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12 pages, 1280 KiB  
Review
SIU-ICUD: Comprehensive Imaging in Prostate Cancer—A Focus on MRI and Micro-Ultrasound
by Cesare Saitta, Wayne G. Brisbane, Hannes Cash, Sangeet Ghai, Francesco Giganti, Adam Kinnaird, Daniel Margolis and Giovanni Lughezzani
Soc. Int. Urol. J. 2025, 6(3), 39; https://doi.org/10.3390/siuj6030039 - 7 Jun 2025
Cited by 1 | Viewed by 453
Abstract
Background/Objectives: The diagnostic approach to prostate cancer (PCa) has evolved from systematic biopsies to imaging-guided strategies that improve detection of clinically significant PCa (csPCa) while reducing overdiagnosis. Multiparametric magnetic resonance imaging (mpMRI) has emerged as the gold standard for pre-biopsy evaluation, while micro-ultrasound [...] Read more.
Background/Objectives: The diagnostic approach to prostate cancer (PCa) has evolved from systematic biopsies to imaging-guided strategies that improve detection of clinically significant PCa (csPCa) while reducing overdiagnosis. Multiparametric magnetic resonance imaging (mpMRI) has emerged as the gold standard for pre-biopsy evaluation, while micro-ultrasound (MicroUS) offers a promising alternative with real-time imaging capabilities. Methods: We examined the principles, image interpretation frameworks (Prostate Imaging Reporting and Data System (PI-RADS) and Prostate Risk Identification using Micro UltraSound (PRI-MUS)), and clinical applications of mpMRI and MicroUS, comparing their diagnostic accuracy in biopsy-naïve patients, repeat biopsy scenarios, active surveillance, and staging. Results: mpMRI improves csPCa detection, reduces unnecessary biopsies, and enhances risk stratification. Landmark studies such as PRECISION (Prostate Evaluation for Clinically Important Disease: Sampling Using Image Guidance or Not?) and PRIME (Prostate Imaging Using MRI±Contrast Enhancement) confirm its superiority over systematic biopsy. However, mpMRI remains resource-intensive, with limitations in accessibility and interpretation variability. Conversely, MicroUS, with its high-resolution real-time imaging, shows non-inferiority to mpMRI and potential advantages in magnetic resonance imaging (MRI)-ineligible patients. It improves lesion visualization and biopsy targeting, with ongoing trials such as OPTIMUM (Optimization of prostate biopsy—Micro-Ultrasound versus MRI) evaluating its standalone efficacy. Conclusions: mpMRI and MicroUS are complementary modalities in PCa diagnosis. While mpMRI remains the preferred imaging standard, MicroUS offers an alternative, particularly in patients with MRI contraindications. Combining these techniques could enhance diagnostic accuracy, reduce unnecessary interventions, and refine active surveillance strategies. Future research should focus on integrating both modalities into standardized diagnostic pathways for a more individualized approach. Full article
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29 pages, 12163 KiB  
Article
Gold Nanoparticle-Based Hydrogel: Application in Anticancer Drug Delivery and Wound Healing In Vitro
by Varshan Gounden and Moganavelli Singh
Pharmaceutics 2025, 17(5), 633; https://doi.org/10.3390/pharmaceutics17050633 - 9 May 2025
Viewed by 745
Abstract
Background/Objectives: Due to the challenges faced by anticancer therapeutics, such as poor selectivity and metabolic degradation, novel delivery systems are needed to mitigate the adverse effects of chemotherapy. The management of chronic wounds is often overlooked and affects patients mentally and physically. [...] Read more.
