Search Results (46)

Introduction: Fourier-transform infrared spectroscopy (FTIR) is a key technique in the characterization of biomaterials, allowing the identification of functional groups and the verification of bioactive compound incorporation in nanostructured systems. In this study, the spectral signature of raw materials used in the formulation of a nanoemulsion with curcumin, sunflower oil, annatto oil, and Cremophor applied in the production of a dressing consisting of a natural latex biomembrane (Hevea brasiliensis) was evaluated. Methodology: FTIR spectra were obtained from isolated raw materials (curcumin, vegetable oils, and Cremophor) and from the curcumin-containing nanoemulsion formulation, aiming to compare their spectral profiles and identify possible chemical interactions. Results: Curcumin showed characteristic bands around 3328–3508 cm⁻¹ (–OH), 1637 cm⁻¹ (C=O and conjugated C=C), and 1505 cm⁻¹ (aromatic ring), confirming its polyphenolic structure. Sunflower oil exhibited an intense peak at 1744 cm⁻¹ (ester carbonyl), associated with its triglyceride composition, while annatto oil showed a band at 1633 cm⁻¹ (conjugated C=O), indicative of bixine and carotenoids. Cremophor presented peaks at 3460 cm⁻¹ (–OH) and 1726 cm⁻¹ (C=O), typical of ethoxylated surfactants. In the curcumin-containing nanoemulsion, the Cremophor spectral profile predominated, but new bands between 1511 and 1637 cm⁻¹, associated with curcumin, confirmed its incorporation into the matrix. Conclusion: The FTIR results confirmed the preservation of the spectral signatures of the raw materials and the successful integration of curcumin into the nanoemulsion, reinforcing its potential for application in biomaterial-based dressings Full article

Heave compensation is crucial for the improvement of marine engineering. However, there remain two main drawbacks in existing methods. One drawback is that the output accuracy of heave information is insufficient. The other drawback is that the consideration of lever arm effect errors is inadequate. To address these challenges, a new heave compensation algorithm is proposed in this paper. Firstly, a vessel’s center of gravity acceleration model incorporating lever arm effect dynamics is established. Secondly, a modified high-pass filter is presented using complementary techniques. A comparative error analysis demonstrates its superiority over traditional digital filters in real-time performance. Thirdly, the algorithm independently updates solutions of the heave of the vessel’s center of gravity and the heave caused by the lever arm vector and the vessel’s attitude to avoid oscillating temporarily. Simulation results verified the better heave measurement accuracy of the proposed algorithm. This algorithm is pivotal to marine engineering. Full article

Bixin, an apocarotenoid from Bixa orellana seeds, is a valuable natural pigment with industrial and pharmacological applications. Traditional extraction methods rely on organic solvents, but eco-friendly alternatives like silk fibroin solution (SFS) are emerging. This study evaluated SFS for bixin extraction from annatto seeds, optimizing conditions using Box-Behnken Design (BBD). The optimal parameters 1.5% SFS, 60 °C, and 60 min yielded 10.87 mg/mL (liquid extract of annatto seeds, LEAS + SFS) and 150.72 mg/g (solid extract of annatto seeds, SEAS + SFS). Cell viability was assessed in human dermal fibroblasts (HDFn) and RAW 264.7 murine macrophages via MTT assay. After 24 and 72 h, LEAS + SFS, SEAS + SFS, purified bixin (PB), and SFS maintained >70% viability in HDFn cells. Similarly, RAW 264.7 cells showed >70% viability after 24 h, indicating low cytotoxicity. These results highlight the biocompatibility of SFS-extracted bixin, supporting its potential in food, cosmetics, and biomedicine. The study demonstrates that SFS is an effective, sustainable alternative to traditional solvents, offering high extraction efficiency and minimal toxicity. This method aligns with green chemistry principles, providing a promising solution for bixin production. Full article

