Your search keyword '"*GLYCOLIC acid"' showing total 24,694 results

1. Investigating bifunctional linker-assisted photocatalytic behavior of Ag–TiO2 nanocomposites.

Author

Saroha, Jyoti, Semalti, Pooja, Tanwar, Praveen, Kumar, Mahesh, and Sharma, Shailesh Narain

Subjects

*CHARGE transfer, *CHARGE exchange, *THIOGLYCOLIC acid, *PHOTODEGRADATION, *PHOTOCATALYSTS

Abstract

Linker-assisted Ag-TiO2 nanocomposite (NC)-based photocatalysts have been successfully synthesized using thioglycolic acid (TGA) and 3-mercaptopropionic acid (MPA) as bifunctional linker molecules (LMs). The Ag–LMs–TiO2 composites showed greatly improved photocatalytic performance for the degradation of an organic dye mixture under direct sunlight over bare Ag–TiO2 NCs. The efficiencies estimated from the degradation curves for Ag–TiO2, Ag–MPA–TiO2, and Ag–TGA–TiO2 are found to be 82.9%, 90.2%, and 96.1%, respectively. Compared to Ag–MPA–TiO2, Ag–TGA–TiO2 NCs exhibit an enhanced photocatalytic activity, which can be attributed to the TGA molecule's shorter chain length and, hence, faster and more charge transfer, which is duly confirmed by photoluminescence (PL) quenching and TRPL decay curves. Furthermore, higher Stern–Volmer quenching constant values (Ksv) have been obtained for Ag–TGA–TiO2 NCs compared to the bare Ag–TiO2 and Ag–MPA–TiO2 NCs from the PL quenching and estimated Ksv values for Ag–TiO2, Ag–MPA–TiO2, and Ag–TGA–TiO2 are 1400, 1950, and 2560 l−1, respectively. Interestingly, the Ag–TGA–TiO2 recycling analysis confirmed high stability and fast photodegradation up to 40 cycles. From the obtained results, it is concluded that the interfacial electron transfer kinetics in Ag–LM–TiO2 assemblies rely on the length of the alkyl-containing molecular linkers; the shorter the length, the more the charge transfer will be, thereby improving the photocatalytic behavior of the NCs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Heterozygous Individuals for AGXT and Kidney Stones

Author

Kyle D. Wood, Principal Investigator

Published

2024

3. Renal Metabolism of Glycolate to Oxalate

Author

Sonia Fargue, Principle Investigator

Published

2024

4. A Pilot Study Testing Salicylic Acid Peels Versus Glycolic Acid Peels for the Treatment of Melasma

Author

Murad Alam, Professor in Dermatology, Otolaryngology - Head and Neck Surgery, and Surgery-Organ Transplantation

Published

2024

5. Immuno‐Isolation Strategy with Tacrolimus‐Loaded Nanofilm Promotes Stable Stem Cell‐Based Cartilage Regeneration.

Author

Guo, Zhiyi, Zhu, Xinsheng, Xu, Liang, Zhu, Jianxiang, Zhang, Xue, Yang, Yang, and Song, Nan

Subjects

*CARTILAGE regeneration, *BONE marrow cells, *TACROLIMUS, *HYALURONIC acid, *CARTILAGE, *GLYCOLIC acid, *ENDOCHONDRAL ossification

Abstract

Bone marrow stem cells (BMSCs)‐engineered cartilage (BEC) shows promise for clinically repairing cartilage defects. However, when implanted in immunocompetent large animals, BEC becomes susceptible to ossification due to inflammatory infiltration. To address this, a nanofilm isolation approach is developed to enhance BEC's chondrogenic stability. Tacrolimus (FK506), known for its immunosuppressive effect, is integrated into adipic dihydrazide (ADH)‐modified hyaluronic acid (HA), creating an acid‐responsive macromolecular prodrug called FK506@HA‐ADH. This prodrug is then blended with poly(lactic‐co‐glycolic acid) (PLGA) to form electrospun FK506@HA/PLGA nanofilm. Goat‐derived BMSCs are induced in vitro to form BEC, which is enclosed within the FK506@HA/PLGA nanofilm and subcutaneously implanted in autologous goats. The nanofilm acted as a physical barrier, preventing immunocyte infiltration. Additionally, in response to the acidic environment triggered by inflammation and the gradual degradation of PLGA, the FK506@HA‐ADH prodrug is cleaved, releasing FK506 as needed. The released FK506 effectively countered inflammatory cytokines and promoted cartilaginous maturity. These combined mechanisms significantly inhibited BEC hypertrophy and improved its chondrogenic stability within an immunocompetent goat model. This nanofilm‐based isolation strategy established an immunosuppressive niche, successfully preventing endochondral ossification and promoting stable cartilage formation in BEC. These advancements are crucial for translating stem cell‐based therapies into clinical use for cartilage repair. [ABSTRACT FROM AUTHOR]

Published

2024

6. Enhancing H+ conduction through glycolic acid-doped alginate-PVA based biopolymer electrolytes.

Author

Ghazali, N.M., Aoki, K., Nagao, Y., and Samsudin, A.S.

Subjects

*PROTON conductivity, *IONIC conductivity, *HYDROGEN bonding interactions, *THERMAL stability, *HYDROGEN bonding, *POLYELECTROLYTES, *GLYCOLIC acid, *POLYMER blends

Abstract

This study investigates the development of a biopolymer blend electrolyte composed of alginate and poly (vinyl alcohol) (PVA), doped with glycolic acid (GA) to enhance H+ conductivity. The addition of GA significantly impacts the biopolymer blend's physicochemical properties and ionic conduction performance. Fourier transform infrared (FTIR) spectroscopy verified the intricate interactions and hydrogen bonding between the alginate-PVA matrix and GA. The addition of GA was shown to increase the amorphous phase, as observed through X-ray diffraction (XRD) and scanning electron microscopy (SEM) analysis. This increase in the amorphous phase was found to enhance the thermal stability. Impedance analysis demonstrated a significant increase in ionic conductivity from approximately ∼10⁻⁸ S cm⁻1 for the undoped blend to 3.45 × 10⁻⁵ S cm⁻1 with 30 wt% GA (sample GA-30). The enhanced H+ conduction behaviour was consistent across various temperatures, adhering to the Arrhenius rule. These findings suggest that the alginate-PVA-GA system is a promising candidate for efficient proton transport applications. • A bio-based polymer blend electrolyte composed of alginate-PVA containing H + carriers has been successfully prepared. • Amorphous Structure : GA doping transforms alginate-PVA into a highly amorphous, ion-conductive structure. • Strong Hydrogen Bonding : FTIR shows enhanced hydrogen bonding, aiding proton conduction via Grotthuss mechanism. • Thermal Stability : TGA confirms GA-doped alginate-PVA maintains thermal stability and boosts proton conductivity. • Enhanced Proton Conductivity : Glycolic acid-doped alginate-PVA boosts conductivity to 3.45 × 10⁻⁵ S cm⁻1. [ABSTRACT FROM AUTHOR]

Published

2024

7. An all-in-one nanoparticle for overcoming drug resistance: doxorubicin and elacridar co-loaded folate receptor targeted PLGA/MSN hybrid nanoparticles.

Author

Tonbul, Hayrettin, Şahin, Adem, Öztürk, Süleyman Can, Ultav, Gözde, Tavukçuoğlu, Ece, Akbaş, Sedenay, Aktaş, Yeşim, Esendağlı, Güneş, and Çapan, Yılmaz

Subjects

*SILICA nanoparticles, *MESOPOROUS silica, *MULTIDRUG resistance, *DRUG resistance, *BREAST cancer, *GLYCOLIC acid

Abstract

Overexpression of permeability-glycoprotein (P-gp) transporter leads to multidrug resistance (MDR) through cellular exclusion of chemotherapeutics. Co-administration of P-gp inhibitors and chemotherapeutics is a promising approach for improving the efficacy of therapy. Nevertheless, problems in pharmacokinetics, toxicity and solubility limit the application of P-gp inhibitors. Herein, we developed a novel all-in-one hybrid nanoparticle system to overcome MDR in doxorubicin (DOX)-resistant breast cancer. First, folic acid-modified DOX-loaded mesoporous silica nanoparticles (MSNs) were prepared and then loaded into PEGylated poly(lactic-co-glycolic acid) (PLGA) nanoparticles along with a P-gp inhibitor, elacridar. This hybrid nanoparticle system had high drug loading capacity, enabled both passive and active targeting of tumour tissues, and exhibited sequential and pH-triggered release of drugs. In vitro and in vivo studies in DOX-resistant breast cancer demonstrated the ability of the hybrid nanoparticles to reverse P-gp-mediated drug resistance. The nanoparticles were efficiently taken up by the breast cancer cells and delivered elacridar, in vitro. Biodistribution studies demonstrated substantial accumulation of the folate receptor-targeted PLGA/MSN hybrid nanoparticles in tumour-bearing mice. Moreover, deceleration of the tumour growth was remarkable in the animals administered with the DOX and elacridar co-loaded hybrid nanoparticles when compared to those treated with the marketed liposomal DOX (Caelyx®) or its combination with elacridar. [ABSTRACT FROM AUTHOR]

Published

2024

8. Reactivity of N terminal histidine of peptides towards excipients/impurity of excipients: A case study of liraglutide excipient compatibility study.

Author

Sheikh, Azahar R., Vitore, Jyotsna G., Bhalekar, Vijay S., Jain, Sonali, Kukreja, Divya, Giri, Tushar, Sharma, Nitish, Benival, Derajram, and Shah, Ravi P.