Background/Objectives: Due to the challenges faced by anticancer therapeutics, such as poor selectivity and metabolic degradation, novel delivery systems are needed to mitigate the adverse effects of chemotherapy. The management of chronic wounds is often overlooked and affects patients mentally and physically. The application of hydrogels can reduce deficiencies in drug delivery and wound healing due to their similarity to the extracellular matrix and stimuli-responsive properties. Methods: A chitosan (CS) hydrogel, cross-linked to gold nanoparticles (AuNPs), followed by the encapsulation of 5-fluorouracil (5-FU), was formulated. The physicochemical properties, drug release profiles, cytotoxicity, and wound healing in vitro were analyzed. Results: Fourier transform infrared spectroscopy and a UV-visible peak at 530 nm confirmed their successful synthesis. Transmission electron microscopy revealed spherical NPs of 89.31 nm, while scanning electron microscopy confirmed the porous network surface of the hydrogels. The thermogravimetric analysis demonstrated enhanced stability for the CS-Au hydrogel, while a non-Newtonian shear-thinning property was evident from rheology. Drug release showed a sustained, pH-dependent release with specificity for the acidic cancer microenvironment. The cytotoxicity assay demonstrated a specificity of the CS-Au-5-FU hydrogel for the cancer cells (HeLa and MCF-7) and diminished cytotoxicity in the non-cancer cells (HEK293). The scratch assay illustrated a complete closure of the wounds in HEK293 cells at low concentrations (15.63 and 31.25 µg/mL). Conclusions: The positive findings from this study confirm the potential of these CS-Au hydrogels to function as smart in vitro delivery systems and scaffolds for wound healing, warranting additional optimizations and in vivo studies. Full article
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8 pages, 1880 KiB  
Article
Surface-Imprinted Acrylamide Polymer-Based Reduced Graphene–Gold Sensor in Rapid and Sensitive Electrochemical Determination of αB-Conotoxin
by Jia Cao, Jiayue Li, Tianyang Yu and Fei Wang
Sensors 2025, 25(5), 1408; https://doi.org/10.3390/s25051408 - 26 Feb 2025
Viewed by 630
Abstract
The quantitative determination of conotoxins has great potential in the development of natural marine peptide pharmaceuticals. Considering the time-consuming sample pretreatment and expensive equipment in MS or LC-MS/MS analysis, an electrochemical sensor combined with molecularly imprinted polymer (MIP) is fabricated for the rapid [...] Read more.
The quantitative determination of conotoxins has great potential in the development of natural marine peptide pharmaceuticals. Considering the time-consuming sample pretreatment and expensive equipment in MS or LC-MS/MS analysis, an electrochemical sensor combined with molecularly imprinted polymer (MIP) is fabricated for the rapid monitoring of conotoxin αB-VxXXIVA to promote its pharmaceutical value and eliminate the risk of human poisoning. Electrochemically reduced graphene oxide–gold composite (rGO-Au) is modified with chitosan (CS) and glutaraldehyde (GA) to immobilize the macromolecular peptide, conotoxin αB-VxXXIVA. Subsequently, acrylamide (AAM) with a cross-linking agent, N,N′-methylene-bisacrylamide (NNMBA), is introduced into the rGO-Au electrode to form MIPs by electro-polymerization. The proposed MIP-based electrochemical sensor, PAM/αB-CTX/CS-GA/rGO-Au/SPE, exhibits satisfactory sensing performance in the detection of αB-VxXXIVA. Based on current change versus logarithm concentration, a wide linear range from 0.1 to 10,000 ng/mL and a low detection limit (LOD) of 0.014 ng/mL for this sensor are obtained. This work provides a promising method in electrochemical determination combined with MIP for the determination of macromolecular peptides. Full article
(This article belongs to the Collection Sensors and Biosensors for Environmental and Food Applications)
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11 pages, 2028 KiB  
Article
Role of Multimodality Imaging in Cardiac Sarcoidosis: A Retrospective Single-Center Experience
by Vincent A. Torelli, Sanjay Sivalokanathan, Alexander Silverman, Syed Zaidi, Usman Saeedullah, Komail Jafri, James Choi, Luka Katic, Serdar Farhan and Ashish Correa
J. Clin. Med. 2024, 13(23), 7335; https://doi.org/10.3390/jcm13237335 - 2 Dec 2024
Cited by 1 | Viewed by 1119
Abstract
Background/Objectives: Cardiac sarcoidosis (CS) is a rare entity characterized by granulomatous infiltration of the myocardium, which can lead to myocardial fibrosis, conduction abnormalities, and the development of heart failure, thereby elevating the risk of sudden cardiac death (SCD). While endomyocardial biopsy (EMBx) is [...] Read more.
