Your search keyword '"aloe vera"' showing total 9,967 results

1. Hybrid crystalline bioparticles with nanochannels encapsulating acemannan from Aloe vera: Structure and interaction with lipid membranes.

Author

Madrid, Rafael R.M., Mathews, Patrick D., Pramanik, Shreya, Mangiarotti, Agustín, Fernandes, Rodrigo, Itri, Rosangela, Dimova, Rumiana, and Mertins, Omar

Subjects

*ALOE vera, *MEMBRANE lipids, *PHASE transitions, *DRUG delivery systems, *POLYSACCHARIDES, *AQUAPORINS, *POLYMERSOMES

Abstract

A hybrid lipid-natural source polysaccharides smart cubosome affords crystalline cubic. to inverse hexagonal phase transition and active membrane disturbances for prolonged. and triggered bioactive delivery. [Display omitted] Smart nanocarrier-based bioactive delivery systems are a current focus in nanomedicine for allowing and boosting diverse disease treatments. In this context, the design of hybrid lipid-polymer particles can provide structure-sensitive features for tailored, triggered, and stimuli-responsive devices. In this work, we introduce hybrid cubosomes that have been surface-modified with a complex of chitosan- N -arginine and alginate, making them pH-responsive. We achieved high-efficiency encapsulation of acemannan, a bioactive polysaccharide from Aloe vera , within the nanochannels of the bioparticle crystalline structure and demonstrated its controlled release under pH conditions mimicking the gastric and intestinal environments. Furthermore, an acemannan-induced phase transition from Im3m cubic symmetry to inverse hexagonal H II phase enhances the bioactive delivery by compressing the lattice spacing of the cubosome water nanochannels, facilitating the expulsion of the encapsulated solution. We also explored the bioparticle interaction with membranes of varying curvatures, revealing thermodynamically driven affinity towards high-curvature lipid membranes and inducing morphological transformations in giant unilamellar vesicles. These findings underscore the potential of these structure-responsive, membrane-active smart bioparticles for applications such as pH-triggered drug delivery platforms for the gastrointestinal tract, and as modulators and promoters of cellular internalization. [ABSTRACT FROM AUTHOR]

Published

2024

2. Bioassessment of the inflammatory response of macrophages to collagen-chitosan scaffold blended with Aloe vera.

Author

Jithendra, Panneerselvam, Annamalai, Dinesh, Ebrahim, Hasnaa Ali, Ibrahim, Ateya Megahed, El-Sherbiny, Mohamed, Rajam, Abraham Merlin, EL-Nablaway, Mohammad, and Mohamed, Jamal Moideen Muthu

Abstract

The in vitro macrophage response on Aloe vera-blended collagen-chitosan (COL-CS-AV) scaffold was studied using Murine Raw 264 macrophage cells. The cells were cultured on 1-cm2 scaffolds in a standard condition; at a predefined period, the cultured constructs were subjected to various experimental studies. The cytocompatibility of the constructs was assessed by dead/live examination by acridine orange/ethidium bromide (AO/EB) fluorescent dyes, and the live cells were quantified by MTT assay. The morphology of macrophages was determined using scanning electron microscopy (SEM). The cellular apoptosis and necrosis were examined by flow cytometer using annexin V FITC conjugate and propidium iodide (PI) fluorescent probes. The cellular total antioxidant level was estimated from the cell lysate of macrophages cultured on the scaffold construct. Matrix metalloproteinase-9 (MMP-9) activity was assessed by the gelatinolytic property of cell lysate by zymography technique. The expression of pro-inflammatory markers TNFα and IL-6 was studied by western blot analysis using its specific antibody. The COL-CS-AV scaffold showed promising results over the collagen-chitosan. Overall, the increased biological property with less activation of macrophage response by downregulating the TNFα and IL-6 was observed in the Aloe vera-blended scaffold construct. In support of this, the active form of MMP-9 disappeared in earlier days than without Aloe vera-blended scaffold. Through these encouraging results, we conclude that the COL-CS-AV scaffold may be used as a better solution for tissue engineering applications. [ABSTRACT FROM AUTHOR]

Published

2024

3. Influence of Aloe Vera Gel and Safe Salts on Storage Quality of Minimally Processed Carrot.

Author

Dey, Swagata, Ali, Mohammad, Hasan, Md. Fakhrul, and Labib, Litun Ahmed

Subjects

*ALOE vera, *FOOD quality, *VITAMIN C, *CARROTS, *SALT, *EDIBLE coatings

Abstract

ABSTRACT This experiment investigated the impact of aloe vera gel and safe salts on the physical quality and physicochemical properties of minimally processed carrots during storage, aiming to determine the most effective edible coating postharvest treatment. The experiment employed a Completely Randomized Design (CRD) with three replications. Results indicated significant (p ≤ 0.01) effects of various treatments on the physical quality and physicochemical properties of carrots compared to untreated ones. Freshly harvested carrots were subjected to different treatments, including a control (T1), 30% aloe vera gel (T2), 1% NaCl (T3), and 1.5% NaHCO3 (T4), combinations thereof, such as 30% aloe vera gel with 1% NaCl (T5) or 1.5% NaHCO3 (T6), and 1% NaCl with 1.5% NaHCO3 (T7), and a combination of 30% aloe vera gel with 1% NaCl and 1.5% NaHCO3 (T8). Among the treatments, the combination of 30% aloe vera gel and 1% NaCl (T5) exhibited the most promising results after nine days of storage, with the lowest weight loss (1.19%), highest firmness (3.80 N), total soluble solids (TSS) content (8.40%), titratable acidity (0.477%), ascorbic acid content (9.02 mg/100 g FW), anthocyanin content (28.84 μg/g FW), phenol content (4.278 mg/100 g FW), and total sugar content (13.32%). This treatment effectively protected carrots from undesirable color, texture, and flavor changes during storage. The utilization of natural‐source‐based edible coatings containing health‐promoting additives presents a viable strategy to enhance both the internal and external qualities of minimally processed carrots. Overall, the edible coating comprising 30% aloe vera gel and 1% NaCl emerges as a promising approach for preserving the quality of minimally processed carrots. [ABSTRACT FROM AUTHOR]

Published

2024

4. Degradation of Dyes Using Biologically Synthesized Nanoparticles by Aloe barbadensis Leaves Extract.

Author

Sharma, Sandeep, Chawla, Kanhaiya, Yadav, Deepak Kumar, Lal, Nathu, Rathore, Bhupendra Singh, and Lal, Chhagan

Subjects

*ALOE vera, *METHYLENE blue, *BASIC dyes, *ZINC oxide, *METALLIC oxides, *COPPER oxide

Abstract

Nanotechnology has enormous, economic, social, and environmental ramifications. Due to their capacity to survive in complex processes, inorganic nanomaterials like metal/metal oxides have received substantial study during the past decade. Nanoparticles have antibacterial, magnetic, electrical, and catalytic characteristics due to their greater surface area. There are several methods to develop nanoparticles but environment friendly behavior with no toxic byproducts attracts researchers toward biological process of nanoparticles. This work synthesizes copper oxide (CuO) nanoparticles and zinc oxide (ZnO) with Aloebarbadensis (Aloe vera) leaves extract and successfully characterizes them with different analytical techniques. The catalytic activity of such nanoparticles tests over different cationic and anionic dyes like methylene blue (MB), methyl orange (MO), and methyl red (MR) for different intervals of time and reveals. The degradation efficiency of CuO nanoparticles for MB, MO, and MR dyes are 59.92%, 73.48%, and 73.10% respectively, and for ZnO nanoparticles it is 81.44%, 76.46%, and 63.30% for MB, MO, and MR dyes respectively under the exposure of sunlight for 8 h. The present work successfully develops an ecofriendly process of dye degradation by biologically synthesized nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2024

5. Microencapsulation of Extracts of Strawberry (Fragaria vesca) By-Products by Spray-Drying Using Individual and Binary/Ternary Blends of Biopolymers.

Author

Bastos, Yara, Rocha, Fernando, and Estevinho, Berta Nogueiro

Subjects

*AGRICULTURAL wastes, *ALOE vera, *FICK'S laws of diffusion, *CIRCULAR economy, *PLANT polyphenols

Abstract

Valorization of agricultural and food by-products (agri-food waste) and maximum utilization of this raw material constitute a highly relevant topic worldwide. Agri-food waste contains different types of phytochemical compounds such as polyphenols, that display a set of biological properties, including anti-inflammatory, chemo-preventive, and immune-stimulating effects. In this work, the microencapsulation of strawberry (Fragaria vesca) plant extract was made by spray-drying using individual biopolymers, as well as binary and ternary blends of pectin, alginate, and carrageenan. The microparticle morphologies depended on the formulation used, and they had an average size between 0.01 μm and 16.3 μm considering a volume size distribution. The encapsulation efficiency ranged between 81 and 100%. The kinetic models of Korsmeyer–Peppas (R2: 0.35–0.94) and Baker–Lonsdale (R2: 0.73–1.0) were fitted to the experimental release profiles. In general, the releases followed a "Fickian Diffusion" mechanism, with total release times varying between 100 and 350 (ternary blends) seconds. The microparticles containing only quercetin (one of the main polyphenols in the plant) showed higher antioxidant power compared to the extract and empty particles. Finally, the addition of the different types of microparticles to the gelatine (2.7 mPa.s) and to the aloe vera gel (640 mPa.s) provoked small changes in the viscosity of the final gelatine (2.3 and 3.3 mPa.s) and of the aloe vera gel (621–653 mPa.s). At a visual level, it is possible to conclude that in the gelatine matrix, there was a slight variation in color, while in the aloe vera gel, no changes were registered. In conclusion, these microparticles present promising characteristics for food, nutraceutical, and cosmetic applications. [ABSTRACT FROM AUTHOR]

Published

2024

6. Exploring phytobiotics in aquaculture: sources, mode of action, effects, administration, and its bioavailability in fish.