As a novel carbon material, multi-walled carbon nanotubes (MWCNTs) have attracted significant research interest in energetic applications due to their high aspect ratio and exceptional physicochemical properties. However, their inherent structural characteristics and poor dispersion severely limit their practical utilization in solid propellant formulations. To address these challenges, this study developed an innovative reverse-engineering strategy that precisely confines MWCNTs within a three-dimensional Fe₂O₃ gel framework through a controllable sol-gel process followed by low-temperature calcination. This advanced material architecture not only overcomes the traditional limitations of MWCNTs but also creates abundant Fe-C interfacial sites that synergistically catalyze the thermal decomposition of glycidyl azide polymer-based energetic thermoplastic elastomer (GAP-ETPE). Systematic characterization reveals that the MWCNTs@Fe₂O₃ nanocomposite delivers exceptional catalytic performance for azido group decomposition, achieving a >200% enhancement in decomposition rate compared to physical mixtures while simultaneously improving the mechanical strength of GAP-ETPE-based propellants by 15–20%. More importantly, this work provides fundamental insights into the rational design of advanced carbon-based nanocomposites for next-generation energetic materials, opening new avenues for the application of nanocarbons in propulsion systems. Full article

Dye-sensitized solar cells (DSSCs) have emerged as a promising technology for converting sunlight into electricity at a low cost; however, it is still necessary to find a photostable, low-cost, and efficient photosensitizer. In this sense, the natural product bixin (Dye 1) has previously been reported as a potential photosensitizer. Thus, the present work reports the full synthesis of diester and diacid hybrids (Dyes 2 and 3, respectively, with corresponding yields of 93% and 52%) using the natural product bixin as a starting material and 1,3,4-oxadiazole ring as a connected point. The hydrolysis step of Dye 2 aims to obtain Dye 3 with a structural capacity to anchor the titanium dioxide (TiO₂) nanofilms via the carboxylic acid group. Both compounds (Dyes 1 and 3) can be adsorbed via pseudo-first order on the surface of TiO₂ nanofilms, reaching saturation after 10 and 6 min of exposure in an organic solution (1 × 10⁻⁵ M), respectively, with adsorption kinetics of the semisynthetic compound almost twofold higher than the natural product. Contrary to expectations, Dye 3 had spectral behavior similar to Dye 1, but with better frontier molecular orbital (FMO) parameters, indicating that Dye 3 will probably behave very similarly or have slightly better photovoltaic performance than Dye 1 in future DSSC measurements. Full article

Background: Nrf2 plays a key role in regulating the antioxidant response against oxidative stress. Therefore, it is imperative to examine the advantages of Nrf2 activation by new small molecules capable of inhibiting the Nrf2-Keap1 protein interaction that do not present electrophilic sites, since electrophilic compounds have intrinsic toxicity. The bixin pigment has been used as a form of treatment and prevention of several pathological conditions in animal models since it was described as an Nrf2 activator without electrophilic sites. This study aims to synthetize a soluble derivate KBx (potassium bixinate) and evaluate its ability to activate Nrf2/ARE in a model of exposure to cigarette smoke extract (CSE; in vitro) and intranasal LPS administration (in vivo). Methods: In the in vivo study, C57BL/6 mice were pretreated with 200 mg/kg of KBx (gavage) during 5 consecutive days and then challenged with 60 µg of LPS i.n. for 16 h. Bronchoalveolar lavage was collected to examine cytokines dosage. In the in vitro study, RAW 264.7 macrophages were exposed to CSE and post-treated with KBx to evaluate their ability to revert the redox imbalance caused by the stressor. Results: KBx was characterized using mass spectrometry (433.1778 m/z). KC levels were increased in the LPS group (p = 0.021), and KBx inhibited this (p = 0.001). IL-10 levels were decreased (p = 0.055) in the LPS group that was prevented when pretreated with KBx (p = 0.037). The in vitro study showed KBx to be a more potent derivate of bixin through its ability to intercept ROS formation with three-fold more potency, and it showed an anti-inflammatory propriety by reducing the nuclear translocation of p65 (p < 0.001). Conclusions: In conclusion, these data suggest that KBx was able to activate the Nrf2/ARE pathway and intercept ROS formation induced by CSE and LPS in both in vivo and in vitro studies. Full article