Background/Objectives: Cardiac sarcoidosis (CS) is a rare entity characterized by granulomatous infiltration of the myocardium, which can lead to myocardial fibrosis, conduction abnormalities, and the development of heart failure, thereby elevating the risk of sudden cardiac death (SCD). While endomyocardial biopsy (EMBx) is regarded as the gold standard for diagnosis, its low sensitivity and inherent procedural risks may limit its practical application. Methods: This study retrospectively explored the role of advanced imaging modalities, specifically cardiovascular magnetic resonance imaging (CMR) and fluorodeoxyglucose positron emission tomography (FDG-PET), in the diagnosis and management of CS within a single center. In this retrospective study, we aimed to assess the utility of advanced imaging modalities in the clinical diagnosis of CS and the monitoring of treatment. Results: A total of 92 patients were identified as having cardiac sarcoidosis, with males constituting 66.3% of the sample and a mean age of 62 years (±11.9). Among these patients, 80 (87%) underwent FDG-PET. Here, the basal inferolateral segment was the most frequently observed segment of the heart with FDG uptake. A total of 77 patients (84%) underwent CMR, with 51 demonstrating late gadolinium enhancement (LGE). The basal inferolateral segment exhibited the highest frequency of LGE (26%). Logistic regression analysis indicated that patients presenting with a combination of LGE, FDG uptake on PET, and a “mismatch pattern” faced a two-fold increase in the risk of experiencing major adverse cardiac events (odds ratio = 2.311, p = 0.077). Conclusions: This study underscores the importance of multimodality imaging as a non-invasive alternative for CS diagnosis and management, reducing reliance on EMBx. Full article
(This article belongs to the Special Issue Clinical Advances in Cardiac Imaging)
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16 pages, 1397 KiB  
Review
Evolution of Stemless Reverse Shoulder Arthroplasty: Current Indications, Outcomes, and Future Prospects
by Taku Hatta, Ryosuke Mashiko, Jun Kawakami, Gaku Matsuzawa, Yohei Ogata and Waku Hatta
J. Clin. Med. 2024, 13(13), 3813; https://doi.org/10.3390/jcm13133813 - 28 Jun 2024
Cited by 3 | Viewed by 2288
Abstract
Reverse total shoulder arthroplasty (rTSA) is increasingly being used as a reliable option for various shoulder disorders with deteriorated rotator cuff and glenohumeral joints. The stemless humerus component for shoulder arthroplasties is evolving with theoretical advantages, such as preservation of the humeral bone [...] Read more.
Reverse total shoulder arthroplasty (rTSA) is increasingly being used as a reliable option for various shoulder disorders with deteriorated rotator cuff and glenohumeral joints. The stemless humerus component for shoulder arthroplasties is evolving with theoretical advantages, such as preservation of the humeral bone stock and decreased risk of periprosthetic fractures, as well as clinical research demonstrating less intraoperative blood loss, reduced surgical time, a lower rate of intraoperative fractures, and improved center of rotation restoration. In particular, for anatomical total shoulder arthroplasty (aTSA), the utilization of stemless humeral implants is gaining consensus in younger patients. The current systematic review of 14 clinical studies (637 shoulders) demonstrated the clinical outcomes of stemless rTSA. Regarding shoulder function, the mean Constant-Murley Score (CS) improved from 28.3 preoperatively to 62.8 postoperatively. The pooled overall complication and revision rates were 14.3% and 6.3%, respectively. In addition, recent studies have shown satisfactory outcomes with stemless rTSA relative to stemmed rTSA. Therefore, shoulder surgeons may consider adopting stemless rTSA, especially in patients with sufficient bone quality. However, further long-term studies comparing survivorship between stemless and stemmed rTSA are required to determine the gold standard for selecting stemless rTSA. Full article
(This article belongs to the Special Issue Shoulder and Elbow Disease: Current Treatment and Future Options)
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23 pages, 3033 KiB  
Review
Recent Advancements in Metallic Au- and Ag-Based Chitosan Nanocomposite Derivatives for Enhanced Anticancer Drug Delivery
by Mahmoud A. El-Meligy, Eman M. Abd El-Monaem, Abdelazeem S. Eltaweil, Mohamed S. Mohy-Eldin, Zyta M. Ziora, Abolfazl Heydari and Ahmed M. Omer
Molecules 2024, 29(10), 2393; https://doi.org/10.3390/molecules29102393 - 19 May 2024
Cited by 11 | Viewed by 3125
Abstract
The rapid advancements in nanotechnology in the field of nanomedicine have the potential to significantly enhance therapeutic strategies for cancer treatment. There is considerable promise for enhancing the efficacy of cancer therapy through the manufacture of innovative nanocomposite materials. Metallic nanoparticles have been [...] Read more.