Author

Kalaiselvan, Pandi, Malarvizhi, Kavitha, and Ranjan, Amit

Subjects

*ANTIBIOTIC residues, *TREATMENT effectiveness, *FOOD of animal origin, *FEED additives, *FISH feeds, *ALOE vera

Abstract

Fish is an important source of animal food for humans because it contains essential nutrients that are easily absorbed by the body. However, the intensification of aquaculture can be harmful to the fish, making them more susceptible to reduced diseases and slow growth. The excessive use of antibiotics is a major concern as it can lead to the accumulation of antibiotic residue in the fish. As a result, many countries have banned the use of antibiotics in fish feed. Phytobiotics, derived from various plant sources, have gained importance as additives in fish feeds and are seen as a promising alternative to antibiotics due to the presence of various bioactive compounds that have the potential to enhance fish production and health. The bioactive compounds present in plant sources such as essential oils, microalgae, seaweed, medicinal plants, and seeds, like Aloe vera and licorice, offer a wide range of beneficial effects in promoting growth, antimicrobial activity, antioxidant properties, and immunostimulant. The main topics of this review highlighted the various sources of phytobiotics, their mode of action, their effects on growth performance, and their therapeutic effects in fish. While phytobiotics have low bioavailability, exposure to them has shown positive effects on organs and several tissues in fish. This present article is also designed to provide an insightful information about the administration of phytobiotics and its bioavailability in fish. Furthermore, this review offers an intuitive knowledge regarding various methods for extracting the phytobiotics. [ABSTRACT FROM AUTHOR]

Published

2024

7. Optimizing the formulation of aloe vera -based vegetable diet drink.

Author

Amiri, Saber, Asadi, Mohammad Bagher, Mehrnoush, Frank, and Gheshlagh, Parviz Ahmadi

Subjects

*ALOE vera, *VEGETARIANISM, *SWEETENERS, *FOOD pasteurization, *FACTORIAL experiment designs, *ASPARTAME, *HEAT treatment

Abstract

The aim of this research was to produce a diet beverage based on aloe vera and investigate its physicochemical, microbiological, antioxidant, and sensory properties. To achieve this goal, aloe vera gel at concentrations of 5%, 5.7%, and 10% underwent heat treatment at 80°C for 30 minutes (Treatment A) and 90°C for 3 minutes (Treatment B). Aspartame was added at concentrations of 100, 150, and 200 ppm, and the beverages were stored for a period of 31 days. The study was conducted using a fractional factorial design with 34 samples under investigation. Optimization was performed based on a maximum amount of 10 gr of aloe vera, 200 ppm of aspartame, and a minimum amount of 5 gr of aloe vera and 100 ppm of aspartame. The use of the sweetener aspartame was highly effective in improving the taste of the beverage, as it provides a much sweeter sensation compared to saccharide sugars and is beneficial for diabetic patients. Based on the microbiological test results, the heat treatment (pasteurization) was successful. Furthermore, sensory evaluation showed improvements in taste, aroma, texture, and mouthfeel with the addition of aloe vera gel to the samples with no undesirable characteristics observed. After determining the models and variable combinations using the Design Expert software, an optimized sample was introduced, containing 200 ppm of aspartame, 10 gr of aloe vera, and the optimized pasteurization process, which was Treatment B for 30 minutes. The results of this study indicate that a vegetable -based diet beverage containing aloe vera can be successfully produced as a beneficial product with desirable sensory characteristics that are acceptable to consumers. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Effect of Aloe vera on Skin and Its Commensals: Contribution of Acemannan in Curing Acne Caused by Propionibacterium acnes.

Author

Pal, Suraj, Raj, Mayank, Singh, Medha, Saurav, Kumar, Paliwal, Chetan, Saha, Subhasish, Sharma, Anil Kumar, and Singh, Manoj

Abstract

Aloe vera is one of the most significant therapeutical plant species that belongs to the family Liliaceae. Aloe vera is composed of a high amount of water, with the remainder being dry matter. The dry matter contains a lot of bioactive compounds like carbohydrates, fats, and enzymes, with various therapeutic and antimicrobial properties. It can enhance the proliferation of cells and prevent cell damage by anti-oxidative properties (stimulating the secretion of superoxide dismutase and peroxidase). Human skin is colonized by microbes like fungi (Candida albicans), bacteria (Propionibacterium acnes, Staphylococcus aureus), and mites. These commensals are responsible for skin characteristics such as acidic pH, the pungent smell of sweat, etc. Human fetuses lack skin microbiota, and their skin is colonized after birth. Commensals present on the skin have a crucial role in training the human immune system against other pathogenic microbes. Propionibacterium acnes act as an opportunistic pathogen when the balance between the commensals is disturbed. We also emphasize the recent progress in identifying the aloe metabolite biosynthesis pathways and the associated enzyme machinery. The hyperproliferation of Propionibacterium acnes causes acne, and acemannan plays a significant role in its cure. Hence, we need to consider a new treatment approach based on the root cause of this dysbiosis. [ABSTRACT FROM AUTHOR]

Published

2024

9. Effects of Plant Extracts on Growth Promotion, Antioxidant Enzymes, and Secondary Metabolites in Rice (Oryza sativa) Plants.

Author

Ei, Ei, Park, Hyun Hwa, and Kuk, Yong In

Subjects

SUSTAINABLE agriculture, ORGANIC farming, SUSTAINABILITY, PLANT extracts, AGRICULTURAL productivity, ALOE vera, GARLIC

Abstract

Plant extracts are widely used in sustainable agriculture practices to enhance crop production and reduce chemical usage in agriculture. This study employed several extraction solutions of various plant extracts to synthesize planting and spraying strategies, assess the persistence efficacy of rice, and investigate the influence of selected water extracts on secondary chemicals at different rice planting stages. Among 17 water extracts that were evaluated on rice seeds, 7 were enhanced to align with the lengths of rice roots 50–70% and shoots 40–50%. The analysis of extraction, spraying, and planting experiments revealed that water extracts, soil application, and transplanting were the most efficient methods for stimulating rice growth, especially 0.1 and 0.5% concentrations. The efficacy of the extracts remained intact also after 14 days of treatment. This study showed that photosynthesis and antioxidant activities may play crucial roles in plant growth. Rice growth stimulation has been linked to photosynthesis, flavonoid contents, and antioxidant enzymes, providing a balanced supply of nutrients for plant growth. Among all tested water extracts, Psidium guajava, Aloe vera, Allium sativum, and Medicago sativa extracts can be used to promote plant growth in organic farming. [ABSTRACT FROM AUTHOR]

Published

2024

10. Polyherbal Antiacne Gel: In Vitro Antibacterial Activity and Efficacy Evaluation Against Cutibacterium acnes.

Author

Gaur, Praveen Kumar, Mishra, Rosaline, Kaushik, Rahul, Verma, Krishan Kumar, Kumar, Nitin, and Lata, Kank

Subjects

CUTIBACTERIUM acnes, ALOE vera, ONIONS, ANTIBACTERIAL agents, ACNE, PHYTOCHEMICALS, AGAR

Abstract

Acne is a common skin condition that affects people of all ages and can lead to significant physical and psychological distress. The first line of action against acne is topical products, though the most effective are topical antibiotics. In such a scenario, the development of effective and safe herbal formulations for the treatment of acne is of great importance. Rubia cordifolia, Aloe barbadensis, and Allium cepa extracts are rich sources of bioactive metabolites and are safe compared with antibiotics, in addition to being cost effective, sustainable, and eco-friendly. Also, their combination has not been studied for treating acne, and their potential benefits need to be investigated. The present study aimed to develop an effective polyherbal gel formulation of R. cordifolia, A. barbadensis, and A. cepa combined extract for treating acne and validate its effect with reference to conventional antibiotics. Plant materials were extracted in water by the reflux method, and phytochemical analysis was done for flavonoid, anthraquinone, and phenolic contents. The combined extract (R. cordifolia, A. barbadensis, and A. cepa extracts) was formulated in gel. The selected polyherbal gel was evaluated for in vitro antibacterial activity using agar well diffusion against Cutibacterium acnes (P. acnes) culture. Phytochemical analysis of the composite extract revealed the rich presence of flavonoids, phenolics, and anthraquinones. The polyherbal gels showed good physicochemical properties; however, FCEG-4 was selected for further studies. It was found to be effective against C. acnes (MTCC 1951) in agar well diffusion, as it showed a similar zone of inhibition as that of standard. Also, during in vivo studies, FCEG-4 showed comparable efficacy with clindamycin gel. It was concluded from the study that composite extracts incorporated in an aqueous-based gel system were effective in topical therapy of mild acne vulgaris, showing similar efficacy to that of clindamycin cream. [ABSTRACT FROM AUTHOR]

Published

2024

11. Plant–microbial fuel cell for electrical generation through living plants: an internal resistance insight into the plant species used.

Author

Martinez, Raymond Daniel Rodriguez

Subjects

ALOE vera, FUEL cells, PLANT species, MICROBIAL fuel cells, COMMON bean, TOMATOES, CARBON 4 photosynthesis

Abstract

Climate change is a global threat, the presence of which has encouraged the development and implementation of renewable energies, including plant–microbial fuel cells, which could generate 6 629 568–33 147 840 MWh per year due to their large-scale applicability. One of the main challenges associated with microbial cells is internal resistance—a parameter whose magnitude is influenced by several factors. In the case of plant–microbial fuel cells, adding a plant positively affects the mitigation of internal resistance. However, the species employed is expected to play an important role. In the present study, the objective was to determine as a general reference the internal resistance of cells using various plant species, among which were tomato (Solanum lycopersicum), black beans (Phaseolus vulgaris), aloe vera (Aloe vera), corn (Zea mays), and moss (Dicranidae). For this purpose, an experimental procedure was carried out to compare the manual voltage measurements with a free cell concerning the voltage obtained by adding an external resistor in series. The internal resistance values were determined as a function of the measured voltage, obtaining 177, 179, 175, 324, and 233 kΩ for aloe vera, corn, tomato, black beans, and moss, respectively. From this, it was shown that the roots of the plants represent an essential addition to the internal resistance of the cell in the short term. In contrast, plants with a C4 photosynthetic metabolism are more favourable, while C3 plants can also benefit from internal resistance during a more extended period of rhizodeposition. [ABSTRACT FROM AUTHOR]

Published

2024

12. Study of a new biocoagulant/bioflocculant mixture based on Boscia senegalensis seeds powder and Aloe vera leaves extract for the treatment of raw water intended for human consumption in rural areas of Sub-Saharan Africa.