Subjects

*PEPTIDES, *HYDROGEN-deuterium exchange, *GLYCOLIC acid, *LACTIC acid, *POLYETHYLENE glycol

Abstract

The selection of quality excipients is a crucial step in peptide formulation development. Apart from excipient incompatibility, process-related impurities or degradants of an excipient can interact with peptide-active pharmaceutical ingredients, forming the interaction products. The formaldehyde has been reported as an impurity of excipient in polyethylene glycol, glycerol, magnesium stearate, microcrystalline cellulose, mannitol, etc. The peptide contains various amino acids such as histidine, lysine, and arginine having free amine groups. These amine groups act as strong nucleophile and can increase the reactivity of peptides. PLGA is the most widely used biodegradable polymer in sustained-release formulations. The hydrolysis of PLGA generates glycolic acid and lactic acid impurities, which can form the interaction product with the amines of peptides. During the formulation development of Liraglutide, we have found few interaction products. The systematic characterization and mechanistic understanding of these interaction products lead us to imidazopyrimidine, glycolyl, and lactolyl moieties. These interaction products have been characterized thoroughly with the use of LC-HRMS, MS/MS, and hydrogen-deuterium exchange mass studies. The study revealed that the reactivity of N-terminal histidine must be considered for formulation development. Moreover, the quality of excipients with respect to presence of impurities must be considered as critical material attributes. [ABSTRACT FROM AUTHOR]

Published

2024

9. A clinical and novel dermoscopic investigation of combined peels as a hand aging treatment.

Author

Yenny, Satya Wydya, Julia, Dwi Sabtika, Lestari, Andriani Fuji, Al Hazmi, Auliya, and Ilmiawati, Cimi

Subjects

*SKIN aging, *CHEMICAL peel, *GLYCOLIC acid, *PATIENT satisfaction, *DERMOSCOPY

Abstract

Background: The hands are one of the areas where skin aging is most noticeable, alongside the face, but limited studies used dermoscopic evaluation on hand aging. The Dermoscopy Photoaging Scale (DPAS) is frequently used to assess face aging but is never used for hand aging. Treating skin aging using chemical peeling is a commonly used method to rejuvenate the skin on the hands, as it is relatively affordable. Using multiple chemical peels may yield more significant results. Aims: To determine the effectiveness of a chemical peeling combination in retarding hand aging and to assess the utility of DPAS in this process. Methods: This study involved 69 Fitzpatrick skin types III–IV volunteers aged 20–69. One hand of each participant was treated with 20% glycolic acid (GA), while the other received a combination of peels consisting of 20% GA and 15% trichloroacetic acid (TCA). The hands were clinically examined before and after the treatments, and dermoscopic examinations were performed using a modified DPAS. Results: Four treatments improved clinical and dermoscopic characteristics in both hands. The combined peeling considerably improved pigmentation intensity on the dorsal hand compared to the GA peel (p < 0.001). Post‐chemical peeling patient satisfaction increased significantly. Conclusions: The modified DPAS is a valuable instrument to assess the signs of hand aging. The combination of GA and TCA effectively improves skin aging of the hands and offers an accessible and economical option for addressing skin aging. [ABSTRACT FROM AUTHOR]

Published

2024

10. Investigating the structural characteristics of nanoencapsulation white tea extract using polylactic glycolic acid (PLGA).

Author

Ahmadi, Elham, Mollania, Nasrin, Latifi, Zahra, Elhamirad, Amir Hossein, and Nia, Ahmad Pedram

Abstract

The objective of the present study is to optimize the extraction of white tea extract (WTE) containing the highest concentration of polyphenolic compounds (TPC) under ultrasound intensity, ultrasound time, and different solvents, and then to investigate the effect of nanoencapsulation using PLGA on the structural characteristics of the optimized extract. The results of the investigation showed the effect of the time and intensity of ultrasound as well as the type of solvent used on the extraction performance of the extract. Thus, the optimal conditions were obtained by using methanol solvent and applying 15 min of time and 70% ultrasound intensity to extract the extract with the highest antioxidant capacity and maximum TPC, respectively, at the rate of 77.65% and 68.38 mg/g. The preparation of white tea extract nanocapsules (WTE-NCs) using PLGA was based on solvent-emulsion evaporation and ultrasound. WTE-NCs were investigated in terms of efficiency and release of WTE micro-coating and structural properties through particle size determination, morphological analysis, and FT-IR. The micro-coating efficiency was 91.89% on the first day, which decreased to 76.16% after 22 days. The particle size analysis results showed that WTE-NCs with a particle size of 68.36 nm increased to 447.23 nm after six months. In terms of morphology, WTE-NCs had a spherical structure. The present study's findings showed that micro-coating using PLGA can effectively protect and cover WTE. [ABSTRACT FROM AUTHOR]

Published

2024

11. Physical pressure resistance of gastrointestinal anastomotic site via plate of polyglycolic acid promoting fibrosis.

Author

Tanda, Hideki, Shibutani, Masatsune, Natsuki, Seiji, Kasashima, Hiroaki, Fukuoka, Tatsunari, and Maeda, Kiyoshi

Subjects

*ANIMAL experimentation, *CECUM, *ABDOMINAL surgery, *SUTURES, *FIBROSIS

Abstract

Anastomotic-leakage incidence has been reported to be reduced on using polyglycolic acid (PGA) sheets as reinforcing materials; however, there is insufficient evidence regarding the reinforcement mechanism. Therefore, we investigated effects of PGA sheets on gastrointestinal anastomoses in rats. In the first approach, five rats underwent laparotomy; the PGA sheet was pasted onto the normal cecal wall. After five days, the cecum was removed and histologically evaluated. In the second approach, ten rats were randomly divided into two groups of five animals each. The rats underwent laparotomy; the cecal wall was sutured after a full-thickness incision. In the PGA group, a PGA sheet was used to cover the suture area. After 5 days, the cecum was removed, and the physical pressure resistance was evaluated. We confirmed the growth of a fibrous capsule measuring 855 (648–1048) µm outside the cecal serosa in the first approach. The median pressure resistance in the second approach was 57.0 (45.0–90.0) and 90.0 (82.5–94.5) mmHg in Control and PGA groups, respectively. The pressure resistance was significantly higher in the PGA group (p = 0.046). In summary, the PGA sheet may form a barrier of fibrosis on the intestinal wall and provide reinforcement to prevent anastomotic leakage. [ABSTRACT FROM AUTHOR]

Published

2024

12. A Stone‐Cottage‐Inspired Printing Strategy to Build Microsphere Patterned Scaffolds for Accelerated Bone Regeneration.

Author

Chen, Zhigang, Wang, Xiao, Liu, Juan, Liu, Kaizheng, Li, Shun, Wu, Mingming, Wu, Zhongqing, Wang, Zhenming, Shi, Yu, and Ruan, Changshun

Subjects

*CELL communication, *POLYMERIC composites, *CELLULAR control mechanisms, *TISSUE engineering, *CELL differentiation, *GLYCOLIC acid, *BONE regeneration

Abstract

The physical microtopography, in an effective and stable manner, can powerfully confer biomaterials with enhanced osteoconduction for the repair of critical‐sized bone defects. However, the realization of the osteoconductive microtopography within a 3D porous scaffold is still unmet. Herein, this work presents a stone‐cottage‐inspired printing strategy to build microsphere patterned scaffolds with a tunable microtopography for accelerated bone regeneration. The customized composite inks of poly (lactic‐co‐glycolic acid) microspheres as “Stone” and alginate hydrogels as “Mortar” endow the fibers of as‐printed scaffolds with a stable and tunable groove‐ridge microstructure. Owing to this microtopography, microsphere patterned scaffolds significantly promote cell recruitment, immune response, angiogenesis, and osteogenesis. Meanwhile, compared to 55 and 85 µm, 25 µm width of groove‐ridge microstructure displays the most osteoconduction for repair of critical bone defects. Mechanistically, while cells prefer to adhere to microstructure with a bigger width and higher modulus in the early phase, this microstructure should also act as a barrier for cell growth and its smaller width is more beneficial for cell communication and differentiation in the later phase. Overall, it provides a robust strategy to fabricate the osteoconductive microtopography within a 3D scaffold, broadening the manipulation of physical morphology in tissue engineering. [ABSTRACT FROM AUTHOR]

Published

2024

13. Effects of Thioglycolate Compounds in an Emerging Technique in the World of Cosmetics—Brow Lamination.

Author

Ghanem, Laura, Chagoury, Stephani, Issa, Andrea, Khoury, Kaline Maya, Karam, Kelly Katherine, and Makhlouf, Milissa

Subjects

*THIOGLYCOLIC acid, *CONTACT dermatitis, *CHEMICAL reactions, *EYEBROWS, *COSMETICS

Abstract

ABSTRACT Background Aims Results Conclusion The side effects of two related chemicals, ammonium thioglycolate (ATG) and thioglycolic acid (TGA) have been widely highlighted in the world of cosmetics. These thioglycolate compounds are considered essential ingredients in a new technique known as brow lamination. This technique is widely used nowadays, with the aim of changing the eyebrow shape.To our knowledge, this is the first study to address the possible side effects of brow lamination.The hydrophilic characteristic of ATG and TGA reflects their transdermal absorption through the intracellular and transappendageal pathways. These compounds can affect the skin through allergic contact dermatitis (ACD), characterized by skin irritation, dryness, and erythema. Moreover, these thioglycolates can alter several mechanical and chemical reactions in the eyebrows' hair, therefore affecting their shape, structure, and pigmentation. In addition, these chemicals contained in brow lamination can exert systemic manifestations, at the level of the reproductive, ocular, respiratory, and endocrine systems.More studies should be elaborated to shed light on the possible side effects of this trend. Additionally, further regulations should be taken into consideration to ensure the concentration and the measures applied are convenient to minimize these side effects. [ABSTRACT FROM AUTHOR]

Published

2024

14. Self-setting calcium phosphate cement scaffolds with pre-forming and in-situ forming interconnected macropores: Comparative study in vitro and in vivo.

Author

Qian, Guowen, Fan, Peirong, and Ye, Jiandong

Subjects

*STEM cell culture, *MESENCHYMAL stem cells, *CALCIUM phosphate, *ALKALINE phosphatase, *COMPRESSIVE strength, *POLYCAPROLACTONE, *GLYCOLIC acid

Abstract

Creating interconnected macropores in calcium phosphate cement (CPC) is an effective strategy to promote its degradation and osteogenesis. However, little attention has been given to the osteogenic effect of the CPC scaffolds with pre-forming and in-situ forming interconnected macropores. Herein, two types of CPC scaffolds were prepared by infiltrating CPC pastes into 3D-printed polycaprolactone (PCL) and poly(lactic-co-glycolic acid) (PLGA) networks. Meanwhile, the sacrificial PCL network within CPC was dissolved to obtain the CPC scaffold with approximately 300 μm macropores, whereas the PLGA network was retained within the CPC to obtain the PLGA/CPC scaffold. The results indicated that the PLGA/CPC scaffold showed higher degradation rate and compressive strength compared to the CPC scaffold with pre-forming interconnected macropores. However, the proliferation rate and alkaline phosphatase activity of mouse bone mesenchymal stem cells cultured with the CPC scaffold were superior to those cultured with the PLGA/CPC scaffold. In addition, greater formation of new bone and material degradation in the CPC scaffold compared to the PLGA/CPC scaffold after implanted in the rabbit femoral defects. [ABSTRACT FROM AUTHOR]

Published

2024

15. Development of a Rapid Detection Method for Ethylene Glycol and Glycolic Acid in Feline Samples: A Response to Increasing Antifreeze Poisoning Incidents in Korea.