Urucum, also known as annatto, is a plant native to Brazil. However, there is a notable scarcity of scientific studies focusing on the wastewater generated by the annatto natural dye industry. This study seeks to address the existing knowledge gaps by presenting original and substantive data pertaining to this economic sector. This study investigates the degradation of carotenoids in real annatto dye wastewater through the application of an O₃/H₂O₂ oxidation process. A 2³ factorial experimental design was utilized to determine the influence of three key variables—pH (2.5–5.5), O₃ mass flow rate (8.0–18.0 mg min⁻¹), and initial H₂O₂ concentration (between 1.572 and 4.716 g L⁻¹)—on both the degradation efficiency and the associated reaction kinetics. The process demonstrated impressive carotenoid removal, achieving degradation efficiencies between 84% and 97% with pseudo-first-order kinetic constants ranging from 0.0310 to 0.0805 min⁻¹. A statistical analysis revealed that the O₃ mass flow rate was the most influential factor on the degradation efficiency, while all the operational parameters played significant roles in determining the degradation kinetics. Notably, the process achieved optimal performance without the need for pH adjustment, presenting a cost-efficient solution for industrial applications. These findings offer critical insights into the treatment of high-strength agro-industrial wastewater, thereby advancing the development and implementation of oxidation processes for wastewater management. Full article

Annatto (Bixa orellana L.) is cultivated primarily for the extraction of bixin, a natural dye with substantial industrial importance, resulting in the generation of large quantities of residues that remain underutilized. This study provides the first in-depth characterization of annatto byproducts derived through molecular distillation, highlighting their untapped potential for sustainable innovation. Employing state-of-the-art techniques—HS-SPME-GC-MS for volatile compounds and UPLC-MS/QTOF for non-volatile ones—the research identified a remarkable array of bioactive constituents. Over thirty pharmacologically significant compounds were unveiled, many appearing for the first time in annatto byproducts. Notable discoveries include diterpenoid alcohols, oleamide, δ-tocotrienol, n-alkanes, fatty acid methyl esters, and springene among the volatiles. Among the non-volatiles, groundbreaking identifications such as dihydroactinidiolide, dihydrochalcone, 3-phenyl propiofenone, novel tetracosan amides, halisphingosine A, kauranetriols, and phytoene derivatives redefine the chemical profile of this residue. Further amplifying the value of these findings, the study successfully transformed these byproducts into innovative antioxidant packaging materials, demonstrating their high potential for food preservation and sustainable applications. The packaging films, developed from samples devoid of vegetable oil, exhibited robust antioxidant properties, offering a compelling solution to extend shelf life and reduce spoilage. This work underscores the importance of revalorizing agricultural residues like annatto byproducts, turning waste into high-value resources that align with the principles of the circular economy. Full article

A meta-analysis of 28 sources of information was conducted, considering different variables in Bixa orellana, with the aim of identifying bioprospective variables. Variables were approached, such as the organ of extraction and extraction method, with 63 biochemical classes and 20 for biological activity, and their states were codified. The statistical analysis was developed through a cladistics analysis using the WinClada version1.00.08 84,85 software and the explicative accumulated variance was determined through a descriptive multivariate analysis and multiple correspondence analysis (MCA). The tree obtained showed the phenotype Africa1 as the one closest to the basal state. After Africa1, nine clades are derived and the phenotypes Colombia3 and Colombia5 were the most evolved. The analyses demonstrated that in B. orellana L., the phenotypes from India, Brazil, and Yucatán present anticancer activity against the cell lines U251, MCF-7, HeLa, NCI-H460, PC-3, A549 and HT-29, as well as biological activity against Staphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa, related primarily with biochemical compounds such as geranylgeraniol, ellagic acid, and carotenoids (bixin and norbixin), naringenin and alkaloids. The conditions of reproductive isolation of the phenotypes mentioned before providing the ideal agroclimatic conditions to produce compounds with biological activity. Full article