Author

Konkobo, Frédéric Anderson, Diao, Mamounata, Ouédraogo, Elisabeth Rakisewendé, Barry, Poussian Raymond, Santara, Balamoussa, Zongo, Sandrine, Roamba, Noëlle Edwige, Dakuyo, Roger, Sanou, Abdoudramane, Kaboré, Kabakdé, Bazié, David, Savadogo, Paul Windinpsidi, and Dicko, Mamoudou Hama

Subjects

ALOE vera, WATER storage, WATER quality, DISTILLED water, AQUEOUS solutions, COAGULANTS, FLOCCULANTS

Abstract

Introduction: The research of natural and sustainable solutions to improve rural water quality in developing countries of Sub-Saharan Africa represents a major challenge. It is in this context that the aim of this study was to evaluate the efficacy of a biocoagulant/bioflocculant mixture based on Boscia senegalensis seeds powder and Aloe vera leaves extract for treating water intended for human consumption in rural areas. Methods: To do this, 100 g of Boscia senegalensis seeds powder and 50 g of Aloe vera leaves extract were prepared separately as aqueous solutions in 1 L of distilled water, then applied, respectively, as biocoagulant for Boscia and bioflocculant for Aloe to raw water samples in jar tests. The quality of the treated water was evaluated, and compared with WHO standards of acceptability. Results and discussion: Experimental results showed that the Boscia senegalensis biocoagulant (at 7 mL/L) initially reduced turbidity by 85% after 2 h of decantation. When combined with Aloe bioflocculant (at 0.4 mL/L), a 99% reduction was obtained after just 15 min of decantation. Quality control of the water treated with this biocoagulant/bioflocculant mixture showed perfect compliance of physicochemical parameters with WHO standards, and almost total elimination of pathogenic microorganisms. These results demonstrate the effectiveness of this new Boscia/Aloe mixture in the rapid potabilization of raw water intended for human consumption. However, prolonged storage of water treated with the Boscia/Aloe mixture at room temperature may lead to further bacterial proliferation due to the remaining organic matter. To avoid this problem, additional disinfection methods such as boiling, SODIS (Solar Disinfection) method or sand filtration are recommended for prolonged storage of treated water. Ultimately, the adoption of this environmentally-friendly biotechnology could not only improve public health, but also empower local communities in Sub-Saharan Africa by providing them with a local and effective methodology for tackling the growing challenges associated with access to drinking water. [ABSTRACT FROM AUTHOR]

Published

2024

13. ALOE SUPPLEMENTS IN FOCUS: INTEGRATING QUALITY MANAGEMENT AND RISK CONTROL FOR MICROBIOLOGICAL SAFETY.

Author

KUKUŁOWICZ, Anita and GORLIK, Paulina

Subjects

ESCHERICHIA coli, MICROBIAL contamination, DIETARY supplements, ALOE vera, QUALITY control, DIETARY supplements industry

Abstract

Purpose: The purpose of this paper is to assess the microbiological safety of aloe-based dietary supplements available on the Polish market. The study investigates how the form of the aloe supplement (juice vs. capsules) and the storage time affect microbial contamination levels, emphasizing the importance of quality management and risk management in ensuring the safety of plant-based supplements. Design/methodology/approach: The study focused on assessing the microbiological stability of 68 aloe-based dietary supplements, including Aloe vera juice and gel-shell capsules, at two key time points: immediately after opening (time 0) and at the final storage period (time K). Microbiological analysis included testing for the presence of aerobic mesophilic bacteria, yeasts, molds, Staphylococcus aureus, and Escherichia coli, alongside an evaluation of the active acidity and microbiological stability in the juice preparations. The research methodology emphasized a comprehensive laboratory-based approach to evaluate the impact of the supplement form (juice vs. capsules) and storage duration on microbial contamination. By focusing on the end-user stages, the study indirectly addressed risk management by identifying potential contamination risks linked to product form and storage. Additionally, quality management principles were applied through the systematic assessment of supplements' compliance with microbiological safety standards. Findings: The study found that S. aureus and E. coli were absent in all samples, with 18% of the samples free from any microbial contamination. Aloe capsules were more prone to fungal contamination compared to juices. Juices demonstrated greater microbiological stability, with approximately 19% stability compared to around 11% for capsules. These findings underscore the importance of rigorous quality control to ensure the microbiological safety of aloe supplements and highlight the need for ongoing post-market monitoring to mitigate potential health risks. Research limitations/implications: The study focused specifically on aloe supplements from the Polish market, which may limit its generalizability to other types of plant-based supplements. Future research could broaden the scope to include other popular plant supplements, such as young barley, to compare microbiological stability and safety across different categories of plant-based products. This would provide a more comprehensive view of potential risks and quality control measures needed for various supplements. Practical implications: The research underscores the need for enhanced quality control measures during the production, storage, and distribution of aloe supplements. Manufacturers should implement risk management strategies to reduce contamination risks, particularly in capsule-based products, and improve hygiene practices to meet safety standards. These findings could influence regulatory policies and encourage more rigorous post-market surveillance of dietary supplements. Social implications: The study highlights the potential risks associated with the uncontrolled consumption of plant-based supplements and emphasizes the importance of ensuring their safety. The findings can contribute to promoting more responsible supplement use and may encourage stricter regulatory frameworks, ultimately improving public health and enhancing consumer protection. Originality/value: This study provides new insights into the microbiological safety of aloebased dietary supplements available on the Polish market. It contributes to the fields of quality management and risk management in dietary supplements by offering valuable information for manufacturers, regulators, and health professionals. Additionally, the findings are relevant for consumers, as they highlight the importance of product safety and informed usage. [ABSTRACT FROM AUTHOR]

Published

2024

14. Production of Thermoplastic Starch-Aloe Vera Gel Film Embedded with Polyethylene for Improved Tensile Strength and Water Absorption.

Author

Abd Karim, Siti Fatma, Jai, Junaidah, Abdol Aziz, Rabiatul Adawiyah, Suzila Maqsood-Ul-Haque, Siti Noor, Ku Hamid, Ku Halim, and Mulana, Farid

Subjects

POLYMER blends, YOUNG'S modulus, TENSILE strength, POLYMER films, THIN films, ALOE vera

Abstract

The water absorption characteristics of thermoplastic starch (TPS) reveal its ability to interact with and absorb water, influencing its overall performance in various applications. The introduction of aloe vera (AV) gel into the TPS polymeric matrix film has proven beneficial in enhancing tensile strength but a notable deficiency is observed in lowering water absorption percentage. Therefore, this paper aims to reduce the water absorption of the TPS30AV polymer matrix film by utilizing polyethylene (PE) without reducing the tensile strength performance of the TPS30AV film. The TPS30AV film was produced using melt-blending and hot-press techniques. Six samples were presented consisting of a control film (TPS30AV) and TPS30AV film with different concentrations of PE resins (5%, 10%, 20%, 30%, and 40%). The film's performance was assessed by examining its mechanical properties, water absorption, and water solubility. The finding shows that TPS30AV with 40% PE has the highest improvement in water absorption percentage which reduces from 309.86% to 34.16% but a tremendous decrement in tensile strength performance. However, TPS30AV with 10% PE has the highest tensile strength, 9.65 MPa with a 20.99% improvement in water absorption reduction. The properties obtained for TPS30AV10PE were also good in Young's modulus and water solubility percentage. It shows that the film formulated is comparable with previous studies, and improvement has been achieved. As a conclusion, adding PE improved the polymeric structure of TPS30AV and can be used as a biodegradable food-packaging film. [ABSTRACT FROM AUTHOR]

Published

2024

15. Development of eco‐friendly PVA blended aloe vera rind CNC films and fumigation of essential oils: a novel approach to prolonging the shelf‐life of white button mushroom (Agaricus bisporus)

Author

Jangam Seshagiri, Divyashree, Rajendra, Abhishek Biswal, Sellamuthu, Periyar Selvam, and Emmanuel, Rotimi Sadiku

Subjects

*ESSENTIAL oils, *FOOD packaging, *ALOE vera, *POLYVINYL alcohol, *FOOD substitutes

Abstract

Summary The white button mushroom is a significant vegan food with a limited shelf‐life. To prolong the shelf‐life of mushrooms, certain treatment must be implemented. The current investigation is involved in the development of biocomposite film (BCF) by employing cellulose nano crystal (CNC), dispersed in a polyvinyl alcohol (PVA) matrix. The CNC extracted from aloe vera rind exhibited a sharp crystalline peak and rod‐shaped structures with a particle size of ~322.7 nm. Among the various concentrations of the CNC, incorporated in the BCF, the 8% CNC (BCF‐8%)‐loaded film showed the highest mechanical strength of ~166.73 MPa and a best crystallinity pattern. The study examined the synergistic impact of BCF along with neroli and palmarosa essential oil vapours, which effectively preserved the overall physiochemical properties and sensory characteristics of white button mushrooms for up to 8 days of storage. Hence, these innovative packaging systems are suitable substitute for the commercial food grade packaging to maintain the quality of mushrooms during postharvest storage. [ABSTRACT FROM AUTHOR]

Published

2024

16. PRE-STORAGE APPLICATION OF AQUEOUS OZONE, ALOE VERA GEL AND PACKAGING ON THE QUALITY AND STORABILITY OF ORANGE FRUITS.

Author

Kasnazany, Sidiq A. S.

Subjects

*FRUIT packaging, *PAPER bags, *VITAMIN C, *PLASTIC bags, *FRUIT quality, *ALOE vera

Abstract

This study aimed to determine the quality and storability of the orange fruit cv. Diyala after 60 days of storage at 6±1°C and 90% RH under aqueous ozone at 4 mg L-1 or 15% Aloe vera gel. The fruit packaging was applied in three types: without packing, perforated plastic bags, and paper wrapping bags. The experiment was performed in a complete randomized design with three replicates. These parameters were studied: weight loss, respiration rate, moisture content, firmness, pH, juice, total soluble solids, total titratable acidity, TSS/TA, total sugar, ascorbic acid, and total carotenoids. Results indicated that the lowest weight loss in orange fruits was recorded for the 15% Aloe vera + Perforated plastic bag (7.17%), the minimum respiration rate was recorded for the 15% Aloe vera + Perforated plastic bag (8.96 mg CO2 kg-1 h-1), the same treatment had the most significant effect on the moisture content (80.55%), all treatments significantly affected on the firmness of orange fruits. The aqueous ozone + Perforated plastic bag treatments were significantly superior to the control treatment on the pH value. On the other hand, the highest juice percentage was recorded from the control treatment—the total titratable acidity obtained in aqueous ozone + 15% Aloe vera (0.72%). Furthermore, 15% Aloe vera + without packaging significantly affected the ascorbic acid content of oranges. The aqueous ozone + 15% Aloe vera + fruit wrapping paper bag treatment greatly affected the total sugar and carotenoid contents. [ABSTRACT FROM AUTHOR]

Published

2024

17. الكشف عن التأثير المشترك لجسيمات الفضة النانوية المحضرة مننباتAloe veraمع بعض المضادات الحيوية على البكتيرياShigella spو Salmonella spالمسببة لألمراض.