Author

Chae, HyunYoung, Byun, Jae Won, Shin, Go-Eun, Lee, Kyung Hyun, Kim, Ah-Young, Ku, Bok-Kyung, Hossain, Md Akil, Kim, Tae-Wan, and Kang, JeongWoo

Subjects

*FORENSIC sciences, *ACUTE kidney failure, *ANTIFREEZE solutions, *ANIMAL welfare, *PETS, *ETHYLENE glycol

Abstract

Recently, cases of antifreeze poisoning in companion animals, particularly cats, have surged in the Republic of Korea. Ethylene glycol (EG), the toxic primary component of antifreeze, is metabolized into glycolic acid (GA), leading to severe metabolic acidosis, acute kidney injury, and death. Traditional detection methods, although effective, are often time-consuming owing to complex sample preparation. This study involved a novel analytical method utilizing GC-MS for EG and LC-MS/MS for GA detection, which streamlined the detection process by eliminating the need for derivatization. The method was validated for accuracy and reliability, enabling the rapid and precise identification of EG and GA in biological samples. This study also included the successful application of this method in a case where initial exposure to antifreeze was not apparent, which highlighted the effectiveness of this method in diagnosing poisoning even in cases where clinical history is unclear. The development of this rapid diagnostic approach addresses the urgent need for the efficient detection of antifreeze poisoning, improving animal welfare and supporting forensic investigations. [ABSTRACT FROM AUTHOR]

Published

2024

16. Development of an Injectable DNA Vaccine Against Aeromonas hydrophila Infection Nanoencapsulated With Poly(Lactic‐Co‐Glycolic) Acid (PLGA) in Common Carp.

Author

Alishahi, Mojtaba, Lababian, Hoda, Heidari, Hadi, Tabandeh, Mohammad Reza, Khosravi, Mohammad, and Bailey, Christyn

Subjects

*CARP, *AEROMONAS hydrophila, *DNA vaccines, *ANTIBODY titer, *INTRAMUSCULAR injections, *GLYCOLIC acid

Abstract

In this study, we developed an injectable DNA vaccine targeting the aopB gene of Aeromonas hydrophila, encapsulated within poly(lactic‐co‐glycolic acid) (PLGA) nanoparticles, for use in common carp. Juvenile common carp were divided into six groups with three replicates each. Groups A and B received intramuscular injections of the plasmid containing the target gene (pCDNA3.1‐aopB) with or without encapsulation, respectively. Groups C and D received the plasmid lacking the target gene via the same route. Group E received PLGA, while Group F (control) received phosphate‐buffered saline. Sampling occurred on days 0, 30, and 60, and hematological and immunological indices were compared among the groups. On day 60, all groups were challenged with Aeromonas hydrophila, and cumulative mortality rates were assessed. Our results indicated successful detection of the target gene in various tissues of vaccinated fish. Notably, vaccinated groups exhibited a significant decrease in cumulative mortality (p < 0.05). Immunological indices, such as serum antibody titer and nonspecific immune responses, significantly improved in vaccinated groups, particularly those receiving the DNA vaccine with PLGA encapsulation (p < 0.05). Overall, the DNA vaccine, especially when nanoencapsulated with PLGA, demonstrated efficacy and immunogenicity against A. Hydrophila in common carp, suggesting its potential as a vaccination strategy against this infection. Further research could optimize its effectiveness and applicability. [ABSTRACT FROM AUTHOR]

Published

2024

17. Inspiration of Bimetallic Peroxide for Controllable Electrooxidizing Ethylene Glycol Through Modulating Surficial Intermediates.

Author

Lin, Yan, Chen, Yao, Ren, Hao, Sun, Yuanyuan, Chen, Jinhui, Wu, Mingbo, and Li, Zhongtao

Subjects

*BIMETALLIC catalysts, *ETHYLENE glycol, *OXYGEN evolution reactions, *METAL catalysts, *HYDROGEN evolution reactions

Abstract

Biomass feedstock ethylene glycol (EG) can be anodically oxidized to the high‐value glycolic acid (GA), which is widely considered as one critical raw material of biodegradable plastics. Developing low‐cost electrocatalyst to economically produce GA with high selectivity still meeting challenges. Herein, a non‐precious Co‐Ni bimetal catalysts are developed for controllable electrooxidizing EG to GA (EGOR). Through regulating the generation of key intermediate (CH2OH‐CO*) on the low‐cost catalyst surface, a successive electrooxidation from EG to GA has been achieved with high selective (96.3%) and conversion rate (>85%) at current density of 150 mA cm−2, which is on par with the reported precious metal catalysts. Through coupling with hydrogen evolution reaction (EGOR‐HER), 2.759 mmol H2 and 7.48 mmol of GA are generated at 80 mA cm−2, which also can save 27% energy comparing with a water splitting system. The synergistic effect between Co and Ni in the bimetallic catalyst has been exploited: high‐valent CoOOH sites catalyzed the generation of CH2OH‐CO* and reduce the energy barrier during GA formation; Whereas, Ni sites can effectively facilitate the formation of CoOOH and improve the adsorption of EG. [ABSTRACT FROM AUTHOR]

Published

2024

18. Enhanced Oxalic Acid Electroreduction Selectivity toward Glyoxylic Acid on Ti3+‐Self‐Doped TiO2 Nanotube Arrays.

Author

Wu, Yukun, Ullah, Siraj, Hu, Shuozhen, and Zhang, Xinsheng

Subjects

*CONDUCTION bands, *GLYCOLIC acid, *SULFURIC acid, *ELECTROLYTIC reduction, *MASS transfer

Abstract

Electroreduction of oxalic acid (OX) to glyoxylic acid (GO) is an extremely important and promising application in organic electrosynthesis. Pb cathodes, which exhibits good selectivity, need to be replace due to the severe deactivation and harmful to the environment. Herein, self‐doped titanium dioxide nanotube arrays (H‐TiO2NTs‐2) are synthesized as an alternative cathode for OX electroreduction to GO. Benefiting from two‐step anodization, the synthesized nanotube arrays are highly ordered with oriented openings. The ordered structure promotes the mass transfer of both OX and GO to ensure efficiently providing OX reactants for the diffusion‐controlled OX electroreduction and removal of GO products from the electrode to prevent the over‐reduction to glycolic acid. Additionally, the electroreduction treatment introduces more Ti3+ active sites and modulates the conduction band position of H‐TiO2NTs‐2, thereby enhancing the reduction driving force. Owing to the unique structural advantages, the Faraday efficiency of generating GO from OX reaches up to 81.3 % in an oxalic acid saturated electrolyte at 20 °C with a current density of 1500 A m−2. This designed H‐TiO2NTs‐2 holds broad application prospects in OX electroreduction. [ABSTRACT FROM AUTHOR]

Published

2024

19. Can pre-analytical procedures improve microbiological culture yield in patients with periprosthetic infections?

Author

Käschner, Juliane, Theil, Christoph, Gosheger, Georg, Schwarze, Jan, Pützler, Jan, Schaumburg, Frieder, and Möllenbeck, Burkhard

Subjects

*PROSTHESIS-related infections, *TISSUE culture, *MICROBIAL cultures, *THIOGLYCOLIC acid, *CROSS-sectional method

Abstract

Background: The detection of causative pathogens plays a crucial role in the diagnosis and targeted treatment of periprosthetic joint infections (PJI). While there have been improvements in analytic methods in the past, pre-analytical procedures have not yet been sufficiently investigated. The objective of this study was to compare the culture yield of four different pre-analytical procedures. Methods: Patients with perioperative diagnosis of PJI were included in a single center cross-sectional study (2021–2022). Tissue samples (n = 20) of each patient were randomly and equally distributed to each of the four study arms. Tissue samples were either send to the laboratory without culture medium (group A) or were transported in thioglycolate medium immediately after sampling at three different temperatures (room temperature, 4 °C, 37° for 24 h; group B-D). Culture media were investigated for growth on days 1, 3, 7, 12, 14. All organisms, the number of positive samples and the time to positivity were recorded and compared between the study arms. Single positive cultures were considered as contamination. Results: In total, 71 patients were included. The proportions of culture negative samples (10–15%) and polymicrobial infections (51–54%) were comparable between the four arms. Seven patients (10%) were culture-negative in group A, but showed growth in thioglycolate media (group B-D). Furthermore, 13% of patients showed growth in all groups, but additional organisms were cultured in thioglycolate. There was growth beyond day 7 of culturing only in thioglycolate, but not in group A. A storage temperature of 4 °C showed a longer time to positivity compared to the other groups (p < 0.001). Conclusions: Pre-analytical storage of tissue samples in thioglycolate broth did not improve the culture yield and did not detect additional cases of infection compared to the standard (pre-analytical storage in sterile containers). However, including a thioglycolate medium to the sampling algorithm reduced the rate of culture-negative infections and helped to identify additional organisms. [ABSTRACT FROM AUTHOR]

Published

2024

20. Exploring Deep Eutectic Solvents as Pharmaceutical Excipients: Enhancing the Solubility of Ibuprofen and Mefenamic Acid.

Author

Nica, Mihaela-Alexandra, Anuța, Valentina, Nicolae, Cristian Andi, Popa, Lăcrămioara, Ghica, Mihaela Violeta, Cocoș, Florentina-Iuliana, and Dinu-Pîrvu, Cristina-Elena

Subjects

*DRUG solubility, *SUSTAINABLE chemistry, *DRUG delivery systems, *MEFENAMIC acid, *GLYCOLIC acid, *CHOLINE chloride, *MENTHOL

Abstract

Objectives: The study explores the potential of various deep eutectic solvents (DESs) to serve as drug delivery systems and pharmaceutical excipients. The research focuses on two primary objectives: evaluating the ability of the selected DES systems to enhance the solubility of two poorly water-soluble model drugs (IBU and MFA), and evaluating their physicochemical properties, including density, viscosity, flow behavior, surface tension, thermal stability, and water dilution effects, to determine their suitability for pharmaceutical applications. Methods: A range of DES systems containing pharmaceutically acceptable constituents was explored, encompassing organic acid-based, sugar- and sugar alcohol-based, and hydrophobic systems, as well as menthol (MNT)-based DES systems with common pharmaceutical excipients. MNT-based DESs exhibited the most significant solubility enhancements. Results: IBU solubility reached 379.69 mg/g in MNT: PEG 400 (1:1) and 356.3 mg/g in MNT:oleic acid (1:1), while MFA solubility peaked at 17.07 mg/g in MNT:Miglyol 812®N (1:1). In contrast, solubility in hydrophilic DES systems was significantly lower, with choline chloride: glycerol (1:2) and arginine: glycolic acid (1:8) showing the best results. While demonstrating lower solubility compared to the MNT-based systems, sugar-based DESs exhibited increased tunability via water and glycerol addition both in terms of solubility and physicochemical properties, such as viscosity and surface tension. Conclusions: Our study introduces novel DES systems, expanding the repertoire of pharmaceutically acceptable DES formulations and opening new avenues for the rational design of tailored solvent systems to overcome solubility challenges and enhance drug delivery. [ABSTRACT FROM AUTHOR]

Published

2024

21. Fabricating Biodegradable Tissue Scaffolds Through a New Aggregation Triggered Physical Cross‐Linking Strategy of Hydrophilic and Hydrophobic Polymers.