The rapid advancements in nanotechnology in the field of nanomedicine have the potential to significantly enhance therapeutic strategies for cancer treatment. There is considerable promise for enhancing the efficacy of cancer therapy through the manufacture of innovative nanocomposite materials. Metallic nanoparticles have been found to enhance the release of anticancer medications that are loaded onto them, resulting in a sustained release, hence reducing the dosage required for drug administration and preventing their buildup in healthy cells. The combination of nanotechnology with biocompatible materials offers new prospects for the development of advanced therapies that exhibit enhanced selectivity, reduced adverse effects, and improved patient outcomes. Chitosan (CS), a polysaccharide possessing distinct physicochemical properties, exhibits favorable attributes for controlled drug delivery due to its biocompatibility and biodegradability. Chitosan nanocomposites exhibit heightened stability, improved biocompatibility, and prolonged release characteristics for anticancer medicines. The incorporation of gold (Au) nanoparticles into the chitosan nanocomposite results in the manifestation of photothermal characteristics, whereas the inclusion of silver (Ag) nanoparticles boosts the antibacterial capabilities of the synthesized nanocomposite. The objective of this review is to investigate the recent progress in the utilization of Ag and Au nanoparticles, or a combination thereof, within a chitosan matrix or its modified derivatives for the purpose of anticancer drug delivery. The research findings for the potential of a chitosan nanocomposite to deliver various anticancer drugs, such as doxorubicin, 5-Fluroacil, curcumin, paclitaxel, and 6-mercaptopurine, were investigated. Moreover, various modifications carried out on the chitosan matrix phase and the nanocomposite surfaces to enhance targeting selectivity, loading efficiency, and pH sensitivity were highlighted. In addition, challenges and perspectives that could motivate further research related to the applications of chitosan nanocomposites in cancer therapy were summarized. Full article
(This article belongs to the Special Issue Nanomaterials for Advanced Biomedical Applications, 2nd Edition)
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16 pages, 1129 KiB  
Article
Gold(III) Complexes Activity against Multidrug-Resistant Bacteria of Veterinary Significance
by Carlos Ratia, Sara Sueiro, Raquel G. Soengas, María José Iglesias, Fernando López-Ortiz and Sara María Soto
Antibiotics 2022, 11(12), 1728; https://doi.org/10.3390/antibiotics11121728 - 1 Dec 2022
Cited by 16 | Viewed by 2401
Abstract
The emergence and spread of multidrug-resistant bacteria are a global concern. The lack of new antibiotics in the pipeline points to the need for developing new strategies. In this sense, gold(III) complexes (G3Cs) could be a promising alternative due to their recently described [...] Read more.
The emergence and spread of multidrug-resistant bacteria are a global concern. The lack of new antibiotics in the pipeline points to the need for developing new strategies. In this sense, gold(III) complexes (G3Cs) could be a promising alternative due to their recently described antibacterial activity. The aim of this study was to evaluate the antimicrobial activity of G3Cs alone and in combination with colistin against pathogenic bacteria from veterinary sources. Minimal inhibitory concentration (MIC) values were determined by broth microdilution and compared with clinically relevant antibiotics. Antibiofilm activity was determined by crystal violet staining. Combinations of selected G3Cs with colistin and cytotoxicity in commercial human cell lines were evaluated. Four and seven G3Cs showed antibacterial effect against Gram-negative and Gram-positive strains, respectively, with this activity being higher among Gram-positive strains. The G3Cs showed antibiofilm activity against Gram-negative species at concentrations similar or one to four folds higher than the corresponding MICs. Combination of G3Cs with colistin showed a potential synergistic antibacterial effect reducing concentrations and toxicity of both agents. The antimicrobial and antibiofilm activity, the synergistic effect when combined with colistin and the in vitro toxicity suggest that G3Cs would provide a new therapeutic alternative against multidrug-resistant bacteria from veterinary origin. Full article
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12 pages, 3341 KiB  
Article
Sustainable Synthesis of FITC Chitosan-Capped Gold Nanoparticles for Biomedical Applications
by Valeria De Matteis, Loris Rizzello, Mariafrancesca Cascione, Paolo Pellegrino, Jagpreet Singh, Daniela Manno and Rosaria Rinaldi
Clean Technol. 2022, 4(4), 942-953; https://doi.org/10.3390/cleantechnol4040058 - 30 Sep 2022
Cited by 4 | Viewed by 3834
Abstract
The quest for novel nanoscale materials for different applications necessitates that they are easy to obtain and have excellent physical properties and low toxicity. Moreover, considering the ongoing environmental impact of noxious chemical waste products, it is important to adopt eco-friendly approaches for [...] Read more.