Author

حسين عبد الرزاق &#1593

Subjects

*ALOE vera, *SILVER nanoparticles, *SILVER ions, *SHIGELLA, *ERYTHROMYCIN

Abstract

The purpose of this study was to evaluate the efficacy of silver nanoparticles (AgNPs) prepared with aloe vera leaf extract and several antibiotics against antibiotic-resistant Shigella and Salmonella bacteria. These bacteria were obtained from Kirkuk General Hospital and re- diagnosed based on reliable diagnostic sources. According to the study, aloe vera leaf extract reduces silver ions while changing the color of the solution to reddish brown. The silver nanoparticles produced by the aloe vera plant were detected using a UV-visible spectrophotometer and found to fall at wavelengths (430( nm The results of (111), (200), and (220) indicate that silver particles and antibiotic tablets extracted from aloe vera leaves (amoxicillin, chloramphenicol, erythromycin, and ciprofloxacin) have synergistic effects against drug-resistant bacteria such as shigella and salmonella. As a result, their antimicrobial efficacy was enhanced. [ABSTRACT FROM AUTHOR]

Published

2024

18. Formulation and evaluation of functional attributes of low‐fat mozzarella cheese using aloe vera mucilage as a potential fat replacer.

Author

Akhtar, Aqsa, Ansar, Ramish, Araki, Tetsuya, and Khalid, Nauman

Subjects

*FAT substitutes, *ALOE vera, *MUCILAGE, *RHEOLOGY, *CONSUMPTION (Economics)

Abstract

Mozzarella is a soft white fermented cheese comprising up to 40% saturated fats and is well known for its stretchability. Consumers' demand for low‐fat mozzarella cheese (LFMC) has increased with increasing health consciousness. However, the rubbery texture of LFMC tends to lower its acceptability. The study investigates the effect of aloe vera mucilage (AVM) as a fat replacer on the physicochemical, proximate composition, functional, and sensory attributes of LFMC using buffalo milk as substrate. For this purpose, mucilage from AV leaves was extracted and added in concentrations (1%, 2.5%, and 5% v/v) during the formulation of LFMC treatments using the direct acidification technique. A significant reduction in fat contents of LFMC treatments prepared using AVM (p = 0.02) was observed, and among all LFMC treatments, AT2 with 2.5% AVM exhibited significantly improved (p = 0.00) stretchability and meltability. The higher free oil content of 3.8% was observed in LFMC in To (positive control), whereas the lowest (1.28%) was reported in T* (negative control). For hardness, the lowest puncture force of 2.12 and 2.17 N was experienced by the LFMC treatments prepared using 2.5% AVM v/v. The study concluded that adding AVM with a concentration of 2.5% v/v was considered best for its organoleptic properties, improving the textural and functional attributes of LFMC. Practical Application: The demand of consumers for low‐fat mozzarella cheese (LFMC) has increased with increasing health consciousness. The rubbery texture of LFMC tends to lower its acceptability. This research will help to formulate LFMC at the industrial level, creating more diversity and availability of health‐modulating functional foods in markets. [ABSTRACT FROM AUTHOR]

Published

2024

19. Liquid Soap from Waste Cooking Oil Containing Betel and Aloe Vera Creates Low Risk to Allergic Contact Dermatitis in Rat Skin.

Author

Rahayu, Sri, Huda, Nurul, Priambodo, Rizky, Rusdi, and Lisanti, Elsa

Subjects

*EDIBLE fats & oils, *SKIN tests, *MAST cells, *ALOE vera, *ACTIVATED carbon

Abstract

The quality of used cooking oil can be improved by purifying it using bagasse activated charcoal. Purified used cooking oil can be used as raw material for soap. Use of soap can cause allergic contact dermatitis (ACD). Skin suffering from ACD is characterized by inflammatory cell infiltration of the skin, the inflammatory cells involved are mast cells, macrophages and polymorphonuclear cells (PMN), namely basophils, eosinophils and neutrophils. Therefore, inflammatory cells were chosen as a parameter for the ACD response to the use of used cooking oil liquid soap containing betel and aloe vera. Liquid soap formed was use an extract concentration of 4.5, 9 and 15 %. Skin sensitivity testing was tested on male Wistar rats aged 2 - 3 months for 14 days. Quantitative data was obtained through histopathological examination of the number of inflammatory cells, which were analyzed statistically. The results showed that the use of liquid soap with an extract concentration of 9 % (4.24 ± 0.74) and 15 % (3.96 ± 0.25) had no effect on basophil infiltration. The use of liquid soap with an extract concentration of 4.5 % (2.96 ± 1.17, 6.42 ± 0.86, 5.96 ± 0.38), 9 % (3.12 ± 0.47, 4.62 ± 0.68, 6.42 ± 1.06) and 15 % (3.36 ± 0.41, 5.08 ± 0.30, 6.44 ± 0.55) had no effect on infiltration of neutrophils, eosinophils and macrophages. The use of liquid soap with an extract concentration of 9 % (4.60 ± 0.86) had no effect on mast cell infiltration. Therefore, it can be concluded that the best concentration of 9 % extract betel and aloe vera showed no infiltration of inflammatory cells in rats' skin given soap from waste cooking oil. Thus, that the soap formed from waste cooking oil treated with bagasse activated charcoal and contain betel and aloe vera is predicted safe to used. [ABSTRACT FROM AUTHOR]

Published

2024

20. Antibacterial and Wound Healing Activity In Vitro of Individual and Combined Extracts of Tagetes nelsonii Greenm, Agave americana and Aloe vera.

Author

Olán-Jiménez, Karen Alejandra, Cruz-Rodríguez, Rosa Isela, Couder-García, Beatriz del Carmen, Jacobo-Herrera, Nadia, Ruiz-Lau, Nancy, Hernández-Cruz, Maritza del Carmen, and Ruíz-Valdiviezo, Víctor Manuel

Subjects

*METABOLITES, *ALOE vera, *SKIN injuries, *CYTOTOXINS, *PLANT extracts

Abstract

Currently, there are various physical and mechanical agents that can cause skin wounds, which are still traditionally treated with plant extracts. It has been reported that the genus Tagetes has a wide range of biological properties, including antibacterial and wound healing activity. Likewise, Agave americana extract and Aloe vera gel have shown potential in the treatment of burn wounds and other skin conditions both in vitro and in vivo. In this study, the antibacterial and wound healing activities of each of these plants were investigated, as well as the possibility of enhancing these activities by combining them. First, the secondary metabolites of the extracts were quantified, the antibacterial activity was evaluated using the Kirby-Bauer method, and their cytotoxicity was measured in 3T3 and HaCaT cells using the sulforhodamine B assay. The results revealed that Tagetes nelsonii extract had a higher amount of secondary metabolites, which is why it exhibited antibacterial activity. Finally, the scratch assay showed that the individual extracts of T. nelsonii and A. americana demonstrated greater cell migration and proliferation starting from 12 h, as well as when using the combination of A. americana extract and A. vera gel, which almost completely closed the wound compared to the control. [ABSTRACT FROM AUTHOR]

Published

2024

21. Therapeutic potential of Aloe vera-coated curcumin encapsulated nanoparticles in an Alzheimer-induced mice model: behavioural, biochemical and histopathological evidence.

Author

Sharma, Preeti, Kumari, Pooja, Sharma, Mansi, Sharma, Rekha, Paliwal, Ajita, Srivastava, Shriyansh, Ashique, Sumel, Bhowmick, Mithun, Adnan, Mohd, and Mir, Reyaz Hassan

Subjects

*ALZHEIMER'S disease, *ALOE vera, *ULTRAVIOLET-visible spectroscopy, *BIOMARKERS, *ANIMAL disease models

Abstract

The main purpose of the present study was to evaluate the therapeutic efficacy of Aloe vera-coated curcumin encapsulated nanoparticles in mitigating Alzheimer's disease progression in mice, by examining behavioural changes, biochemical markers, and histopathological alterations, thus elucidating its potential as a treatment strategy. The green synthesis method was used to synthesise this nanoformulation, which was then characterised using a variety of techniques, including percentage encapsulation efficacy, UV-visible spectroscopy, DLS, FT-IR, FESEM, and EDX. Several in-vivo assessments, including behavioural evaluations, dose optimisation studies, oxidative stress marker estimation, and histological studies, were conducted to determine the potential therapeutic impact of nanoformulation on the Alzheimer-induced mice model. The synthesised nanoparticles show a mean diameter of 76.12 nm ±1.23, a PDI of 0.313 ± 0.02, a zeta potential of 6.27 ± 0.65 mV, and the percentage encapsulation efficiency between 90% and 95% indicating good stability of synthesised nanoformulation. With the help of Morris water maze, Y-maze, and novel object recognition assay, the learning capacity and memory were assessed, and the results show that the synthesised nanoformulation significantly decreased the transfer latency to reach baited arm or to the hidden platform within 7 days. The formulation demonstrated significant biochemical benefits and remarkable cognitive advantages, establishing it as a prospective therapeutic intervention option that is both safe and effective. [ABSTRACT FROM AUTHOR]

Published

2024

22. Production and characterization of novel biodegradable films using fruit industrial waste and aloe vera gel.

Author

Soydal, U., Ahmetli, G., Yıldırım, M., Işık, M., Okcuoglu, M. C., and Bul, M. M.