Author

Kaga, Elif and Kaga, Sadik

Subjects

*METHYL methacrylate, *TISSUE scaffolds, *ETHYLENE glycol, *CHEMICAL reactions, *METHYL ether, *GLYCOLIC acid

Abstract

In the study, a new strategy is presented to make PLGA (poly lactic‐co‐glycolic acid) and POEGMEMA (poly(oligo(ethylene glycol) methyl ether methacrylate)) based biodegradable and biocompatible tissue scaffold via a new physical cross‐linking method. The advantage of brushed structure of POEGMEMA polymer and the hydrophobic character of PLGA polymer is taken to make physically entangled network in aqueous media. The hydrophobic nature of PLGA allows to get scaffolds even at low ratio of PLGA (25%, w/w) when using POEGMEMA (yield: 86%). This strategy gives robust polymeric networks in aqueous media without using chemical reactions through high hydrophilic polymer content. Scaffolds with high POEGMEMA ratio (75%, w/w) show two times higher water uptake ratio (≈300%) and two times lower compression strength (19 kPa) compared to the ones with lower POEGMEMA content (50%, w/w). They also show desired degradation profiles in various aqueous solutions. While the scaffolds prepared with 25% and 50% PLGA are almost stable in first 20 days, they completely degrade in 40–50 days. Both scaffold formulations (25% PLGA‐75% POEGMEMA and 50% PLGA‐50% POEGMEMA) have similar proliferative properties for fibroblast cells. The scaffolds also do not show toxicity compared to control group according to live‐dead assay. [ABSTRACT FROM AUTHOR]

Published

2024

22. Antiaging Metabolite‐Based Polymeric Microparticles for Intracellular Drug Delivery and Bone Regeneration.

Author

Wang, Zhuozhi, Hu, Jue, Marschall, Jeffrey S., Yang, Ling, Zeng, Erliang, Zhang, Shaoping, and Sun, Hongli

Subjects

*KREBS cycle, *MESENCHYMAL stem cells, *CYTOTOXINS, *REGENERATIVE medicine, *BONE marrow, *BONE regeneration, *GLYCOLIC acid

Abstract

α‐ketoglutarate (AKG), a key component of the tricarboxylic acid cycle, has attracted attention for its antiaging properties. In the recent study, it is indicated that locally delivered cell‐permeable AKG significantly promotes osteogenic differentiation and mouse bone regeneration. However, the cytotoxicity and rapid hydrolysis of the metabolite limit its application. In this study, novel AKG‐based polymeric microparticles (PAKG MPs) are synthesized for sustained release. In vitro data suggest that the chemical components, hydrophilicity, and size of the MPs can significantly affect their cytotoxicity and pro‐osteogenic activity. Excitingly, these biodegradable PAKG MPs are highly phagocytosable for nonphagocytic pre‐osteoblasts MC3T3‐E1 and primary bone marrow mesenchymal stem cells, significantly promoting their osteoblastic differentiation. RNA‐Sequencing (RNA‐Seq) data suggest that PAKG MPs strongly activate Wnt/β‐catenin and PI3K–Akt pathways for osteogenic differentiation. Moreover, PAKG enables poly(L‐lactic acid) and poly(lactic‐co‐glycolic acid) MPs (PLGA MPs) for efficient phagocytosis. In this data, it is indicated that PLGA–PAKG‐MPs‐mediated intracellular drug delivery can significantly promote stronger osteoblastic differentiation compared to PLGA‐MPs‐delivered phenamil. Notably, PAKG MPs significantly improve large bone regeneration in a mouse cranial bone defect model. Thus, the novel PAKG‐based MPs show great promise to improve osteogenic differentiation and bone regeneration and enable efficient intracellular drug delivery for broad regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2024

23. Nanospheres for curcumin delivery as a precision nanomedicine in cancer therapy.

Author

Mahjoubin-Tehran, Maryam, Rezaei, Samaneh, Kesharwani, Prashant, and Sahebkar, Amirhossein

Subjects

*COMBINATION drug therapy, *METHYL methacrylate, *TURMERIC, *GLYCOLIC acid, *LACTIC acid, *CURCUMINOIDS

Abstract

Cancer is ranked among the top causes of mortality throughout the world. Conventional therapies are associated with toxicity and undesirable side effects, rendering them unsuitable for prolonged use. Additionally, there is a high occurrence of resistance to anticancer drugs and recurrence in certain circumstances. Hence, it is essential to discover potent anticancer drugs that exhibit specificity and minimal unwanted effects. Curcumin, a polyphenol derivative, is present in the turmeric plant (Curcuma longa L.) and has chemopreventive, anticancer, radio-, and chemo-sensitizing activities. Curcumin exerts its anti-tumor effects on cancer cells by modulating the disrupted cell cycle through p53-dependent, p53-independent, and cyclin-dependent mechanisms. This review provides a summary of the formulations of curcumin based on nanospheres, since there is increasing interest in its medicinal usage for treating malignancies and tumors. Nanospheres are composed of a dense polymeric matrix, and have a size ranging from 10 to 200 nm. Lactic acid polymers, glycolic acid polymers, or mixtures of them, together with poly (methyl methacrylate), are primarily used as matrices in nanospheres. Nanospheres are suitable for local, oral, and systemic delivery due to their minuscule particle size. The majority of nanospheres are created using polymers that are both biocompatible and biodegradable. Previous investigations have shown that the use of a nanosphere delivery method can enhance tumor targeting, therapeutic efficacy, and biocompatibility of different anticancer agents. Moreover, these nanospheres can be easily taken up by mammalian cells. This review discusses the many curcumin nanosphere formulations used in cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

24. Antibiotic-loaded nanoparticles for the treatment of intracellular methicillin-resistant Staphylococcus Aureus infections: In vitro and in vivo efficacy of a novel antibiotic.

Author

Costabile, Gabriella, Baldassi, Domizia, Müller, Christoph, Groß, Birgit, Ungaro, Francesca, Schubert, Sören, Firestine, Steven M., and Merkel, Olivia M.

Subjects

*STAPHYLOCOCCUS aureus infections, *METHICILLIN-resistant staphylococcus aureus, *GREATER wax moth, *LUNG infections, *CYSTIC fibrosis, *GLYCOLIC acid

Abstract

Antimicrobial resistance is considered one of the biggest threats to public health worldwide. Methicillin-resistant S. aureus is the causative agent of a number of infections and lung colonization in people suffering from cystic fibrosis. Moreover, a growing body of evidence links the microbiome to the development of cancer, as well as to the success of the treatment. In this view, the development of novel antibiotics is of critical importance, and SV7, a novel antibiotic active against MRSA at low concentrations, represents a promising candidate. However, the low aqueous solubility of SV7 hampers its therapeutic translation. In this study, SV7 was encapsulated in poly(lactic- co -glycolic acid) (PLGA) nanoparticles (NPs) to improve the solubility profile, to ensure sustained release and eventually support deposition in the airways. Furthermore, PLGA NPs were formulated as dry powder to extend their shelf-life and were shown to efficiently target intracellular infections. After identifying a formulation with suitable physico-chemical characteristics, SV7-loaded NPs were investigated in vitro in terms of inhibitory activity against MRSA, and their safety profile in lung epithelial cells. Subsequently, the activity against MRSA intracellular infections was investigated in a co-culture model of MRSA and macrophages. To test the translatability of our findings, SV7-loaded NPs were tested in vivo in a Galleria mellonella infection model. In conclusion, SV7-loaded NPs showed a safe profile and efficient inhibitory activity against MRSA at low concentrations. Furthermore, their activity against intracellular infections was confirmed, and was retained in vivo , rendering them a promising candidate for treatment of MRSA lung infections. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

25. Beneficial base substitutions in Escherichia coli fucO gene for enhancement of glycolic acid production.

Author

Nemoto, Mayu, Muranushi, Wataru, Shuting, Chen, Saito, Yusuke, Sugimori, Daisuke, and Yamada, Miwa

Subjects

*ESCHERICHIA coli, *GENE expression, *ETHYLENE glycol, *INDUSTRIAL wastes, *AMINO acids

Abstract

Microbial production of glycolic acid (GA) from ethylene glycol is extensively used in a variety of industries because ethylene glycol is not only an inexpensive raw material but also the main component of industrial wastes. In this study, we produced GA from ethylene glycol using Escherichia coli overexpressing the endogenous 1,2-propanediol oxidoreductase (fucO) and lactaldehyde dehydrogenase (aldA) genes. To increase GA productivity, we screened a random mutant library generated using an error-prone polymerase chain reaction of fucO and obtained FucO mutants MF2-9 and MF6-9 with enhanced GA production in Lysogeny Broth medium containing 800 mM ethylene glycol. MF2-9 contained three amino acid substitutions (D23E, E222K, and G363S) and two synonymous mutations (coding DNA [c.] 93G > A and c.1131T > C) in fucO. MF6-9 contained one amino acid substitution (L377H) in FucO. An amino acid substitution (L377H) and a single synonymous mutation (c.1131T > C) in fucO contributed to the enhancement in GA production. Notably, cell lysates from E. coli harboring a synonymous mutation (c.1131T > C) or amino acid substitution (L377H) in fucO showed that only AldA activity was 1.3-fold higher than that of the cell lysate from E. coli harboring the wild-type fucO. We confirmed that c.1131T > C and L377H mutations increased aldA expression in E. coli. Analysis of mRNA levels and simulation of mRNA stabilization indicated that base substitutions at positions c.1130T, which corresponds to L377H amino acid substitution, and c.1131T increased aldA expression due to partial destabilization of the mRNA. These findings will be useful for the large-scale microbial production of GA from industrial waste. [ABSTRACT FROM AUTHOR]

Published

2024

26. The Internalization Pathways of Liposomes, PLGA, and Magnetic Nanoparticles in Neutrophils.

Author

Garanina, Anastasiia, Vishnevskiy, Daniil, Chernysheva, Anastasia, Malinovskaya, Julia, Lazareva, Polina, Semkina, Alevtina, Abakumov, Maxim, and Naumenko, Victor

Subjects

CELL receptors, MAGNETIC nanoparticles, FC receptors, NANOPARTICLES, TRANSMISSION electron microscopy, GLYCOLIC acid, IMMUNOGLOBULIN M

Abstract

Background/Objectives: Neutrophils are emerging as promising candidates for cell-based nanodrug delivery to tumors due to their unique biological properties. This study aims to investigate the mechanisms of nanoparticle internalization by neutrophils, specifically focusing on liposomes, poly(lactic-co-glycolic acid) (PLGA), and magnetite nanoparticles. Understanding these mechanisms could enhance the efficiency of neutrophil-based nanodrug delivery for cancer treatment. Methods: Neutrophils were isolated from the peripheral blood of mice bearing 4T1 mammary adenocarcinoma. Confocal microscopy, transmission electron microscopy, and flow cytometry were employed to evaluate the uptake of liposomes, PLGA, and magnetite nanoparticles by neutrophils. The effects of cultivation conditions, such as the presence or absence of plasma in the growth medium, were also examined. Additionally, the roles of immunoglobulins (IgG/IgM) and cell surface receptors (Fc and scavenger receptors) in nanoparticle internalization were explored. Results: All types of nanoparticles were successfully internalized by neutrophils, though the mechanisms of uptake varied. Plasma presence in the medium significantly influenced nanoparticle binding, particularly for PLGA nanoparticles. Internalization of PLGA nanoparticles was found to depend on the presence of IgG/IgM in the medium and Fc receptors on neutrophil surfaces, while scavenger receptors were not involved. Conclusions: Understanding the distinct endocytosis pathways for different nanoparticles can improve the efficacy of neutrophil loading with nanodrugs, potentially advancing the development of neutrophil-based cancer therapies. The findings underscore the importance of the extracellular environment in modulating nanoparticle uptake. [ABSTRACT FROM AUTHOR]

Published

2024

27. Mechano‐Electrochemical Behavior of Nanostructured Li‐ and Mn‐Rich Layered Oxides with Superior Capacity Retention and Voltage Decay for Sulfide‐Based All‐Solid‐State Batteries.