The quest for novel nanoscale materials for different applications necessitates that they are easy to obtain and have excellent physical properties and low toxicity. Moreover, considering the ongoing environmental impact of noxious chemical waste products, it is important to adopt eco-friendly approaches for nanoparticle synthesis. In this work, a natural polymer (medium molecular weight chitosan) derived from chitin was employed as a reducing agent to obtain gold nanoparticles (AuNPs) with a chitosan shell (AuNPs@CS) by a microwave oven. The chitosan is economically viable and cost-competitive in the market showing also nontoxic behavior in the environment and living organisms. The synthesized AuNPs@CS-FITC NPs were fully characterized by spectroscopic and microscopic characterization techniques. The size distribution of NPs was about 15 nm, which is a suitable dimension to use in biomedical applications due to their high tissue penetration, great circulation in blood, and optimal clearance as well as low toxicity. The prepared polymer-capped NPs were further functionalized with a fluorescent molecule, i.e., Fluorescein-5-isothiocyanate (FITC), to perform imaging in the cell. The results highlighted the goodness of the synthesis procedure, as well as the high internalization rate that resulted in an optimal fluorescence intensity. Thus, this work presents a good sustainable/green approach-mediated polymer nanocomposite for various applications in the field of diagnostic imaging. Full article
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12 pages, 1992 KiB  
Communication
Electrochemical Immunosensor Modified with Nitrogen-Doped Reduced Graphene Oxide@Carboxylated Multi-Walled Carbon Nanotubes/Chitosan@Gold Nanoparticles for CA125 Detection
by Yingying Gu, Guoao Gong, Yuting Jiang, Jiangyang Qin, Yong Mei and Jun Han
Chemosensors 2022, 10(7), 272; https://doi.org/10.3390/chemosensors10070272 - 12 Jul 2022
Cited by 15 | Viewed by 2752
Abstract
Lung cancer is one of the malignant tumors with the highest mortality rate, and the detection of its tumor marker carcinoma antigen 125 (CA125) is significant. Here, an electrochemical immunoassay for CA125 was described. Nitrogen-doped reduced graphene oxide (N-rGO), carboxylated multi-walled carbon nanotubes [...] Read more.
Lung cancer is one of the malignant tumors with the highest mortality rate, and the detection of its tumor marker carcinoma antigen 125 (CA125) is significant. Here, an electrochemical immunoassay for CA125 was described. Nitrogen-doped reduced graphene oxide (N-rGO), carboxylated multi-walled carbon nanotubes (CMWCNTs) and gold nanoparticles (AuNPs) were applied to co-modify glassy carbon electrode (GCE), after incubation with Anti-CA125, the modified electrode was employed for the specific detection of CA125. The N-rGO@CMWCNTs (Nitrogen-doped reduced graphene oxide@carboxylated multi-walled carbon nanotubes) were used as a matrix, while CS@AuNPs (Chitosan@gold nanoparticles) with high conductivity and biocompatibility was immobilized on it through the reaction between carboxyl groups from CMWCNTs and amino groups, hydroxyl groups from chitosan (CS), resulting in the effect of double signal amplification. The immunosensor demonstrated excellent electrochemical performance with a linear detection range of 0.1 pg mL−1–100 ng mL−1, and the detection limit was as low as 0.04 pg mL−1 (S/N = 3). It had been verified that this method had good precision and high accuracy, and the immunosensor could remain stable for 10 days. This research provided a new method for the detection of CA125 in serum. Full article
(This article belongs to the Section (Bio)chemical Sensing)
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15 pages, 10934 KiB  
Article
Detection of Oxytetracycline Using an Electrochemical Label-Free Aptamer-Based Biosensor
by Sanaz Akbarzadeh, Habibollah Khajehsharifi and Saeedeh Hajihosseini
Biosensors 2022, 12(7), 468; https://doi.org/10.3390/bios12070468 - 28 Jun 2022
Cited by 30 | Viewed by 4174
Abstract
One of the most effective ways to detect and measure antibiotics is to detect their biomarkers. The best biomarker for the control and detection of oxytetracycline (OTC) is the OTC-specific aptamer. In this study, a novel, rapid, and label-free aptamer-based electrochemical biosensor (electrochemical [...] Read more.