Subjects

*SOUR cherry, *FRUIT juice industry, *SOY oil, *INDUSTRIAL wastes, *WASTE management, *ALOE, *ALOE vera

Abstract

One of the huge volumes of fruit waste that is a concern for waste management challenges today is the fruit juice industry sour cherry kernel (SCK) waste. The gel obtained by processing the leaf extract of aloe vera (AVG) is the most commercial aloe species and has become a major industry worldwide. This study used AVG and SCK as an additive in acrylated epoxidized soybean oil (AESO) to prepare biobased film materials. Two types of processes were used in curing the films: UV curing from acrylate groups and thermal curing from epoxide groups of AESO. The effect of additive type and amount on antibacterial activity, mechanical, swelling, mass loss, and water vapor permeability properties of the films were investigated. The produced films were characterized using FTIR spectra. Thermal properties were investigated by thermogravimetric analysis (TGA). The biodegradability of AESO was determined as 7.095%. In comparison, the highest biodegradation was observed in films with 50% additive content and this value was measured as 8.89% and 39.95% for AVG- and SCK-containing films, respectively. In addition, the corrosion tests of the films were also carried out and the films with SCK additives were more resistant to corrosive environments. Data were analyzed using an ANOVA test. [ABSTRACT FROM AUTHOR]

Published

2024

23. Enzymatic glycosylation of aloesone performed by plant UDP-dependent glycosyltransferases.

Author

Putkaradze, Natalia, Dato, Laura, Kırtel, Onur, Hansen, Jørgen, and Welner, Ditte Hededam

Subjects

*CULTIVARS, *RHUBARB, *ARABIDOPSIS thaliana, *SEQUENCE analysis, *NATURAL products, *ALOE vera, *THIAMIN pyrophosphate

Abstract

Aloesone is a bioactive natural product and biosynthetic precursor of rare glucosides found in rhubarb and some aloe plants including Aloe vera. This study aimed to investigate biocatalytic aloesone glycosylation and more than 400 uridine diphosphate-dependent glycosyltransferase (UGT) candidates, including multifunctional and promiscuous enzymes from a variety of plant species were assayed. As a result, 137 selective aloesone UGTs were discovered, including four from the natural producer rhubarb. Rhubarb UGT72B49 was further studied and its catalytic constants (k cat = 0.00092 ± 0.00003 s−1, K M = 30 ± 2.5 μM) as well as temperature and pH optima (50 °C and pH 7, respectively) were determined. We further aimed to find an efficient aloesone glycosylating enzyme with potential application for biocatalytic production of the glucoside. We discovered UGT71C1 from Arabidopsis thaliana as an efficient aloesone UGT showing a 167-fold higher catalytic efficiency compared to that of UGT72B49. Interestingly, sequence analysis of all the 137 newly identified aloesone UGTs showed that they belong to different phylogenetic groups, with the highest representation in groups B, D, E, F and L. Finally, our study indicates that aloesone C -glycosylation is highly specific and rare, since it was not possible to achieve in an efficient manner with any of the 422 UGTs assayed, including multifunctional GTs and 28 known C -UGTs. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effect of Aloe vera Gel and Sodium Metabisulphite on Expression of Fibroblast Growth Factor in Incision Wound of Rats.

Author

Purnamasari, Yulia Wiji, Juniarti, Rahmah, Nunung Ainur, Ernanda, Hafid, and Sari, Wening

Subjects

FIBROBLAST growth factors, SPRAGUE Dawley rats, ALOE vera, SOMATOTROPIN, GLUCOMANNAN

Abstract

An incision wound is a wound caused by being sliced. Two ingredients that play a key role in the wound-healing process are glucomannan and acemannan, which are rich in polysaccharides and growth hormones. Growth hormones stimulate fibroblast activity and proliferation. The present study involved 35 Sprague Dawley male rats, aged 2-3 months old and weighing 200-300 grams. The study comprised seven groups including, negative control group (G1), positive control (aquades, G2), betadine 10% (G3), gel base (0.5 mg, G4), gel base + sodium metabisulfite 0.2 gr (G5), gel base + Aloe vera 5% (G6), and gel base + Aloe vera 5% + sodium metabisulfite 0.2 gr (G7). Each group had five replications. Initially, a 4-cm incision was made on the dorsal skin of each rat. The study lasted 15 days with observations made on days 3, 7, and 15. After the observation period, the rats were anesthetized and then terminated to collect skin tissues for microscopic examination. The tissue samples were then stained immunohistochemically to assess fibroblast growth factor (FGF) expressions. The results showed that the highest FGF expression was observed in the 5% Aloe vera + 2% metabisulfite group (G7), while the lowest FGF expression was in the negative control group (G1). It is concluded that Aloe vera L. extract gel at 5% + 2% metabisulfite (G7) significantly enhances the expression of FGF. [ABSTRACT FROM AUTHOR]

Published

2024

25. Multifunctional Sericin-Chitosan-Aloe Vera Composite Film for Food Packaging.

Author

Kavi, Palepu, Tarangini, Korumilli, Kumaravel, Varuna, Rao, Korukonda Jagajjanani, Wacławek, Stanisław, Cheong, Jun Young, and Padil, Vinod V.T.

Subjects

FOOD packaging, ALOE vera, WATER vapor, TOXICITY testing, POLYMER films

Abstract

In recent years, the demand for innovative, sustainable, and efficient food packaging solutions has surged in response to growing concerns about environmental impact, food safety, and quality preservation. A sericin-based polymer composite film with multifunctional properties shows promise as an alternative for enhancing food packaging. In this study, sericin-based composite films were prepared by incorporating Aloe vera gel, chitosan, and glycerol into a sericin solution (1.5 % w/v) through facile homogenisation at 70 °C, followed by casting and subsequent drying on a glass platform. The resulting dried film exhibited uniformity, a smooth texture, and successful integration of the composite components. The film demonstrated a moisture content of 21.02 % and a porosity of 3.56 %, with a thickness of (62.1 ± 2.3) µm. It exhibited moderate transparency with reasonable water vapour permeability. Notably, the DPPH scavenging results indicated that the film has a potent antioxidant capacity with an efficacy rate of 99.1 %, supported further by a phenolic content of 11.5 mg GAE per gram of film. Controlled solute migration of components from the composite films was observed, particularly under acidic conditions. Importantly, toxicity evaluation on A549 cells revealed no adverse effects, even at higher concentrations. Due to its consistent film-forming ability, antioxidant potency, controlled migration, and safe nature, the developed sericin polymer-based film could be an effective alternative for food packaging sensitive foods, maintaining oxidative stability, reducing moisture loss, improving quality, and extending shelf life. [ABSTRACT FROM AUTHOR]

Published

2024

26. Vegetative Propagation of Wild Prometheum sempervivoides (Fischer ex M. Bieb.) H. Ohba by Leaf Cutting: Effects of Auxin and Some Substances.

Author

PARLAKOVA KARAGÖZ, Fazilet, DURSUN, Atilla, and YILDIRIM, Kadir

Subjects

ORNAMENTAL plants, ALOE vera, SUCCULENT plants, PLANT extracts, PLANT cuttings, CINNAMON, ROOTING of plant cuttings, VEGETATIVE propagation

Abstract

Copyright of Research in Agricultural Sciences is the property of Ataturk University Coordinatorship of Scientific Journals and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

27. In Vitro Wound-Healing Potential of Phenolic and Polysaccharide Extracts of Aloe vera Gel.

Author

Iosageanu, Andreea, Mihai, Elena, Seciu-Grama, Ana-Maria, Utoiu, Elena, Gaspar-Pintiliescu, Alexandra, Gatea, Florentina, Cimpean, Anisoara, and Craciunescu, Oana

Subjects

CAPILLARY electrophoresis, CAFFEIC acid, REACTIVE oxygen species, ALOE vera, WOUND healing

Abstract

The present study aimed to conduct a comparative investigation of the biological properties of phenolic and polysaccharide extracts obtained using an ultrasound-assisted technique from Aloe vera gel and their effects on each stage of the wound healing process in in vitro experimental models. HPLC analysis showed that the phenolic extract contained aloin, ferulic, and caffeic acid, as well as quercetin dihydrate, as major compounds. Capillary zone electrophoresis indicated the prevalence of mannose and glucose in the polysaccharide extract. Cell culture testing revealed the anti-inflammatory properties of the phenolic extract at a concentration of 0.25 mg/mL through significant inhibition of pro-inflammatory cytokines—up to 28% TNF-α and 11% IL-8 secretion—in inflamed THP-1-derived macrophages, while a pro-inflammatory effect was observed at 0.5 mg/mL. The phenolic extract induced 18% stimulation of L929 fibroblast proliferation at a concentration of 0.5 mg/mL, enhanced the cell migration rate by 20%, and increased collagen type I synthesis by 18%. Moreover, the phenolic extract exhibited superior antioxidant properties by scavenging free DPPH (IC50 of 2.50 mg/mL) and ABTS (16.47 mM TE/g) radicals, and 46% inhibition of intracellular reactive oxygen species (ROS) production was achieved. The polysaccharide extract demonstrated a greater increase in collagen synthesis up to 25%, as well as antibacterial activity against Staphylococcus aureus with a bacteriostatic effect at 25 mg/mL and a bactericidal one at 50 mg/mL. All these findings indicate that the phenolic extract might be more beneficial in formulations intended for the initial phases of wound healing, such as inflammation and proliferation, while the polysaccharide extract could be more suitable for use during the remodeling stage. Moreover, they might be combined with other biomaterials, acting as efficient dressings with anti-inflammatory, antioxidant, and antibacterial properties for rapid recovery of chronic wounds. [ABSTRACT FROM AUTHOR]

Published

2024

28. Investigating photocatalytic removal of BTEXS in aqueous solution using a green synthesis of ALV-TiO2/Co-MCM-41 nanocomposite under visible light.

Author

Heydari, Mohammad, Tabatabaie, Tayebeh, Amiri, Fazel, and Hashemi, Seyed Enayat

Abstract

Industrial wastewater containing benzene, toluene, ethylbenzene, xylene, and styrene (BTEXS) poses serious risks to soil, water, air, and especially people due to their hazardous contents. Therefore, it is crucial to remove it from wastewater that has been tainted by this kind of pollutant. Photocatalytic performance was examined when removing BTEXS from an Aloe vera-titanium oxide nanocomposite (ALV-TiO2) that had three different percentages doped on a Co-MCM-41 nanocatalyst. Nanocomposite structures were characterized by FTIR, XRD, zeta potential, XRF, N2 adsorption-desorption, EDX, FESEM, and TEM measurement. A laboratory-scale double-walled reactor was used for all experiments. At pH 11, the reaction time of 90 min, the total concentration of BTEXS cyclic hydrocarbon solution of 250 mg/L, and the nanocomposite dose of 1.0 g, optimal results were obtained. Surprisingly, the findings demonstrate a relationship between the addition of more ALV-TiO2 nanocomposite and the photocatalytic performance of the nanocomposite. Under ideal circumstances, 89.18% of the cyclic hydrocarbons in industrial wastewater samples were removed. Also, their reusability was evaluated, it was observed that the particles were reusable in five cycles, and a 5% reduction in their degradation efficiency was observed. The appropriate dosages of photocatalytic nanocomposite for a variety of other real-world applications can be directly guided by this study. [ABSTRACT FROM AUTHOR]

Published

2024

29. Voltammetric Sensor Based on Titania Nanoparticles Synthesized with Aloe vera Extract for the Quantification of Dithiophosphates in Industrial and Environmental Samples.