Author

Song, Gawon, Lee, Suyeon, Kim, Taehun, Jung, Min Soo, Kim, Kanghyeon, Choi, Seung Hyun, Lee, Seunghyun, Park, Junsung, Lee, Minseon, Park, Chanhwi, Kwon, Mi‐Sook, and Lee, Kyu Tae

Subjects

*SOLID electrolytes, *ENERGY density, *THIOGLYCOLIC acid, *OXIDATION-reduction reaction, *HIGH temperatures, *ELECTROCHEMICAL electrodes

Abstract

Li‐ and Mn‐rich layered oxides (LMROs) are recognized as promising cathode materials for lithium‐ion batteries (LIBs) due to their high specific capacity and cost efficiency. However, LMROs encounter challenges such as manganese dissolution in electrolytes and the release of oxygen gas from irreversible oxygen redox reactions, leading to structural degradation and voltage decay that reduce energy density. Consequently, recent research has shifted toward employing LMROs in all‐solid‐state batteries (ASSBs), where Mn dissolution is negligible. Herein, nanostructured LMROs demonstrate superior electrochemical compatibility with sulfide‐based solid electrolytes in ASSBs compared to conventional LIBs. Nanostructured LMRO exhibits outstanding capacity retention (97.1% after 1300 cycles at 30 °C) with significantly suppressed voltage decay. Furthermore, the initial electrochemical activation of Li2MnO3 domains within LMRO is explored in terms of the mechano‐electrochemical interactions in the composite cathode. At elevated temperatures, interfacial degradation accelerates due to the chemical oxidation of Li6PS5Cl solid electrolytes, driven by oxygen released from LMRO. To address this, LMRO surfaces are modified with thioglycolic acid through esterification, suppressing interfacial degradation of Li6PS5Cl and ensuring stable capacity retention over 500 cycles at 60 °C. These findings underscore the potential of LMRO materials as promising cathode options for ASSBs, surpassing those used in LIBs. [ABSTRACT FROM AUTHOR]

Published

2024

28. Anti-angiogenic activity of polymeric nanoparticles loaded with ursolic acid.

Author

Inoue, Thomas Toshio, Viana Pereira, Vinicius, Faria de Sousa, Grasiely, Nunes Dourado, Lays Fernanda, and da Silva Cunha-Junior, Armando

Subjects

*URSOLIC acid, *NEOVASCULARIZATION inhibitors, *DRUG delivery systems, *BLOOD vessels, *NATURAL products, *GLYCOLIC acid

Abstract

AbstractUrsolic acid (UA) is an abundant natural product and has shown great promise for treating diseases related to the appearance of new blood vessels. However, its clinical use is limited due to its low solubility in aqueous media, resulting in reduced bioavailability. The present study aimed to synthetize poly(lactic-co-glycolic acid) nanoparticles loaded with UA by nanoprecipitation method and to evaluate the toxicity and anti-angiogenic activity using the in vivo chorioallantoic model. The nanoparticles were obtained in the size range that varied from 103.0 to 169.3 nm, they presented a uniform distribution (polydispersity index <0.2), and a negatively charged surface, with an encapsulation efficiency close to 50%. The release profile of the developed nanoformulation showed an initial burst in the first 2 h and demonstrated no acute toxicity (irritation index <0.9). Moreover, the chorioallantoic assay showed a significant reduction in both geometrical and topological parameters compared to saline control (p < .05). In conclusion, the study revealed a quick and simple way to obtain poly(lactic-co-glycolic) acid nanoparticles, a drug delivery system to UA, which showed potential antiangiogenic action and can be used to treat diseases involving neovascularisation. [ABSTRACT FROM AUTHOR]

Published

2024

29. Potential cycling boosts the electrochemical conversion of polyethylene terephthalate-derived alcohol into valuable chemicals.

Author

Zhao, Gui, Lin, Jiayi, Lu, Mengying, Li, Lina, Xu, Pengtao, Liu, Xi, and Chen, Liwei

Subjects

PRECIOUS metals, METAL catalysts, GLYCOLIC acid, ELECTRODE potential, X-ray absorption

Abstract

The electrocatalytic valorization of polyethylene terephthalate-derived ethylene glycol to valuable glycolic acid offers considerable economic and environmental benefits. However, conventional methods face scalability issues due to rapid activity decay of noble metal electrocatalysts. We demonstrate that a dynamic potential cycling approach, which alternates the electrode potential between oxidizing and reducing values, significantly mitigates surface deactivation of noble metals during electrochemical oxidation of ethylene glycol. This method enhances catalyst activity by 20 times compared to a constant-potential approach, maintaining this performance for up to 60 h with minimal deactivation. In situ Raman and X-ray absorption spectroscopy show that this effectiveness results from efficient removal of surface oxide during the reaction. The strategy is applicable to polyethylene terephthalate hydrolysates and various noble metals, such as palladium, gold, and platinum, with palladium showing a high conversion rate in recent studies. Our approach offers an efficient and durable method for electrochemical upcycling of biomass-derived compounds. The value-added electrochemical conversion of ethylene glycol using noble metal catalysts is often hindered by rapid deactivation. In this study, the authors present a dynamic potential cycling method that effectively suppresses oxide-induced deactivation and enhances both catalyst activity and stability. [ABSTRACT FROM AUTHOR]

Published

2024

30. Development of a Simvastatin‐Loaded Copolymer Acid‐Sensitive Nanocarrier and Its Experimental Use in the Treatment of Keloids.

Author

Zhuang, Bin‐yu, Hu, Fang‐chi, Gao, Xuan, Leng, Qi, Zhang, Ying, and You, Yan

Subjects

*ORAL drug administration, *SIMVASTATIN, *KELOIDS, *FIBROBLASTS, *NANOMEDICINE, *GLYCOLIC acid

Abstract

ABSTRACT Objective Methods Results Conclusion The lipid‐lowering simvastatin (SIM) has been shown to be an effective inhibitor of keloid proliferation. However, due to its low water solubility and short half‐life, simvastatin aggregates to the liver and does not reach the skin lesions after oral administration, which restricts its widespread clinical use. The development of nanomedicine provides the possibility for us to break through this bottleneck problem clinically. The objective of this study was to investigate the feasibility of using complex nanocontrolled delivery system (CNDS), simvastatin‐loaded polyethylene glycol‐poly lactic‐co‐glycolic acid (PEG‐PLGA), in the treatment of keloids.In the in vitro study, the release of simvastatin in fibroblasts by CNDS@Simvastatin and its effect on inhibition of the proliferation of fibroblasts, Col Ι, and CTGF by the slow release of simvastatin were assessed. The efficacy of CNDS@Simvastatin in improving keloids and the biocompatibility and safety of CNDS@Simvastatin were examined in vivo by establishing a murine ear keloid model.CNDS@Simvastatin showed sustained and uniform inhibition of the proliferation of fibroblasts, Col Ι, and CTGF via the gradual release of simvastatin over 72 h. It was efficient in the treatment of the murine ear keloid with no observable toxic side effects on various organs.Simvastatin‐loaded copolymer acid‐sensitive nanocarriers, CNDS@Simvastatin nanospheres, were successfully developed in this study, and these were characterized by favorable physicochemical properties and biocompatibility. [ABSTRACT FROM AUTHOR]

Published

2024

31. Immune, Oxidative, and Morphological Changes in the Livers of Tibetan Sheep after Feeding Resveratrol and β-Hydroxy-β-methyl Butyric Acid: A Transcriptome–Metabolome Integrative Analysis.

Author

Chen, Xuan, Zhang, Fengshuo, Raza, Sayed Haidar Abbas, Wu, Zhenling, Su, Quyangangmao, Ji, Qiurong, He, Tingli, Zhu, Kaina, Zhang, Yu, Hou, Shengzhen, and Gui, Linsheng

Subjects

*MALATE dehydrogenase, *SUCCINATE dehydrogenase, *FUMARATES, *GLYCOLIC acid, *GLUTATHIONE peroxidase, *THREONINE

Abstract

This study investigated the effects of dietary resveratrol (RES) and β-Hydroxy-β-methyl butyric acid (HMB) on immune, oxidative, and morphological changes in the livers of Tibetan sheep using transcriptomics and metabolomics. One hundred and twenty male Tibetan lambs of a similar initial weight (15.5 ± 0.14 kg) were randomly divided into four groups with thirty lambs per treatment: (1) H group (basal diet without RES or HMB); (2) H-RES group (1.5 g/day of RES); (3) H-HMB group (1250 mg/day of HMB); (4) H-RES-HMB group (1.5 g/day of RES and 1250 mg/day of HMB). The experiment was conducted for 100 days, including a pre-test period of 10 days and a formal period of 90 days. The results showed significantly increased concentrations of glutathione peroxidase, superoxide dismutase, and IgM in the H-RES-HMB group (p < 0.05), while the malondialdehyde levels were significantly decreased (p < 0.05). The glycolytic indices including creatinine kinase (CK), malate dehydrogenase (MDH), and succinate dehydrogenase (SDH) were significantly increased in the H-RES-HMB group compared with the others (p < 0.05). A histological analysis showed that the hepatic plate tissue in the H-RES-HMB group appeared normal with multiple cells. The transcriptomic analysis showed that the expression of genes associated with the calcium signaling pathway (MYLK2, CYSLTR2, ADCY1, HRH1, ATP2B2, NOS2, HRC, ITPR1, and CAMK2B) and the NF-κB signaling pathway (BCL2 and CARD14) in the H-RES-HMB group were upregulated. The key differential metabolites (d-pyroglutamic acid, DL-serine, DL-threonine, fumarate, and glyceric acid) were enriched in the pathways associated with D-amino acid metabolism, the citrate cycle (TCA cycle), and carbon metabolism. The combined transcriptomic and non-targeted metabolomic analyses showed the co-enrichment of differential genes (NOS2 and GLUD1) and metabolites (fumarate) in arginine biosynthesis-regulated glycolytic activity, whereas the differential genes (ME1, SCD5, FABP2, RXRG, and CPT1B) and metabolites (Leukotriene b4) co-enriched in the PPAR signaling pathway affected the immune response by regulating the PI3K/AKT and cGMP/PKG signaling. In conclusion, the dietary RES and HMB affected the hepatic antioxidant capacity, immune response, and glycolytic activity through modulating the transcriptome (BCL2, CAMK2B, ITPR1, and IL1R1) and metabolome (DL-serine, DL-threonine, fumaric acid, and glycolic acid). [ABSTRACT FROM AUTHOR]

Published

2024

32. Synthesis and characterization of multi-targeted polymeric antibody-microparticle conjugates with controlled drug release.