One of the most effective ways to detect and measure antibiotics is to detect their biomarkers. The best biomarker for the control and detection of oxytetracycline (OTC) is the OTC-specific aptamer. In this study, a novel, rapid, and label-free aptamer-based electrochemical biosensor (electrochemical aptasensor) was designed for OTC determination based on a newly synthesized nanocomposite including multi-walled carbon nanotubes (MWCNTs), gold nanoparticles (AuNPs), reduced graphene oxide (rGO), and chitosan (CS), as well as nanosheets to modify a glassy carbon electrode, which extremely enhanced electrical conductivity and increased the electrode surface to bind well with the amine-terminated OTC-specific aptamer through self-assembly. The (MWCNTs-AuNPs/CS-AuNPs/rGO-AuNPs) nanocomposite modified electrode was synthesized using a layer- by-layer modification method which had the highest efficiency for better aptamer stabilization. Differential pulse voltammetry (DPV), cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and scanning electron microscopy (SEM) techniques were used to investigate and evaluate the electrochemical properties and importance of the synthesized nanocomposite in different steps. The designed aptasensor was very sensitive for measuring the OTC content of milk samples, and the results were compared with those of our previously published paper. Based on the calibration curve, the detection limit was 30.0 pM, and the linear range was 1.00–540 nM for OTC. The repeatability and reproducibility of the aptasensor were obtained for 10.0 nM of OTC with a relative standard deviation (RSD%) of 2.39% and 4.01%, respectively, which were not affected by the coexistence of similar derivatives. The measurement in real samples with the recovery range of 93.5% to 98.76% shows that this aptasensor with a low detection limit and wide linear range can be a good tool for detecting OTC. Full article
(This article belongs to the Special Issue Electrochemical (Bio)Sensors and Energy Autonomous Sensing System)
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15 pages, 4599 KiB  
Article
Reducibility Studies of Ceria, Ce0.85Zr0.15O2 (CZ) and Au/CZ Catalysts after Alkali Ion Doping: Impact on Activity in Oxidation of NO and CO
by Ewa Maria Iwanek (nee Wilczkowska), Leonarda Francesca Liotta, Shazam Williams, Linjie Hu, Huitian Ju, Giuseppe Pantaleo, Zbigniew Kaszkur, Donald W. Kirk, Wojciech Patkowski and Marek Gliński
Catalysts 2022, 12(5), 524; https://doi.org/10.3390/catal12050524 - 7 May 2022
Cited by 4 | Viewed by 2535
Abstract
The aim of these studies was to perform thorough research on the influence of alkali metal ions (Li, Na, K and Cs) on the properties of nanogold catalysts supported on ceria–zirconia. The addition of alkali metal ions onto CeO2 further affected the [...] Read more.
The aim of these studies was to perform thorough research on the influence of alkali metal ions (Li, Na, K and Cs) on the properties of nanogold catalysts supported on ceria–zirconia. The addition of alkali metal ions onto CeO2 further affected the reducibility, which was not noted for the Zr-doped support (Ce0.85Zr0.15O2). Despite the substantial impact of alkali metal ions on the reducibility of ceria, the activity in CO oxidation did not change much. In contrast, they do not have a large effect on the reducibility of Au/CZ but suppressed the activity of this system in CO oxidation. The results show that for CO oxidation, the negative effect of potassium ions is greater than that of sodium, which corresponds to the shift in the Tmax of the reduction peak towards higher temperatures. The negative effect of Li+ and Cs+ spans 50% CO conversion. The negative effect was visible for CO oxidation in both the model stream and the complex stream, which also contained hydrocarbons and NO. In the case of NO oxidation to NO2, two temperature regimes were observed for Au + 0.3 at% K/CZ, namely in the temperature range below 350 °C; the effect of potassium ions was beneficial for NO oxidation, whereas at higher temperatures, the undoped gold catalyst produced more NO2. Full article
(This article belongs to the Special Issue Women in Catalysts)
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14 pages, 3401 KiB  
Article
Probiotic Strains Isolated from an Olympic Woman’s Weightlifting Gold Medalist Increase Weight Loss and Exercise Performance in a Mouse Model
by Wen-Yang Lin, Yi-Wei Kuo, Jia-Hung Lin, Chi-Huei Lin, Jui-Fen Chen, Shin-Yu Tsai, Mon-Chien Lee, Yi-Ju Hsu, Chi-Chang Huang, Yung-An Tsou and Hsieh-Hsun Ho
Nutrients 2022, 14(6), 1270; https://doi.org/10.3390/nu14061270 - 17 Mar 2022
Cited by 6 | Viewed by 8551
Abstract
Obesity is a worldwide health problem. Calorie-restricted diets constitute a common intervention for treating obesity. However, an improper calorie-restricted diet can lead to malnutrition, fatigue, poor concretion, muscle loss, and reduced exercise performance. Probiotics have been introduced as an alternative treatment for obesity. [...] Read more.