Author

Vilasó-Cadre, Javier E., Ramírez-Rodríguez, Alondra, Hidalgo, Juan, Reyes-Domínguez, Iván A., Cruz, Roel, Flores, Mizraim U., Rodríguez-Torres, Israel, Briones-Gallardo, Roberto, Hidalgo, Luis, and Piña Leyte-Vidal, Juan Jesús

Subjects

ALOE vera, CARBON electrodes, SOIL pollution, SQUARE waves, CHARGE transfer

Abstract

In this work, TiO2 spherical nanoparticles with a mean diameter of 10.08 nm (SD = 4.54 nm) were synthesized using Aloe vera extract. Rutile, brookite, and anatase crystalline phases were identified. The surface morphology of a carbon paste electrode does not change in the presence of nanoparticles; however, the surface chemical composition does. The voltammetric response to dicresyl dithiophosphate was higher when the electrode was modified with TiO2 nanoparticles. After an electrochemical response study from pH 1.0 to 12.0, pH 7.0 was selected for the electroanalysis. The electroactive area of the modified sensor was 0.036 cm2, while it was 0.026 cm2 for the bare electrode. The oxidation process showed mixed adsorption-diffusion control. The charge transfer resistance of the modified sensor (530.1 Ω, SD = 4.08 Ω) was much lower than that of the bare electrode (4298 Ω, SD = 8.53 Ω). The linear quantitative range by square wave voltammetry was from 5 to 150 μmol/L, with a limit of detection of 1.89 μmol/L and a limit of quantification of 6.26 μmol/L under optimal pulse parameters of 50 Hz frequency, 1 mV step potential, and 25 mV pulse amplitude. The sensor response was repeatable and reproducible over 30 days. The results on real flotation and synthetically contaminated soil samples were statistically equivalent to those obtained by UV-vis spectrophotometry. A dithiocarbamate showed an interfering effect on the sensor response to dithiophosphate. [ABSTRACT FROM AUTHOR]

Published

2024

30. Aloe vera gel coating maintains physicochemical parameters, extends the storage life, and preserves the qualities of Lantundan and Cavendish bananas.

Author

Alhassan, Nasiru and Ndomakaah, Adowah

Subjects

ALOE vera, BANANAS, SURFACE coatings, CULTIVARS, HUMIDITY, STORAGE, FRUIT

Abstract

Purpose: Bananas have been experiencing increased production worldwide due to increased cultivated areas over the last three decades. However, postharvest losses of bananas are the major concern due to their highly perishable nature and therefore require appropriate treatments and storage methods to extend storage life. This study evaluates the effects of Aloe vera coating and storage temperatures on the physiological changes, and sensorial attributes of Lantundan and Cavendish bananas. Research method: These fruits were coated with Aloe vera and stored at 10°C or 25 ± 2°C and relative humidity of 70-75% or 50-55% respectively. The fruits were evaluated every 2 days for 10 days. Findings: Aloe vera treatment reduced weight loss, inhibited peel colour changes, delayed total soluble solids and titratable acidity changes, and minimised decay of the two banana cultivars. Coating did not significantly affect taste and overall acceptability, although panelists preferred coated bananas. The combined effects of Aloe vera coating and storage at 10°C was the most effective treatment in maintaining Lantundan and Cavendish bananas qualities. Research limitations: This study could not measure endogenous ethylene and respiration to ascertain their impact on peel colour changes to a lack of equipment. Originality/Value: It therefore extended the shelf life of the fruits to 10 days, compared with uncoated bananas which had a shorter shelf life of 6 days. [ABSTRACT FROM AUTHOR]

Published

2024

31. Impact of Harvesting Stages and Postharvest Treatments on the Quality and Storability of Tomato Fruits (Solanum lycopersicum L.) cv. Sangaw.

Author

Mouhamed, Bzhwean Anwar and Kasnazany, Sidiq Aziz Sidiq

Subjects

FRUIT harvesting, QUALITY of life, TOMATO harvesting, VITAMIN C, WATER storage, TOMATOES, ALOE vera, LYCOPENE

Abstract

The objective of this study was to evaluate the impact of harvesting stages (turning-color fruit and light red color) and postharvest treatments (distilled water, hot water at 35 °C, 10% Aloe vera, 2% CaCl2, 5% Mint, and 5% Catnip) for 5 min on the quality and storability of tomato fruits cv. Sangaw stored at 10 ± 1 °C and a relative humidity of 90%–95% for 20 days. Fruit harvested at the turning-color fruit stage presented significantly lower weight loss, greater firmness, and higher amounts of vitamin C, total phenol, and calcium (3.22%, 1118.31 g mm/s, 15.83 mg 100 g−1, 95.49 mg 100 mL−1 FW, and 0.14%, respectively). However, the tomatoes harvested from the light red color fruit stage presented the highest contents of total soluble sugars, total sugars, and lycopene (4.36%, 3.99%, and 41.49 mg kg−1, respectively). Notably, the postharvest treatment of tomato fruits with 2% CaCl2 significantly decreased weight loss and resulted in greater firmness, pH, total sugar, total phenol, and calcium contents (3.90%, 1212.39 g mm/s, 4.83, 3.85%, 95.60 mg 100 mL−1 FW, and 0.18%, respectively) than the control. Hence, coating with 10% Aloe vera resulted in the highest amount of total soluble solids and the highest amount of vitamin C. Tomato picked at the turning-color fruit stage and immersed in 5% Mint significantly lowered the loss of fruit weight, increased the total titratable acidity, and had the lowest content of lycopene. Additionally, the fruits harvested at the same stage and immersed in 2% CaCl2 retained greater firmness, total phenol content, and calcium content. On the other hand, fruits harvested in the light red stage and dipped in 5% Mint presented the highest total soluble sugars and total sugar contents. Finally, the harvested tomato fruits coated with 10% Aloe vera retained a relatively high level of vitamin C, indicating the storage life and quality of the tomato fruits. [ABSTRACT FROM AUTHOR]

Published

2024

32. PRE-STORAGE APPLICATION OF AQUEOUS OZONE, ALOE VERA GEL AND PACKAGING ON THE QUALITY AND STORABILITY OF ORANGE FRUITS

Author

Sidiq Sidiq Kasnazany

Subjects

orange fruits, aqueous ozone, aloe vera, packaging, storability and quality, Agriculture

Abstract

This study aimed to determine the quality and storability of the orange fruit cv. Diyala after 60 days of storage at 6±1°C and 90% RH under aqueous ozone at 4 mg L-1 or 15% Aloe vera gel. The fruit packaging was applied in three types: without packing, perforated plastic bags, and paper wrapping bags. The experiment was performed in a complete randomized design with three replicates. These parameters were studied: weight loss, respiration rate, moisture content, firmness, pH, juice, total soluble solids, total titratable acidity, TSS/TA, total sugar, ascorbic acid, and total carotenoids. Results indicated that the lowest weight loss in orange fruits was recorded for the 15% Aloe vera + Perforated plastic bag (7.17%), the minimum respiration rate was recorded for the 15% Aloe vera + Perforated plastic bag (8.96 mg CO2 kg-1 h-1), the same treatment had the most significant effect on the moisture content (80.55%), all treatments significantly affected on the firmness of orange fruits. The aqueous ozone + Perforated plastic bag treatments were significantly superior to the control treatment on the pH value. On the other hand, the highest juice percentage was recorded from the control treatment—the total titratable acidity obtained in aqueous ozone + 15% Aloe vera (0.72%). Furthermore, 15% Aloe vera + without packaging significantly affected the ascorbic acid content of oranges. The aqueous ozone + 15% Aloe vera + fruit wrapping paper bag treatment greatly affected the total sugar and carotenoid contents.

Published

2024

33. Vegetative Propagation of Wild Prometheum sempervivoides (Fischer Ex M. Bieb.) H. Ohba by Leaf Cutting: Effects of Auxin and Some Substances

Author

Kadir Yıldırım, Atilla Dursun, and Fazilet Parlakova Karagöz

Subjects

p. sempervivoides, köklenme, aloe vera, yabani çiçek, süs bitkileri, hormon, rooting, aleo vera, wild flower, ornamental plants, hormone, Agriculture

Abstract

The aim of the research is to determine the effects of different rooting contents [control (water), plant growth regulator-rooting hormone (H1: 0.25 g l-1, H2: 0.50 g l-1 and H3: 1.0 g l-1), cinnamon powder (T) and Aloe vera gel (AV)] and two different planting times on the rooting of leaf cuttings prepared from the stock mother plants of wild Prometheum sempervivoides (Fisch. ex Bieb.) H. Ohba taxon. Observations and measurements of vitality rate (%), number of rooted cuttings (NR), number of callusing cuttings (NC), maximum root length (MRL), rooting rate (%) and rooting scale (1-5) were made on cuttings whose rooting was completed. The results were evaluated statistically. The most positive rooting effect was determined in the H3 application, which is the highest dose of the commercial rooting hormone tested in the study. Cinnamon powder application was determined as a more effective natural extract for rooting leaf cuttings of P. sempervivoides when compared to Aloe vera gel application. At the end of our study, in which the effects of different planting times were also examined, it was determined that planting the leaf cuttings of P. sempervivoides as soon as they were taken from the stock mother plant had a positive effect on rooting. The very good quality roots were observed in H1 (0 h), H2 (0 h), H3 (0 h) and H3 (24 h) applications. These applications can be recommended for rooting the leaf cuttings of P. sempervivoides succulent plant. It was also concluded that P. sempervivoides can be reproduced by vegetative propagation method using leaf cuttings.