Author

Fernandez, Lucia, Oakes, Shannon, Cipullo, John, Moros, Cole, Hofman, Jenna, and Comolli, Noelle

Subjects

*CONTROLLED release drugs, *POLYMERIC drugs, *TUMOR antigens, *CANCER treatment, *CELL survival, *PACLITAXEL, *GLYCOLIC acid

Abstract

The presented experiments aimed to synthesize multi-targeted polymeric antibody-microparticles for the treatment of CD19+/CD20+ cancers. It is hypothesized that (1) targeting multiple tumor specific antigen (TSA) improves drug delivery by increasing binding in patients with low TSA expression and (2) polymeric drug encapsulation enables controlled drug release. Protein-bound paclitaxel was successfully entrapped in biotin-avidin-antibody coated poly(lactic-co-glycolic acid) (PLGA). Targeting layers and antibody attachment did not negatively impacted drug release in vitro. Cell viability was reduced after administration in target cell lines. The presented technology forms a foundation for further investigation of multi-targeted polymeric antibody-microparticle conjugates capable of optimizing cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

33. Controlled Ring‐Opening Polymerization of Methyl Glycolide with Bifunctional Organocatalyst.

Author

Alagi, Prakash, Nikam, Shrikant B., Gopalsamy, Karuppasamy, Bashihab, Lujain, Szekely, Gyorgy, and Hadjichristidis, Nikos

Subjects

*LIVING polymerization, *BENZYL alcohol, *MOLECULAR weights, *HYDROXYL group, *TRANSESTERIFICATION, *GLYCOLIC acid

Abstract

A bifunctional thiourea‐amine‐based organocatalyst (Takemoto's catalyst), employing a metal‐free approach, is presented for the regioselective ring‐opening polymerization (ROP) of optically active (D and L) methyl glycolide (MG). In this study, a chiral version of Takemoto's catalyst efficiently promotes the ROP of MG at room temperature, yielding poly(lactic‐co‐glycolic acids) (PLGAs) with predicted molecular weights and narrow polydispersity indices (PDI≤1.2). These PLGAs exhibit highly alternating structures without transesterification, as confirmed by 1H NMR, SEC, and MALDI‐TOF analyses. Additionally, various macromolecular architectures, including linear and star‐shaped PLGAs, were successfully synthesized using the corresponding multi‐functional alcohol initiators while maintaining the same alternating structures and regioselectivity with PLGA obtained from benzyl alcohol as initiator. Computational studies were conducted to elucidate the mechanism of alternating PLGA formation, revealing two key transition states (TSs): TS‐1, which implicates the nucleophilic attack of the hydroxyl group of the initiator or propagating chain on the carbonyl carbon of MG, and TS‐2, which involves the subsequent ring‐opening of the cyclic ester. The results indicate that ring‐opening occurs at both the glycolyl and lactyl sites, with a preference for the glycolyl site, as supported by experimental results. The resulting atactic PLGAs are amorphous, rendering them suitable for drug delivery applications. [ABSTRACT FROM AUTHOR]

Published

2024

34. PLGA Nanoparticles Formulations Loaded With Antibiotics Induce Sustained and Controlled Antibiotics Release for Prolonged Antibacterial Action Against MRSA, and Pseudomonas aeruginosa FRD1.

Author

Guevara, Argerie, Armknecht, Kevin, Kudary, Carlie, and Nallathamby, Prakash

Subjects

*ANTIBACTERIAL agents, *METHICILLIN-resistant staphylococcus aureus, *ACINETOBACTER baumannii, *TREATMENT effectiveness, *DRUG delivery systems, *GLYCOLIC acid

Abstract

The purpose of the present study was to create resorbable nanoparticles (NPs) using poly(lactic-co-glycolic acid) (PLGA) to develop novel antibacterial therapeutics for the treatment of chronic wound infections that are susceptible to recurrent infections. By first performing a release study, it was possible to predict the behavior of the different PLGA NP formulations and assess the efficacy of the nanocomposite drug delivery system. These PLGA NP formulations consisted of varying ratios of PLGA without polyvinyl alcohol (PVA) and PLGA with PVA (PLGA-PVA) (i.e. 25:75[PLGA25], 50:50[PLGA50], and 75:25[PLGA75]). Then, different antibiotics (i.e. ciprofloxacin and gentamicin) were incorporated into the PLGA NP formulations to test the antibacterial efficacy of these antimicrobial NPs against different pathogens (i.e. methicillin-resistant Staphylococcus aureus USA300 [MRSA], Pseudomonas aeruginosa FRD1, and Acinetobacter baumannii BAA1605). Of particular interest was testing against the MRSA strain USA300 and the P. aeruginosa strain FRD1. This was possible by measuring the zone of inhibition. A 3-day period was used to monitor the antibacterial efficacy of the different PLGA NP formulations (i.e. PLGA25, PLGA50, and a 1:1 combination of PLGA25:PLGA50) against A. baumannii BAA1605 , MRSA, and P aeruginosa FRD1. Throughout the study, A. baumannii was a negative control and was resistant to all the PLGA NP formulations loaded with ciprofloxacin and gentamicin. At the end of the 3-day period, the PLGA and PLGA50 ciprofloxacin-loaded formulations produced zones of inhibition of 27 mm and 23 mm, respectively, against P. aeruginosa FRD1. This indicated that P. aeruginosa FRD1 was susceptible to both formulations. The mixed formulations with equal parts PLGA25:PLGA50 loaded with ciprofloxacin produced a zone of inhibition (i.e. 25 mm). This again indicated that P. aeruginosa FRD1 was susceptible to ciprofloxacin. The formulations tested against MRSA showed that only gentamicin-loaded formulations produced intermediate results, and that ciprofloxacin-loaded formulations were ineffective. The PLGA25 and the PLGA50 NP formulations loaded with gentamicin both produced zones of inhibition of 13 mm. This indicated that MRSA was intermediate to both the formulations. The PLGA25:PLGA50 loaded with gentamicin produced a zone of inhibition of 14 mm, which again showed that MRSA was intermediate to this formulation. Overall, these PLGA NP formulations showed the sustained antibacterial potential of a burst release, followed by a sustained release of antibiotics from antibiotics loaded PLGA NPs in a controlled manner. In the future, this can help prevent the emergence of recurrent infections in the treatment of chronic wounds and reduce the number of medical dressing changes. [ABSTRACT FROM AUTHOR]

Published

2024

35. Insight into wet scavenging effects on sulfur and nitrogen containing organic compounds in urban Beijing.

Author

Zhang, Chunyan, Wang, Yonghong, Liu, Jun, Chen, Tianzeng, Huang, Wei, Liu, Zirui, Chu, Biwu, Ma, Qingxin, and He, Hong

Subjects

ORGANONITROGEN compounds, AMINO acid amides, CHEMICAL properties, SULFUR, ORGANIC compounds, GLYCOLIC acid

Abstract

Sulfur-containing organic compounds (SOCs) and nitrogen-containing organic compounds (NOCs) play critical roles in regulating the physical and chemical properties of organic aerosols (OA), while the understanding of them remains limited. Here, the high-resolution real-time measurements of submicron aerosols were conducted in urban Beijing, mainly to investigate wet scavenging effects on the potential formation and evolution mechanism of OA, especially SOCs and NOCs. OA composition transitioned from being primarily SOCs before wet processes to NOCs after wet processes. Further molecular fragments identification suggested SOCs mainly comprised glycolic acid sulfate formed by aqueous-phase processing during the entire observation, and aromatic- and monoterpene-derived SOCs formed by photochemical processing before snowfall. NOCs species were diverse and dominated by highly oxidized amides and amino acids mainly produced by photochemical processing. This study provided an in-depth insight into the potential formation and evolution pathways of SOCs and NOCs in OA in the urban atmosphere. [ABSTRACT FROM AUTHOR]

Published

2024

36. ‘霞多丽’和‘维欧尼’２ 个酿酒白葡萄品种的品质性状分析.

Author

刘文, 王超萍, 任艳华, 刘司瑜, 李少楠, and 房经贵

Subjects

*ORGANIC acids, *GLYCOLIC acid, *FRUIT quality, *FUNCTIONAL analysis, *MATERIALS testing

Abstract

[Objectives] This paper aimed to explore the quality traits of ‘Chardonnay' and ‘Viognier', two winemaking white grape varieties in Rushan area, in order to provide certain theoretical basis for the utilization, introduction and promotion of white winemaking varieties. [Methods] ‘Chardonnay' and ‘Viognier' were used as the test materials, and the quality traits of fruits were analyzed in the veraison stage and maturity stage, and the transcriptome sequencing was performed on the fruits in the veraison stage and maturity stage. [Results]At the maturity stage, ‘Viognier' was higher in grain weight, transverse diameter, longitudinal diameter, total phenolic content, soluble sugar content and total soluble solids (TSS) content, and ‘Chardonnay' was higher in total organic acid content. From the veraison stage to maturity stage, the soluble sugar, TSS and total phenol contents in ‘Viognier' changed more rapidly than ‘Chardonnay'. Among the sugar fractions, fructose and glucose content changed more rapidly, while other traits showed similar changes. The results of transcriptome analysis showed that the number of differentially expressed genes (DEG) was higher in ‘Viognier' than in ‘Chardonnay' from the veraison stage to maturity stage. Both differentially expressed genes were most distributed on chromosome 18 and least distributed on chromosome 15. In addition, the metabolic pathways of genes related to glycolate metabolism were screened by GO functional analysis and KEGG metabolic pathway analysis of differentially expressed genes. [Conclusions] There were differences in fruit quality between two white grape varieties in different periods, mainly in terms of total organic acid content, soluble sugar content, TSS content, total phenol contents and transverse and longitudinal diameter of the fruit. From the veraison stage to maturity stage, the development of fruit traits in ‘Viognier' was faster than that of ‘Chardonnay'. The differences in the expression levels of related genes in the glycolic acid anabolic pathway between two varieties might be the reason for the differences in fruit quality traits between two white grape varieties. [ABSTRACT FROM AUTHOR]

Published

2024

37. Enhanced Lung Cancer Therapy via Co-Encapsulation of Docetaxel and Betulinic Acid.

Author

Saikia, Trideep, Rajak, Prakash, Sahu, Bhanu P., and Patowary, Lima

Subjects

*BETULINIC acid, *CELL cycle, *LUNG cancer, *POLYVINYL alcohol, *CYTOTOXINS, *GLYCOLIC acid

Abstract

Docetaxel (DTX) and betulinic acid (BA) co-encapsulated poly-lactic co-glycolic acid (PLGA) nanoparticles (NPs) were developed for enhanced lung cancer activity in vitro. Poly (lactic-co-glycolic acid) (PLGA) was used as an encapsulating polymer along with polyvinyl alcohol (PVA) as a stabilizing base to formulate NPs with the double-emulsion solvent evaporation method to study the size and potential, along with the surface morphology and in vitro release, of NPs. Cell culture studies like in vitro cellular uptake, apoptosis, and cell cycle arrest were performed in an in vitro cytotoxicity study to access the NP's effect in the A549 human lung cancer cell line. The emulsification solvent evaporation technique produced smooth spherical nanoparticles of small sizes with a relatively narrow size distribution (147.2 ± 12.29 nm). On the A549 cell line, the formulation showed higher cytotoxicity (6.43 ± 0.11, 4.21 ± 0.32, and 1.17 ± 0.23 µmol for 24, 48, and 72 h, respectively) compared to the free drug due to an increase in vitro cellular uptake. Apoptosis and cell cycle analysis also confirmed the effectiveness of the prepared NPs. In vitro studies have proven the tumor-targeting potential of DTX-BA-NPs in A549 cell lines and could be future medication for lung cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

38. Enhanced Separation of Americium and Curium in Cyanex301 System by Using Formic Acid and Glycolic Acid as Stripping Chelates.