Obesity is a worldwide health problem. Calorie-restricted diets constitute a common intervention for treating obesity. However, an improper calorie-restricted diet can lead to malnutrition, fatigue, poor concretion, muscle loss, and reduced exercise performance. Probiotics have been introduced as an alternative treatment for obesity. In the present study, we tested the weight loss and exercise performance enhancement effectiveness of probiotic strains of different origins, including four isolated from an Olympic weightlifting gold medalist (Bifidobacterium longum subsp. longum OLP-01, Lactobacillus plantarum PL-02, Lactobacillus salivarius subsp. salicinius SA-03, and Lactococcus lactis subsp. lactis LY-66). A high-fat diet (HFD) was used to induce obesity in 16 groups of mice (n = 8/group). The mice were administered probiotic supplements at a dosage of 4.1 × 109 CFU/kg/day for 10 weeks. All probiotic supplementation groups showed a significant reduction in body weight and fat mass compared with the HFD group. TYCA06, CS-773, BLI-02, PL-02, bv-77, and OLP-01 were the most effective in facilitating weight loss and fat reduction, which may be due to fatty-acid absorbing activity. PL-02, LY-66, TYCA06, CS-773, and OLP-01 elevated the animals’ grip strength and exhaustive running duration. PL-02, LY-66, and OLP-01 increased tissue glycogen (liver and muscle) levels and muscle capillary density and reduced blood lactate production levels after exercise. In conclusion, OLP-01, PL-02, LY-66, TYCA06, and CS-773 were highly effective in enhancing weight loss and exercise performance. This study should be repeated on humans in the future to further confirm the findings. Full article
(This article belongs to the Topic Probiotics, Prebiotics and Postbiotics in Human Health)
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10 pages, 4401 KiB  
Article
Tuning HAuCl4/Sodium Citrate Stoichiometry to Fabricate Chitosan-Au Nanocomposites
by Luis R. Torres-Ferrer, José M. López-Romero, Juan Mendez-Nonell, Maria J. Rivas-Arreola, Marisa Moreno-Ríos, Erika O. Ávila-Dávila, Evgeny Prokhorov, Yuriy Kovalenko, Diana G. Zárate-Triviño, Javier R. Revilla-Vazquez, Marco A. Meraz-Rios and Gabriel Luna-Barcenas
Polymers 2022, 14(4), 788; https://doi.org/10.3390/polym14040788 - 17 Feb 2022
Cited by 7 | Viewed by 3482
Abstract
Nanocomposite engineering of biosensors, biomaterials, and flexible electronics demand a highly tunable synthesis of precursor materials to achieve enhanced or desired properties. However, this process remains limited due to the need for proper synthesis-property strategies. Herein, we report on the ability to synthesize [...] Read more.
Nanocomposite engineering of biosensors, biomaterials, and flexible electronics demand a highly tunable synthesis of precursor materials to achieve enhanced or desired properties. However, this process remains limited due to the need for proper synthesis-property strategies. Herein, we report on the ability to synthesize chitosan-gold nanocomposite thin films (CS/AuNP) with tunable properties by chemically reducing HAuCl4 in chitosan solutions and different HAuCl4/sodium citrate molar relationships. The structure, electrical, and relaxation properties of nanocomposites have been investigated as a function of HAuCl4/sodium citrate molar relation. It was shown that gold particle size, conductivity, Vogel temperature (glass transition), and water content strongly depend upon HAuCl4/sodium citrate relationships. Two relaxation processes have been observed in nanocomposites; the α-relaxation process, related to a glass transition in wet CS/AuNP films, and the σ-relaxation related to the local diffusion process of ions in a disordered system. The ability to fine-tune both α- and σ-relaxations may be exploited in the proper design of functional materials for biosensors, biomaterials, and flexible electronics applications. Full article
(This article belongs to the Collection Progress in Polymer Composites and Nanocomposites)
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15 pages, 3731 KiB  
Article
Network Analysis Integrating microRNA Expression Profiling with MRI Biomarkers and Clinical Data for Prostate Cancer Early Detection: A Proof of Concept Study
by Valeria Panebianco, Paola Paci, Martina Pecoraro, Federica Conte, Giorgia Carnicelli, Zein Mersini Besharat, Giuseppina Catanzaro, Elena Splendiani, Alessandro Sciarra, Lorenzo Farina, Carlo Catalano and Elisabetta Ferretti
Biomedicines 2021, 9(10), 1470; https://doi.org/10.3390/biomedicines9101470 - 14 Oct 2021
Cited by 9 | Viewed by 3183
Abstract
The MRI of the prostate is the gold standard for the detection of clinically significant prostate cancer (csPCa). Nonetheless, MRI still misses around 11% of clinically significant disease. The aim was to comprehensively integrate tissue and circulating microRNA profiling, MRI biomarkers and clinical [...] Read more.
