechanism,which include the family of ATP-binding cassette(ABC)transporters with efflux effects that reduce drug bioavailability and the family of solute carriers(SLC)transporters with uptake effects that promote drug absorption,respectively.Thus,we review studies of intestinal transporter-mediated delivery of drugs to enhance oral absorption,including the types of intestinal transporters,distribution characteristics,and strategies for enhancing oral absorption using transporter-mediated drug delivery systems are summarized,with the aim of providing important theoretical references for the development of intestinal-targeted delivery system.
文摘The study investigated using rice husk biochar(RHB)to immobilize TNT and RDX explosives in soil at demining sites in Amuru District,Uganda.RHB produced via pyrolysis at 550℃was applied at a rate of 5%w/w to soil samples spiked at 50μg·g^(−1)RDX or TNT.The Liquid chromatography-tandem mass spectrometer(LC-MS/MS)analysis showed that the RHB immobilized 56%-67%of RDX and 55%-69%of TNT.The biochar’s porous structure and surface functional groups facilitated the explosive adsorption,reducing bioavailability.This demonstrates RHB’s effectiveness as an environmentally friendly and cost-effective remediation strategy.
基金funded by National Key R&D Program of China(2022YFA1207600)the National Natural Science Foundation of China(12175263,11875267,and 12075262).
文摘Nano ceria(nano-CeO_(2))has been widely applied in various fields of industry and daily life,however,knowledge regarding the biological effects of nano-CeO_(2)with different intrinsic physicochemical properties remains limited.In this study,we investigated the impact of nano-CeO_(2)with different properties on the growth of a typical environmental species(romaine lettuce,Lactuca sativa L.)by exposing the plant to four types of CeO_(2)(rod-like nano-CeO_(2)(RNC),cubic nano-CeO_(2)(CNC),spherical nano-CeO_(2)(SNC)and commercial irregular CeO_(2)(CIC))during the germination stage.The results indicated that different types of CeO_(2)exhibited varying inhibitory effects on plant growth.RNC and SNC significantly inhibited the elongation of roots and shoots,while CNC and CIC did not have a significant impact.We further examined the distribution and biotransformation of the four CeO_(2)in plant tissues using transmission electron microscopy(TEM)and synchrotron X-ray absorption near edge structure(XANES).Specifically,the positively charged RNC and SNC were more readily adsorbed onto the root surface,and needle-like nanoclusters were deposited in the intercellular space inside the roots.The absolute content of Ce(III)in the roots romaine lettuce was in the order of RNC>SNC>>CNC>>CIC.The size and shape(i.e.,exposed crystal surface)of the materials affected their reactivity and dissolution ratios,and zeta potentials affected their bioavailability,both of which influenced the overall contents of Ce^(3+)ions in plant tissues.Thus,these characteristics together led to different biological effects.These findings highlight the importance of considering the intrinsic properties of nano-CeO_(2)when assessing their environmental and biological effects.
基金Supported by Open Fund of Engineering Research Center of Ministry of Education for Wetland Ecology and Agricultural Utilization(KF202015).
文摘In this paper,the vegetable field in the teaching base of College of Agriculture,Yangtze University was taken as the research object.The indoor simulation method was used to explore the effects of temperature and moisture on the phosphorus(P)bioavailability of vegetable soil.Three temperature gradients[T1(15℃),T2(25℃),T3(35℃)]and three humidity gradients[W1(40%),W2(70%),W3(100%)]were set in the test.The results showed that it could improve the contents of HCl-P,Enzyme-P,Citrate-P,and Olsen-P in vegetable soil by increasing soil moisture content;temperature rise was helpful to increase the contents of HCl-P and Olsen-P,but it could reduce the content of Citrate-P.The contents of Enzyme-P and CaCl 2-P were significantly affected by hydrothermal interaction.Within a certain range of soil temperature and humidity,temperature and moisture had a positive coupling effect on soil P bioavailability components,and significantly affected soil P supply capacity.