Author

Pu, Tongkai, Yang, Qi, Sui, Qiaorui, Deng, Qin, Zhou, Jin, Hao, Xuan, Zhang, Hongming, Liu, Qian, Yang, Suliang, and Tian, Guoxin

Subjects

*GLYCOLIC acid, *STABILITY constants, *IONIC strength, *AQUEOUS solutions, *CHEMICAL speciation

Abstract

The distribution equilibria of Am(III) and Cm(III) between the organic phase of bis(2,4,4-trimethylpentyl)dithiophosphonic acid (purified Cyanex301, HA) in xylene and aqueous solutions containing varying concentrations of formic acid or glycolic acid have been investigated aiming at the separation of the two actinides from each other after the groups separation of Am(III)/Cm(III) from Ln(III) ions. The apparent extraction constants for Am(III) and Cm(III) in the Cyanex301-xylene system are determined to be −8.84 and −9.37, respectively, at 0.01 M ionic strength. The specific ion interaction method (SIT) is used to obtain the stability constants of Am(III) and Cm(III) with nitrate and glycolate for calculating the speciation of the ions in extraction at 25°C and I = 0.01 M. The separation of Cm(III) from Am(III) loaded in 0.5 M HA in xylene can be considerably improved by emplying 0.01 to 0.05 M formic acid or glycolic acid as selective stripping reagents favoring complexation with Cm(III). Specifically, with 0.01 M formic acid or glycolic acid in the aqueous phase, the separation factor (SF) for Am(III) over Cm(III) is improved from 3.61 to 5.87 and 5.26, respectively. Hence, both separations of An(III) from Ln(III) and then Am(III) from Cm(III) are achieved by a selective extraction process at first and then a selective stripping process in one simple efficient system using purified Cyanex301 as extractant in organic phase and carboxylic acids as stripping chelates in aqueous. [ABSTRACT FROM AUTHOR]

Published

2024

39. Novel Technique for Simultaneous Ethylene Glycol and Its Metabolites Determination in Human Whole Blood and Urine Samples Using GC–QqQ–MS/MS.

Author

Tusiewicz, Kaja, Wachełko, Olga, Zawadzki, Marcin, and Szpot, Paweł

Subjects

*GLYCOLIC acid, *OXALIC acid, *GLYOXAL, *CARBOXYLIC acids, *BIOMATERIALS, *ETHYLENE glycol

Abstract

Toxicological analyses often necessitate the identification of compounds belonging to diverse functional groups. For GC–MS analyses, derivatization of compounds belonging to different functional groups can pose a challenge and requires the development of comprehensive methods of analysis. One example could be ethylene glycol, whose widespread use is related to possible unintentional or suicidal intoxications. This fact clearly indicates the need to develop sensitive methods for the determination of ethylene glycol and its metabolites in biological material, as only such complex analysis allows for proper toxicological expertise. A simultaneous GC–QqQ–MS/MS method for the determination of ethylene glycol together with its metabolites, glyoxal and glycolic acid, as well as the detection of glyoxylic acid and oxalic acid, was developed and fully validated. A novel approach for simultaneous derivatization of substances from different groups (alcohols, aldehydes, and carboxylic acids) was established. Sample preparation included the addition of three internal standards (BHB-d4, ethylene glycol-d4 and methylglyoxal), precipitation with acetonitrile and subsequent derivatization with N-tert-butyldimethylsilyl-N-methyltrifluoroacetamide (MTBSTFA), as well as pentafluorophenylhydrazine (PFPH). Detection was carried out with the use of triple quadrupole mass spectrometer. The ionization method was electron impact, and quantitative analysis was carried out in multiple reaction monitoring mode. The lower limit of quantification was 1 μg/mL, 0.1 μg/mL, and 500 μg/mL for ethylene glycol, glyoxal, and glycolic acid, respectively. The presented method was applied in three authentic postmortem cases of ethylene glycol intoxication. [ABSTRACT FROM AUTHOR]

Published

2024

40. Effect of surface ligands on the photoinduced electron transfer rate and efficiency in ZnO quantum dots and graphene oxide assemblies.

Author

Khalid, Muhammad Adnan, Mubeen, Muhammad, Mukhtar, Maria, Sumreen, Poshmal, Naz, Bushra, Aydın, Firdevs, Asil, Demet, and Iqbal, Azhar

Subjects

*PHOTOINDUCED electron transfer, *THIOGLYCOLIC acid, *CHARGE transfer, *QUANTUM dots, *ETHYLENE glycol

Abstract

Apart from biocompatibility, ZnO quantum dots (QDs) are considered to be an efficient luminescence material due to their low cost and high redox potential. Here, we report the synthesis of ZnO QDs by using five different functionalizing ligands like mercaptoacetic acid (MAA), 3‐mercaptopropionic acid (MPA), octadecene (ODE), ethylene glycol (EG), and oleyl amine (OLA) and fabricate their assemblies with graphene oxide (GO). We investigate the role of functionalizing ligands as a surface modifier of ZnO QDs for their attachment to GO. The steady‐state photoluminescence (SSPL) and time‐resolved photoluminescence (TRPL) analyses demonstrate the photoluminescence (PL) quenching of ZnO QDs in ZnO QDs‐GO assembly. The highest reduction in PL intensity is observed with ZnO QDs‐GO assembly with EG as a surface functionalizing ligand. Cyclic voltammetry (CV) analysis confirms the feasibility of charge transfer from ZnO QDs to the GO. The maximum (79.43%) charge transfer efficiency (ECT) is observed in the case of ZnO‐MAA‐GO as compared to other assemblies. This means the thiol group‐containing ligands facilitate charge transfer as compared to hydroxyl and amine group ligands. This leads to the conclusion that charge transfer in ZnO QDs‐GO assemblies depends strongly on the nature of surface ligands. [ABSTRACT FROM AUTHOR]

Published

2024

41. A PLGA/Silk Fibroin Nanofibre Membrane Loaded with Natural Flavonoid Compounds Extracted from Green Cocoons for Wound Healing.

Author

Chen, Xiang, Liu, Jiaqi, Lu, Yaru, Liu, Huijun, Cheng, Lan, Li, Zhi, and Dai, Fangyin

Subjects

*COMPOSITE membranes (Chemistry), *BIODEGRADABLE materials, *ANIMAL experimentation, *SKIN regeneration, *GLYCOLIC acid, *WOUND healing

Abstract

The use of biodegradable materials combined with natural metabolites in wound dressings has received much attention. Flavonoids (FLs) from green cocoons, as metabolites, have antibacterial, antioxidant, anti-inflammatory, and other pharmacological effects. In this study, composite membranes of FL-loaded polylactic glycolic acid (PLGA)/silk fibroin (SF) were prepared by an electrospinning method. The prepared membranes, including SF, exhibited a good slow-release effect and cytocompatibility. An in vitro evaluation of the FL-loaded PLGA/SF membranes demonstrated good antioxidant, antibacterial, and anti-inflammatory properties. Animal experiments showed that the wound healing rate of PLGA/SF-2.5FL membranes within 15 days was 97.3%, and that of the control group was 72.5%. The PLGA/SF-2.5FL membranes shortened the inflammatory period of a full-layer wound model and promoted skin regeneration and wound healing by downregulating expression of the pro-inflammatory cytokines IL-1β and TNF-α and promoting expression of the growth factors VEGF, TGF-β, and EGF. In summary, the PLGA/SF-2.5FL composite nanofibre membrane with anti-inflammatory properties is an ideal wound dressing to promote acute wound healing. [ABSTRACT FROM AUTHOR]

Published

2024

42. Nor-LAAM loaded PLGA microparticles for treating opioid use disorder.

Author

Ingabire, Diane, Qin, Chaolong, Meng, Tuo, Raynold, Aji Alex Moothendathu, Sudarjat, Hadi, Townsend, E. Andrew, Pangeni, Rudra, Poudel, Sagun, Arriaga, Michelle, Zhao, Long, Chow, Woon N., Banks, Matthew, and Xu, Qingguo

Subjects

*OPIOID abuse, *LABORATORY rats, *SUBCUTANEOUS injections, *DRUG abuse, *ION pairs, *GLYCOLIC acid

Abstract

The treatment landscape for opioid use disorder (OUD) faces challenges stemming from the limited efficacy of existing medications, poor adherence to prescribed regimens, and a heightened risk of fatal overdose post-treatment cessation. Therefore, there is a pressing need for innovative therapeutic strategies that enhance the effectiveness of interventions and the overall well-being of individuals with OUD. This study explored the therapeutic potential of nor-Levo-α-acetylmethadol (nor-LAAM) to treat OUD. We developed sustained release nor-LAAM-loaded poly (lactic- co -glycolic acid) (PLGA) microparticles (MP) using a hydrophobic ion pairing (HIP) approach. The nor-LAAM-MP prepared using HIP with pamoic acid had high drug loading and exhibited minimal initial burst release and sustained release. The nor-LAAM-MP was further optimized for desirable particle size, drug loading, and release kinetics. The lead nor-LAAM-MP (F4) had a relatively high drug loading (11 wt%) and an average diameter (19 μm) and maintained a sustained drug release for 4 weeks. A single subcutaneous injection of nor-LAAM-MP (F4) provided detectable nor-LAAM levels in rabbit plasma for at least 15 days. We further evaluated the therapeutic efficacy of nor-LAAM-MP (F4) in a well-established fentanyl-addiction rat model, and revealed a marked reduction in fentanyl choice and withdrawal symptoms in fentanyl-dependent rats. These findings provide insights into further developing long-acting nor-LAAM-MP for treating OUD. It has the potential to offer a new effective medication to the existing sparse armamentarium of products available to treat OUD. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

43. One-pot Synthesis of Novel Azo-linked 2,2'-bis(Sulfanediyl)diacetic Acids Using [Uric Acid]SO3H as an Effective Green Catalyst.

Author

Nikpassand, Mohammad, Alizadeh, Zahra, Zare Fekri, Leila, and Varma, Rajender S.