The MRI of the prostate is the gold standard for the detection of clinically significant prostate cancer (csPCa). Nonetheless, MRI still misses around 11% of clinically significant disease. The aim was to comprehensively integrate tissue and circulating microRNA profiling, MRI biomarkers and clinical data to implement PCa early detection. In this prospective cohort study, 76 biopsy naïve patients underwent MRI and MRI directed biopsy. A sentinel sample of 15 patients was selected for a pilot molecular analysis. Weighted gene coexpression network analysis was applied to identify the microRNAs drivers of csPCa. MicroRNA–target gene interaction maps were constructed, and enrichment analysis performed. The ANOVA on ranks test and ROC analysis were performed for statistics. Disease status was associated with the underexpression of the miRNA profiled; a correlation was found with ADC (r = −0.51, p = 0.02) and normalized ADC values (r = −0.64, p = 0.002). The overexpression of miRNAs from plasma was associated with csPCa (r = 0.72; p = 0.02), and with PI-RADS assessment score (r = 0.73; p = 0.02); a linear correlation was found with biomarkers of diffusion and perfusion. Among the 800 profiled microRNA, eleven were identified as correlating with PCa, among which miR-548a-3p, miR-138-5p and miR-520d-3p were confirmed using the RT-qPCR approach on an additional cohort of ten subjects. ROC analysis showed an accuracy of >90%. Provided an additional validation set of the identified miRNAs on a larger cohort, we propose a diagnostic paradigm shift that sees molecular data and MRI biomarkers as the prebiopsy triage of patients at risk for PCa. This approach will allow for accurate patient allocation to biopsy, and for stratification into risk group categories, reducing overdiagnosis and overtreatment. Full article
(This article belongs to the Special Issue Non-coding RNAs in Health and Disease)
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18 pages, 2204 KiB  
Article
Antibacterial Effect of Chitosan–Gold Nanoparticles and Computational Modeling of the Interaction between Chitosan and a Lipid Bilayer Model
by M. G. Fuster, M. G. Montalbán, G. Carissimi, B. Lima, G. E. Feresin, M. Cano, J. J. Giner-Casares, J. J. López-Cascales, R. D. Enriz and G. Víllora
Nanomaterials 2020, 10(12), 2340; https://doi.org/10.3390/nano10122340 - 25 Nov 2020
Cited by 41 | Viewed by 4250
Abstract
Pathogenic bacteria have the ability to develop antibiotic resistance mechanisms. Their action consists mainly in the production of bacterial enzymes that inactivate antibiotics or the appearance of modifications that prevent the arrival of the drug at the target point or the alteration of [...] Read more.
Pathogenic bacteria have the ability to develop antibiotic resistance mechanisms. Their action consists mainly in the production of bacterial enzymes that inactivate antibiotics or the appearance of modifications that prevent the arrival of the drug at the target point or the alteration of the target point itself, becoming a growing problem for health systems. Chitosan–gold nanoparticles (Cs-AuNPs) have been shown as effective bactericidal materials avoiding damage to human cells. In this work, Cs-AuNPs were synthesized using chitosan as the reducing agent, and a systematic analysis of the influence of the synthesis parameters on the size and zeta potential of the Cs-AuNPs and their UV-vis spectra was carried out. We used a simulation model to characterize the interaction of chitosan with bacterial membranes, using a symmetric charged bilayer and two different chitosan models with different degrees of the chitosan amine protonation as a function of pH, with the aim to elucidate the antibacterial mechanism involving the cell wall disruption. The Cs-AuNP antibacterial activity was evaluated to check the simulation model. Full article
(This article belongs to the Special Issue Nanotechnology for Green Chemical Engineering)
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