Annatto, a tropical shrub from Central and South America and parts of India, contains Bixin, an apocarotenoid pigment. Bixin is conventionally used as a natural food colorant and is now receiving attention for its health-promoting nutraceutical properties, particularly in chronic diseases (metabolic syndrome—MetS—and cancers). This study investigates the dose-dependent anti-obesity and anti-steatotic effects of Bixin in in vitro cell culture models. The anti-adipogenic and anti-steatotic effects of Bixin were examined in well-established in vitro models of obesity and non-alcoholic fatty liver disease (NAFLD/steatosis) using 3T3-L1 preadipocytes (by a differentiation protocol) and HepG2cells (steatosis-induced with oleic acid), respectively. Bixin was administered in the following concentration range: 1 μg mL⁻¹–20 μg mL⁻¹ (obesity model) and 2.5 μg mL⁻¹–10 μg mL⁻¹ (NAFLD/steatosis model). The neutral lipid content was estimated by Oil Red O staining; ROS/RNS were quantified by 2′,7′-dichlorofluorescein diacetate (DCFDA) and nitrite assays; and malondialdehyde (MDA), the biochemical marker of lipid peroxidation, was assessed by TBARS assay. At lower concentrations, 5 μg mL⁻¹ in steatotic cells and 10 μg mL⁻¹ in matured adipocytes, Bixin significantly reduced lipid accumulation in both hepatocytes and adipocytes (p < 0.05), demonstrating its potential as an anti-steatotic and anti-obesity agent. This beneficial effect was correlated with a reduction in oxidative stress levels (decreased MDA and ROS/RNS levels). Strikingly, at higher concentrations (>10 μg mL⁻¹), Bixin showed increased lipid accumulation and oxidative stress. Bixin exhibits anti-obesity and anti-steatotic effects at lower doses, which correlates with its antioxidant properties. However, its bioactivity is dose-dependent, meaning that at higher concentrations, it ceases to inhibit adipogenesis. This opposing response is accompanied by elevated oxidative stress levels, indicating a pro-oxidant effect at higher doses, which suggests its anti-cancer potential. The present study highlights the significance of dosage optimization of nutraceuticals and dietary ingredients with respect to their intended biological applications, such as MetS and cancer treatment. Full article

Background: Macrophage-mediated cancer cell phagocytosis has demonstrated considerable therapeutic potential. While the initiation of phagocytosis, facilitated by interactions between cancer cell surface signals and macrophage receptors, has been characterized, the mechanisms underlying its sustentation and attenuation post-initiation remain poorly understood. Methods: Through comprehensive phosphoproteomic profiling, we interrogated the temporal evolution of the phosphorylation profiles within macrophages during cancer cell phagocytosis. Results: Our findings reveal that activation of the mTOR pathway occurs following the initiation of phagocytosis and is crucial in sustaining phagocytosis of cancer cells. mTOR inhibition impaired the phagocytic capacity, but not affinity, of the macrophages toward the cancer cells by delaying phagosome maturation and impeding the transition between non-phagocytic and phagocytic states of macrophages. Conclusions: Our findings delineate the intricate landscape of macrophage phagocytosis and highlight the pivotal role of the mTOR pathway in mediating this process, offering valuable mechanistic insights for therapeutic interventions. Full article

Block copolymers (BCPs) have attracted considerable attention due to their ability to form a variety of complex assemblies with diverse morphologies and functions in solution. By incorporating liquid crystalline (LC) moieties, the LC side chains significantly affect the morphologies and sizes of BCP assemblies. In this study, we synthesized the copolymer with an LC block containing triphenylene (HAT) discotic mesogen and short methylene side chains. By enhancing the π–π interaction between triphenylene discotic mesogens, and doping the discotic mesogens, the LC orderedness was significantly enhanced and able to dictate the self-assembly behaviors of the BCP in solution. Additionally, the lengths of resultant fibrillar micelles were easily tuned by adjusting the dopant content. More interestingly, two growth modes, nucleation growth and coupling, were observed during the formation of fibrils. Consequently, with long-term aging and sufficient concentration, a large portion of these fibrils underwent end-to-end coupling to form long fibrils, allowing the formation of organogel via inter-fibrillar entanglement. Full article