Subjects

*HETEROCYCLIC compounds synthesis, *THIOGLYCOLIC acid, *THIN layer chromatography, *URIC acid, *ORGANOSULFUR compounds, *SILICA gel, *IONIC liquids

Abstract

This document provides detailed information on the synthesis and characterization of several compounds, including their chemical composition, yield, melting point, and spectroscopic data. The authors acknowledge financial support from the Research Council of the Islamic Azad University, Rasht Branch, and no conflicts of interest were reported. [Extracted from the article]

Published

2024

44. Near UV Light Photo-Degradation of Lactate and Related α-Hydroxycarboxylates in the Presence of Fe(III): Formation of Carbon Dioxide Radical Anion.

Author

Zhang, Yilue, Richards, David S., and Schöneich, Christian

Subjects

*MALIC acid, *RADICAL anions, *LACTIC acid, *GLYCOLIC acid, *AMINO acids, *CITRATES

Abstract

In recent studies we have reported on the near-UV light-induced degradation of iron complexes of various pharmaceutical excipients, such as Fe(III)-citrate and Fe(III)-amino acid complexes. Mechanistic studies revealed a common photo-degradation pattern, i.e. the formation of carbon dioxide radical anion, a potent reducing agent, via an alkoxyl/amino radical intermediate generated by light-induced ligand-to-metal charge transfer (LMCT) involving α-hydroxycarboxylates or amino acids. Herein, we confirm the proposed general photo-degradation pathways through the study of the iron complexes of other α-hydroxycarboxylates that may be present in protein formulations, such as lactate and glycolate. The results indicate that lactate generates even higher yields of •CO 2 − as compared to citrate, suggesting a significant potential of lactate for the promotion of photo-degradation in pharmaceutical formulations. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

45. Preliminary study of electrochemical conversion of glucose on novel modified nickel electrodes.

Author

Ginoux, Erwann, Acosta, Gabriel, Cognet, Patrick, Pérès, Yolande, Latapie, Laure, Estel, Lionel, and Ledoux, Alain

Subjects

*NICKEL electrodes, *GLUCONIC acid, *COPPER, *GLYCOLIC acid, *OXALIC acid

Abstract

Gluconic acid and sorbitol are among the value-added chemicals that can be derived from biomass. Nowadays, these compounds are typically produced through biotechnological processes, but electrochemical methods offer numerous advantages over alternative approaches. While studies have extensively explored metals like copper, palladium, gold, and platinum, nickel has received relatively limited attention in this context. Notably, nickel exhibits electrochemical activity suitable for organic electrosynthesis. This work has been achieved with 5-h long-term electrolysis, glucose as a reactant, utilizing modified nickel electrodes in a KOH solution. While these studies achieved substantial conversion rates, the selectivities and Faraday efficiencies toward gluconic acid and sorbitol remained comparatively low. The long-term electrolysis of glucose using modified nickel electrodes resulted in the identification of various side products. These include formic acid, oxalic acid, glycolic acid, tartronic acid, glyceric acid, and arabinose. [ABSTRACT FROM AUTHOR]

Published

2024

46. First report of a blaNDM-5-carrying Escherichia coli sequence type 12 isolated from a dog with pyometra in Japan.

Author

Harada, Kazuki, Miyamoto, Tadashi, Sugiyama, Michiyo, and Asai, Tetsuo

Subjects

*ESCHERICHIA coli, *PYOMETRA, *THIOGLYCOLIC acid, *DOGS, *AZTREONAM, *URINARY tract infections, *KLEBSIELLA infections

Abstract

Carbapenemase-producing Enterobacterales (CPE) are a serious concern in human clinical settings. Companion animal–origin CPE have been only rarely identified in several countries, but they have not yet been identified in Japan. In this study, we present the first case of a canine infected with CPE in Japan. The patient was hospitalized due to pyometra. The pus discharged from the patient's uterus was subjected to bacteriological analysis. As a result, E. coli was identified in the pus and exhibited resistance to piperacillin, amoxicillin–clavulanic acid, cefazolin, ceftazidime, cefepime, meropenem, amikacin, and sulfamethoxazole–trimethoprim and susceptibility to aztreonam, minocycline, and levofloxacin. Results of the sodium mercaptoacetic acid double-disk synergy test showed that the E. coli isolate was positive for metallo-β-lactamases. Next-generation sequencing identified the bla NDM-5 gene, which was located in the IncFII-type plasmid together with bla TEM-1b , rmtB , aadA2 , ble MBL, sul1 , qacE , and dfrA12. The case was treated successfully with doxycycline and orbifloxacin. Our finding emphasizes that close attention should be paid to the significance of CPE harboring multidrug-resistance plasmid in companion animals, based on the perspective of One Health approach in Japan as well as in other countries. [ABSTRACT FROM AUTHOR]

Published

2024

47. Impact of cyclophosphamide on the morphological and histological changes in polyglycolic acid spacers.

Author

Tsuzuki, Yusuke, Kamei, Michi, Iwata, Hiromitsu, Takeda, Risa, Kimura, Hiroaki, Aiba, Hisaki, Murase, Takayuki, Tsuchiya, Takahiro, Sasaki, Ryohei, and Hiwatashi, Akio

Subjects

LABORATORY rats, ABDOMINAL tumors, CYCLOPHOSPHAMIDE, ANIMAL disease models, CONTROL groups

Abstract

In radiotherapy for pediatric abdominal tumors, determining the effect of concurrent chemotherapy on polyglycolic acid (PGA) spacers is crucial; yet this effect has not been validated. Therefore, we aimed to evaluate the impact of cyclophosphamide (CPA) chemotherapy on the PGA spacer using a rat model. Twenty-four rats were implanted with the spacer, and morphological changes in the spacer were assessed on CT for both the CPA-dosed group (40 mg/kg) and the control group. The size and volume of the spacer were quantified using CT, while the degree of adhesion and microscopic examination of the tissue were determined using pathology specimens. Morphologically, the size of the spacer decreased over time in both the CPA-dosed and control groups, with no significant differences observed between groups. No significant differences in adhesion were observed between the two groups. Macrophages were observed around the PGA fibers, suggesting their involvement in the degradation of the PGA spacer. These results suggest that CPA does not cause significant clinically problematic degradation or adverse tissue reactions to the PGA spacer. This study reinforced the benefits of PGA spacers; however, future research focusing on in vivo longitudinal monitoring of individual rats, as well as on humans, is required. [ABSTRACT FROM AUTHOR]

Published

2024

48. Evaluation of eye irritation potential of experimental cosmetic formulations containing glycolic acid, salicylic acid and ethanol using the Bovine Corneal Opacity and Permeability Assay.

Author

Labib, R., Cantrell, K., Costin, G.-E., Milac, A. L., Raabe, H., and Gettings, S.

Subjects

SALICYLIC acid, CORNEAL opacity, CORNEA, PERMEABILITY, BOS, ETHANOL, GLYCOLIC acid

Abstract

Objective: Prototype cosmetic formulations containing short-chain acids and alcohols intended to be applied in the proximity of the eyes are sometimes evaluated for ocular irritation potential using the validated Bovine Corneal Opacity and Permeability Assay (OECD TG 437). We evaluated the eye irritation potential of nine experimental cosmetic formulations designed and prepared by Avon Global Reserach and Development to differ only in the concentrations of Ethanol, Glycolic Acid and Salicylic Acid. Methods: We analysed the data generated using the BCOP assay. The opacity and permeability values obtained following the exposure of bovine corneas to experimental cosmetic formulations were combined into a single In Vitro Irritancy Score used to rank eye irritation potential. Histopathological examination of treated corneas was used to provide additional information about the depth and degree of the injury and to support the prediction of eye irritation potential of each experimental cosmetic formulation. Results: The In Vitro Irritancy Scores and histopathological analysis showed that experimental formulations containing only Ethanol, Glycolic Acid, or Salicylic Acid alone had, at most, a mild ocular irritation potential. The experimental formulations containing both Ethanol and Glycolic Acid had a mild ocular irritation potential, while the experimental formulations containing both Ethanol and Salicylic Acid had a moderate ocular irritation potential. Severe ocular irritation potential was induced by an experimental formulation containing a combination of Glycolic Acid and Salicylic Acid and it was further accentuated by the addition of Ethanol to the formulation. Our data indicate a possible synergistic effect on eye irritation potential of Ethanol, Glycolic Acid and Salicylic Acid in at least some experimental cosmetic formulations. Further, our results provide insight on an apparent concentration-dependent ocular irritation potential effect of combinations of Glycolic Acid, Salicylic Acid and Ethanol in at least one experimental cosmetic formulation. Conclusions: The results presented herein emphasise the need to consider in vitro testing of prototype cosmetic formulations containing combinations of Ethanol, Glycolic Acid and Salicylic Acid rather than relying on any predicted additive effect on ocular irritation based solely on previously generated results of similar formulations containing Ethanol, Glycolic Acid or Salicylic Acid alone. Further work is required to understand the significance of these observations and to elucidate the mechanisms responsible for the apparent synergistic effects of Glycolic Acid, Salicylic Acid and Ethanol and eye irritation potential suggested by our results. [ABSTRACT FROM AUTHOR]

Published

2024

49. Physical pressure resistance of gastrointestinal anastomotic site via plate of polyglycolic acid promoting fibrosis

Author

Hideki Tanda, Masatsune Shibutani, Seiji Natsuki, Hiroaki Kasashima, Tatsunari Fukuoka, and Kiyoshi Maeda

Subjects

Polyglycolic acid, Anastomotic leakage, Animal experiment, Physical pressure resistance, Medicine, Science

Abstract

Abstract Anastomotic-leakage incidence has been reported to be reduced on using polyglycolic acid (PGA) sheets as reinforcing materials; however, there is insufficient evidence regarding the reinforcement mechanism. Therefore, we investigated effects of PGA sheets on gastrointestinal anastomoses in rats. In the first approach, five rats underwent laparotomy; the PGA sheet was pasted onto the normal cecal wall. After five days, the cecum was removed and histologically evaluated. In the second approach, ten rats were randomly divided into two groups of five animals each. The rats underwent laparotomy; the cecal wall was sutured after a full-thickness incision. In the PGA group, a PGA sheet was used to cover the suture area. After 5 days, the cecum was removed, and the physical pressure resistance was evaluated. We confirmed the growth of a fibrous capsule measuring 855 (648–1048) µm outside the cecal serosa in the first approach. The median pressure resistance in the second approach was 57.0 (45.0–90.0) and 90.0 (82.5–94.5) mmHg in Control and PGA groups, respectively. The pressure resistance was significantly higher in the PGA group (p = 0.046). In summary, the PGA sheet may form a barrier of fibrosis on the intestinal wall and provide reinforcement to prevent anastomotic leakage.

Published

2024

50. Glycolic Acid Plus Salicylic Acid in Treatment of Plane Wart

Author

Doaa Abo Elmagd Abd El Razak, Resident of Dermatology, Andrology and Venereology in Nag Hammadi General Hospirtal (Qena)

Published

2024