Published

2024

34. Aloe vera gel coating maintains physicochemical parameters, extends the storage life, and preserves the qualities of Lantundan and Cavendish bananas

Author

Nasiru Alhassan and Adowah Ndomakaah

Subjects

aloe vera, ambient storage, banana fruit, cold storage, sensory qualities, Agriculture

Abstract

Purpose: Bananas have been experiencing increased production worldwide due to increased cultivated areas over the last three decades. However, postharvest losses of bananas are the major concern due to their highly perishable nature and therefore require appropriate treatments and storage methods to extend storage life. This study evaluates the effects of Aloe vera coating and storage temperatures on the physiological changes, and sensorial attributes of Lantundan and Cavendish bananas. Research method: These fruits were coated with Aloe vera and stored at 10°C or 25 ± 2°C and relative humidity of 70-75% or 50-55% respectively. The fruits were evaluated every 2 days for 10 days. Findings: Aloe vera treatment reduced weight loss, inhibited peel colour changes, delayed total soluble solids and titratable acidity changes, and minimised decay of the two banana cultivars. Coating did not significantly affect taste and overall acceptability, although panelists preferred coated bananas. The combined effects of Aloe vera coating and storage at 10°C was the most effective treatment in maintaining Lantundan and Cavendish bananas qualities. Research limitations: This study could not measure endogenous ethylene and respiration to ascertain their impact on peel colour changes to a lack of equipment. Originality/Value: It therefore extended the shelf life of the fruits to 10 days, compared with uncoated bananas which had a shorter shelf life of 6 days.

Published

2024

35. Antioxidant evaluation of lemon oil and Aloe vera nano emulsion to test its effectiveness against disease causing fish and shrimp pathogens.

Author

Sravani, Gurakala and Rani, D. Jenila

Subjects

*FISH pathogens, *FISH diseases, *OXIDANT status, *CITRUS, *SHRIMPS, *ALOE vera

Abstract

The primary objective of this research is to examine the antioxidants capacity of nano-formulated citrus oil along with aloe vera, as well as their efficacious towards pathogens that cause sickness in fishes as well as prawns. Supplies and Procedures: A standard methodology was followed to prepare the aloe vera nano-emulsion and citrus oil. The research used a sample size of 12 people, alpha error of -0.05, beta of 0.2, G power of 80%, reliability level of 95%, and enrolling ratios of 1. The antioxidant activity of the nano-formulated citrus oil along with aloe vera towards fish as well as prawn infections was evaluated, as well as their in vivo effectiveness. Results: Aloe vera demonstrated relatively important findings for antioxidants operations, and a separate T test was conducted for nano-formulated citrus oil. Polyphenols (591.8± 0.8 mg GAE/g at 50µl) and flavonoids (56.31± 0.5 mg GAE/g at 50µl) seem to be higher in the nano-formulated citrus oil as well as aloe vera (P<0.05). Conclusion: The invivo effectiveness of nano-formulated aloe vera and citrus oil towards pathogens that cause disease in fish along with prawns was also investigated, along with the antioxidant abilities of these substances. [ABSTRACT FROM AUTHOR]

Published

2024

36. Cashew leaf extract gel as antibacterial with CMC-Na as gelling agent.

Author

Chabib, Lutfi, Hartanto, Syukri, Yandi, and Suryani, Arman

Subjects

*CASHEW tree, *CASHEW nuts, *CARBOXYMETHYLCELLULOSE, *EXTRACTS, *TRITERPENOIDS, *ALOE vera

Abstract

The ethanol extract of cashew leaves has very strong antibacterial substances such as flavonoids, tannins, and triterpenoids. The purpose of this study was to examine the optimal viscosity of the cashew leaf extract gel preparation with variations in the concentration of CMC-Na as a gelling agent. Extraction of cashew leaves using maceration method using 70% ethanol for 2 days. The characterization of the gel preparations observed included viscosity tests, pH tests, homogeneity tests and microbiological tests. The best viscosity is shown by formula 2 with a value of 259.067 Cpas which is neither too runny nor too thick. Testing the pH of the three formulations of the cashew extract gel, the pH value was almost the same as the average pH of 4.45. The results of testing the stickiness of the cashew leaf gel preparation obtained a low value below 0.00081 cm/second, the adhesion test was carried out to find out how long the preparation could stick to the surface of the skin, the higher the stickiness the more drug was absorbed into the skin. The results of the particle size test of formula 2 have the smallest size of 142.20 m ± 0.297 with the smallest measurement difference which shows that formula 2 is more homogeneous than the other formulas. The results of the microbiological test showed good inhibition in formula 1 with an average value of 16.55 mm ± 1.909 and formula 2 with an average value of 16.30 mm ± 2.546. This result is a strong inhibitory ability of the test. In conclusion, the concentration of carboxymethylcellulose in formulation 2 has better characteristics as a carrier for cashew leaf extract and is effective in inhibiting bacteria classified as strong antibacterial. [ABSTRACT FROM AUTHOR]

Published

2024

37. Ameliorative effect of Aloe vera supplementation on the growth indices, intestinal health and oocysts shedding under an experimentally challenged with coccidia in Japanese quails

Author

Abdul Hafeez, Rafi Ullah Khan, Shabana Naz, Sajida Batool, Rifat Ullah Khan, Ibrahim A. Alhidary, Samia H. Abdelrahman, and Ruchi Tiwari

Subjects

coccidia, quails, aloe vera, performance, gut health, Animal culture, SF1-1100

Abstract

Coccidia poses significant challenges to poultry farming, impacting productivity and welfare. This study aimed to evaluate the efficacy of Aloe vera supplementation in managing coccidial infection in quails. A total of 360 one-day-old quails chicks were divided into five groups (six replicates with twelve birds per replicate) and challenged with mixed sporulated oocysts of Eimeria species (E. tenella, E. nicatrix, E. maxima, E. mitis). The groups included a positive control (infected, untreated), negative control (uninfected, untreated), and three treatment groups: Amprolium (1 g/l water), Aloe vera 2% (AV2), and Aloe vera 4% (AV4). Results demonstrated significant (p

Published

2024

38. In vivo and in vitro efficacy of the ithmid kohl/zinc-oxide nanoparticles, ithmid kohl/Aloe vera, and zinc-oxide nanoparticles/Aloe vera for the treatment of bacterial endophthalmitis

Author

Shaimaa Obaid Hasson, Hasanain Kamil Hasan, Sumod Abdul Kadhem Salman, Hawraa K. Judi, Sousan Akrami, Morteza Saki, Maryam Adil Hasan, and Durah Fares Hashem

Subjects

Aloe vera, Bacterial endophthalmitis, Ithmid kohl, ZnONPs, Medicine, Science

Abstract

Abstract The aim of this study was to investigate the efficacy of the ithmid kohl/zinc-oxide nanoparticles (ZnONPs), ithmid kohl/Aloe vera, and ZnONPs/Aloe vera in the treatment of bacterial endophthalmitis. The endophthalmitis model was prepared by contaminating both eyes of 24 healthy adult male albino rabbits with a clinical isolate of Klebsiella pneumoniae. The animals were randomly divided into eight groups (A-H) according to the treatment. Group A received 1 ml of ithmid kohl/ZnONPs ointment, group B received 1 ml of ithmid kohl/Aloe vera gel ointment, group C received 1 ml of ZnONPs/Aloe vera gel ointment, and groups D, E, and F were treated with 1 ml of ithmid kohl solution (0.5 g/ml in distilled water), 1 ml of ZnONPs (0.5 g/ml) colloidal dispersion, and 1 ml of Aloe vera gel, respectively. Group G received 100 μl of a tetracycline antibiotic solution (final concentration: 16 µg/ml), and group H received sterile distilled water (no treatment). In vitro antibacterial activity was evaluated against K. pneumoniae using the agar well diffusion. The combination of ithmid kohl/ZnONPs was the most effective formulation for treating endophthalmitis model in infected rabbits within 2 days. In vitro antibacterial assay confirmed the potential of the ithmid kohl/ZnONPs formulation, which had the largest zone of inhibition (31 mm) among the compounds tested. The preparation of the ithmid kohl/ZnONPs formulation and its in vivo experiment in albino rabbits for the treatment of bacterial endophthalmitis was an innovative approach that has shown promise and may potentially serve as a viable alternative in clinical practice.

Published

2024

39. Mechanical, vibration damping and acoustics characteristics of hybrid aloe vera /jute/polyester composites

Author

S. Senthilrajan, N. Venkateshwaran, R. Giri, Sikiru O. Ismail, Rajini Nagarajan, Kumar Krishnan, and Faruq Mohammad

Subjects

Woven, Jute, Aloe vera, Hybrid, Vibration, Acoustic, Mining engineering. Metallurgy, TN1-997

Abstract

The development of biodegradable hybrid fibre composites is gaining pace in the automotive and construction industries due to their lightweight structural applications, which offer considerable benefits for the environment. In this present investigation, hybrid bio composites were fabricated using a compression molding machine with plain woven jute and aloe vera mats along with polyester resin as the matrix. Six types of hybrid biocomposite laminates were prepared by varying the stacking arrangement of jute and aloe-vera mats to analyse the impact of stacking arrangements on vibration damping and acoustic behaviour of these hybrid bio composites. From the results, it is concluded that the maximum value of natural frequency is obtained from the JJAJ type of composite. i.e., 157, 326, and 370 Hz for Modes I, II, and III respectively, due to good interlacing of fibres in the weft and warp directions. J/J/A/J (AJ3) hybrid bio composite has highest sound absorption coefficient of 0.47 at 3000 Hz, and a better transmission loss i.e 19.84 dB, according to the results of the acoustic research. The comparison of experimental and theoretical analysis was carried out, and found that experimental and theoretical values are closely related to each other.