Electronic cigarettes (e-cigs) have increased in popularity and usage over the last few decades. There is rising concern regarding the long-term effects of e-cigs on human health, considering their relatively recent introduction to the market. E-cigs are generally composed of a liquid containing nicotine and various chemicals, a battery, a vaporization chamber, and a coil that serves to heat the liquid upon inhalation of the mouthpiece. While e-cigs were initially introduced as a healthy alternative to cigarette smoking, recent research has demonstrated the cytotoxic effects of nicotinic e-cig devices on multiple cell types, including epithelial and endothelial cells, along with causing dysregulation of inflammatory pathways. This review will discuss the harmful effects of e-cigs on the human body, highlighting the physiological impact of e-cigs on pulmonary, cardiovascular, and cerebrovascular health. Moreover, this review will highlight the potential therapeutic effects of bixin, an apocarotenoid found in the seeds of Bixa orellana, also known as the achiote tree, due to its innate anti-inflammatory, antioxidant, and anti-cancer activities that have been demonstrated in recent research. Nanotechnology has surfaced in the past few decades as a powerful tool for medicinal practice. Specifically, nanoparticles serve as a potential method for treating various conditions and diseases. Bixin nanoparticles show promise as a viable method for treating e-cig-induced damage due to the innate properties of bixin and the advantages of using nanoparticles compared to conventional medicinal interventions. Full article

Bixin (C₂₅H₃₀O₄; 394.51 g/mol) is the main apocarotenoid found in annatto seeds. It has a 25-carbon open chain structure with a methyl ester group and carboxylic acid. Bixin increases the expression of antioxidant enzymes, which may be interesting for counteracting oxidative stress. This study investigated whether bixin-rich annatto extract combined with metformin was able to improve the disturbances observed in high-fat diet (HFD)-induced obesity in mice, with an emphasis on markers of oxidative damage and antioxidant defenses. HFD-fed mice were treated for 8 weeks with metformin (50 mg/kg) plus bixin-rich annatto extract (5.5 and 11 mg/kg). This study assessed glucose tolerance, insulin sensitivity, lipid profile and paraoxonase 1 (PON-1) activity in plasma, fluorescent AGEs (advanced glycation end products), TBARSs (thiobarbituric acid-reactive substances), and the activities of superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GSH-Px) in the liver and kidneys. Treatment with bixin plus metformin decreased body weight gain, improved insulin sensitivity, and decreased AGEs and TBARSs in the plasma, liver, and kidneys. Bixin plus metformin increased the activities of PON-1, SOD, CAT, and GSH-Px. Bixin combined with metformin improved the endogenous antioxidant defenses in the obese mice, showing that this combined therapy may have the potential to contrast the metabolic complications resulting from oxidative stress. Full article

Sn–Bi-based, low-temperature solder alloys are being developed to offer the electronics manufacturing industry a path to lower temperature processes. A critical challenge is the significant microstructural and lattice parameter changes that these alloys undergo at typical service temperatures, largely due to the variable solubility of Bi during the Sn phase. The influence of alloying additions in improving the performance of these alloys is the subject of much research. This study aims to enhance the understanding of how alloying with In influences these properties, which are crucial for improving the alloy’s reliability. Using in situ heating synchrotron powder X-ray diffraction (PXRD), we investigated the Sn–57 wt% Bi–xIn (x = 0, 0.2, 0.5, 1, 3 wt%) alloys during heating and cooling. Our findings reveal that In modifies the microstructure, promoting more homogeneous Bi distribution during thermal cycling. This study not only provides new insights into the dissolution and precipitation behaviour of Bi in Sn–Bi-based alloys, but also demonstrates the potential of In to improve the thermal stability of these alloys. These innovations contribute significantly to advancing the performance and reliability of Sn–Bi-based, low-temperature solder alloys. Full article