Published

2024

40. Aloe vera supplementation improves cardiovascular risk factors in hemodialysis patients: A randomized, double-blind, placebo-controlled trial

Author

Akram Kooshki, Mohammad Reza Memarzadeh, Mohammad Hassan Rakhshani, Roya Akbarzadeh, Tahereh Tofighiyan, and Elaheh Foroumandi

Subjects

aloe vera, c-reactive protein, inflammation, lipids, hemodialysis, Therapeutics. Pharmacology, RM1-950

Abstract

Objective: This study assessed the effects of Aloe verasupplementation on serum inflammatory factors, blood sugar andlipid profiles in hemodialysis patients.Materials and Methods: Totally, 50 hemodialysis patients wereallocated randomly to either Aloe vera or placebo groups. TheAloe vera group received 2 Aloe vera capsules daily for 8 weeks(500 mg/day). Serum C-reactive protein (hs- CRP), Fasting bloodglucose (FBS), and lipid profiles levels were evaluated at thebaseline and the end of the eighth week.Results: Aloe vera supplementation for 8 weeks was associatedwith a significant reduction of serum hs- CRP (p=0.004), totalcholesterol (p=0.01), low density lipoprotein (LDL) (p=0.02) levesand increased high density lipoprotein (HDL) (p=0.002)concentration in the hemodialysis patients.Conclusion: Aloe vera supplementation is beneficial inimprovement of cardiovascular risk factors in hemodialysispatients

Published

2024

41. Comparative Evaluation of Therapeutic Effects of Curcumin and Aloe Vera with Ultrasound as An Adjuvant in the Management of Oral Submucous Fibrosis

Author

Rajamohan Radhamani Mahendra Raj, Thalamalai Saravanan, Jaisankar Sowmiya, Ganesha Murthi Sasipriyadarsini, and Kanapathy Ramalingam Shakila

Subjects

aloe vera, curcumin, oral submucous fibrosis, ultrasound therapy, Dentistry, RK1-715, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Background: Oral submucous fibrosis (OSMF) is an insidious chronic inflammatory progressive disease and one of the potentially malignant disorders, predominantly affecting the oral cavity. Objective: The current study aimed to compare the efficacy of curcumin and aloe vera along with ultrasound in the management of OSMF. Materials and Methods: In this intervention study, 40 participants with OSMF were allocated into two groups. Group A included 20 patients who received curcumin (curenext) oral gel for 3 months along with ultrasound therapy. Group B included 20 patients who received aloe vera gel (forever living gel) along with ultrasound therapy. Results: Following therapies, patients in the group A showed clinically significant improvements when compared to group B. Conclusion: The combined therapy of curcumin and ultrasound shows potential in managing OSMF by effectively alleviating clinical symptoms without any reported side effects. It is advised that future studies employ larger samples and longer treatment follow-up.

Published

2024

42. Aloe vera leaf (<italic>Aloe barbadensis</italic>) iron-oxide nanoparticles improved growth performance, immune response and survival of African sharptooth catfish <italic>(Clarias gariepinus</italic>) challenged with <italic>Aeromonas hydrophilia</italic>.

Author

Nwanna, L. C. and Ikuesan, B. B.

Subjects

*IRON oxide nanoparticles, *CLARIAS gariepinus, *LEUCOCYTES, *ERYTHROCYTES, *BLOOD sedimentation, *WEIGHT gain

Abstract

Nano-sized essential minerals and nutrients synthesized from plant extracts are being explored for their impact on growth, immune stimulation, and overall fish health. This study evaluated the growth performance, health, and survival of African catfish, Clarias gariepinus, particularly when challenged with Aeromonas hydrophila. Biosynthesized Aloe vera leaf iron oxide nanoparticles (ANP) were confirmed by ultra-violet spectroscopy, Fourier-transform infrared spectroscopy, and scanning electron microscopy as nanoparticles. The ANPs were added to the basal diet at 0, 40, 80, 120, and 160 mg/kg, forming five treatments. The fish were fed to apparent satiation twice daily for 84 days. Results showed that dietary ANP improved weight gain, specific growth rate, protein efficiency ratio, and feed conversion ratio significantly with increasing levels of the nanoparticles. Fish fed 160 mg/kg ANP diet had a weight gain of 102.12 ± 18.91 g, while fish fed the control diet had a weight gain of 78.89 ± 22.2 g. Fish quality indices, including head-to-body percentage, visceral-somatic ratio, and flesh ratio, were similar (p > .05) across treatments. Supplementation of ANP improved significantly fish carcass quality and survival rate compared to the control diet. Fish fed nanoparticle diets had significantly different (p < .05) moisture, ash, and protein contents across all treatments. The fat content decreased with increasing nanoparticle levels, with the control diet showing the highest value (14.54%) and 160 mg/kg ANP diet the lowest (12.94%). Dietary ANP also improved carcass iron and zinc contents significantly. Additionally, ANP increased packed cell volume, red blood cells, white blood cells, hemoglobin, and erythrocyte sedimentation count more than the control diet. Alanine transferase, aspartate transferase, catalase, and superoxide dismutase levels increased with ANP in the diets. Fish-fed ANP diets had higher (p < .05) total serum protein than fish fed the control diet. ANP diets reduced blood glucose levels significantly, and cholesterol levels decreased marginally with increasing nanoparticle levels. Conclusively, ANP positively influenced the growth, immunity, and survival of C. gariepinus. [ABSTRACT FROM AUTHOR]

Published

2024

43. Unveiling the Potential of Aloe vera Gel Supplementation in a Cooling Extender: A Breakthrough in Enhancing Rooster Sperm Quality and Fertility Ability.

Author

Pimpa, Jutarat, Authaida, Supakorn, Boonkum, Wuttigrai, Rerkyusuke, Sarinya, Janta, Chalinee, and Chankitisakul, Vibuntita

Subjects

*SEMEN analysis, *ALOE vera, *ARTIFICIAL insemination, *CHICKENS, *FERTILITY, *FROZEN semen

Abstract

Simple Summary: Cooling rooster semen to a temperature of 5 °C is a technique utilized to extend the preservation period of sperm. However, rooster sperm is highly susceptible to damage during preservation, which involves numerous sources of oxidative stress from dilution, limiting its viability and fertility potential to less than 24 h under cool storage conditions. Therefore, researchers are continuously working to optimize preservation methods to enhance the viability and longevity of rooster semen. The aim of this study was to investigate the effectiveness of Aloe vera gel, known for its beneficial antioxidant properties, on the quality of cooled semen in Thai native roosters (Pradu Hang Dum) and to evaluate the fertility rate after artificial insemination. The results showed that Aloe vera gel contained various bioactive compounds with antioxidant activity. The supplementation of the extender with 1.0% Aloe vera gel proved to be beneficial, reducing lipid peroxidation and simultaneously improving sperm quality during cold storage at 5 °C for up to 72 h. The cooling of semen storage at 5 °C from a Thai native rooster (Pradu Hang Dum), supplemented with herbs possessing antioxidant properties, provided limited research. This study was conducted to evaluate the efficiency of Aloe vera (AV) gel supplementation at various levels on the quality of cooled semen and subsequent fertility after artificial insemination. Sixty-four chickens had semen pooled, diluted, and supplemented with different levels of AV gel (0% as control, 0.25%, 0.50%, 1.0%, 2.5%, 5.0%, 10%, and 20%), and then stored for 72 h. In Experiment 1, semen quality, malondialdehyde (MDA) levels, and pH values were assessed at 0, 24, 48, and 72 h after storage. Experiment 2 assessed fertility potential using the most effective cooled storage semen from Experiment 1. Results showed a decrease in semen quality with prolonged storage time (p < 0.001). The highest semen quality was observed in the group supplemented with 1.0% AV gel (p < 0.001), whereas the lowest was noted in the 20% AV gel group (p < 0.001). Furthermore, the 1.0% AV gel group exhibited the highest semen quality at 24, 48, and 72 h of storage. The evaluation of fertility and hatchability rates revealed a statistically significant improvement in fertility potential (p < 0.05) in the group supplemented with 1.0% AV gel. In summary, this study represents the first investigation of stored Thai native rooster semen using a semen extender supplemented with Aloe vera gel at 5 °C, demonstrating its efficacy for storage up to 72 h. The addition of 1% AV gel was recommended as an antioxidant supplementation during the semen storage process at 5 °C to enhance semen quality and fertility rates. [ABSTRACT FROM AUTHOR]

Published

2024

44. Zinc Solubilizing Rhizobacteria and Fungi: The Potent Contributors to Plant Growth Promotion and Enhancement of Zinc Content in Aloe Gel.

Author

Dey, Shinjan, Choudhury, Debapriya, Mukherjee, Chandrama, and Dutta, Sikha

Subjects

*ATOMIC absorption spectroscopy, *ALOE vera, *PLANT growth, *PLANT-soil relationships, *ZINC

Abstract

Background: Zinc solubilizing bacteria and fungi are possible alternatives for zinc supplementation and translate inorganic form of zinc to available forms for the plants. Methods: Two phosphates solubilising bacterial (ABB1, ABB2) and fungal (FSD1, FSD2) strains were initially isolated from the rhizospheric soil of the plant and were tested for their plant growth promoting ability and zinc solubilizing capability. Aloe barbadensis Mill. plants were inoculated with the microbial strains to assess their effects on plant growth and to quantify the zinc content in leaves using atomic absorption spectroscopy. Result: In our experiment, zinc content in the leaves of ZnO+ABB1+FSD2 set was found highest than ZnO treated set. Thus, present study plausibly designates the ability of the Aloe plants for solubilizing zinc only in presence of the rhizospheric microorganisms which indicates the potential of these microbial strains to use as biofertilizers in more sustainable way. [ABSTRACT FROM AUTHOR]

Published

2024

45. Formulation and Evaluation of Butenafine Hydrochloride-Incorporated Solid Lipid Nanoparticles as Novel Excipients for the Treatment of Superficial Fungal Infections.

Author

BAVISKAR, Anagha, KASHID, Vivekanand, AHIRRAO, Sapana, BHAMBERE, Deepak, and AKUL, Manoj

Subjects

*DRUG side effects, *FOURIER transform infrared spectroscopy, *CONTROLLED release drugs, *ALOE vera, *DIFFERENTIAL scanning calorimetry

Abstract

Objectives: The objective of the present study was to develop natural excipient-based solid lipid nanoparticles (SLN) of butenafine hydrochloride (BUTE) using a modified solvent emulsification technique and to evaluate the competence of aloe vera nanolipidgel in enhancing the penetration of BUTE. Materials and Methods: BUTE-SLNs were prepared using a 23 factorial design to correlate the effect of formulation components on the BUTE)SLN. Particle size, polydispersity index (PDI), zeta potential, entrapment performance, and drug loading were assessed in the formed SLNs. The fabricated BUTE-SLN was evaluated for transmission electron microscopy, fourier transform infrared spectroscopy, differential scanning calorimetry, and X-ray diffraction study studies and revealed the encapsulation of BUTE in lipid in the amorphous state. BUTE-SLN-based aloe vera gel was formulated and evaluated compared with the marketed product with respect to primary skin irritation, hydration, skin permeation, and antifungal activity. Results: The BUTE-SLN aloe vera gel, optimized for its formulation, features excellent slip properties and controlled drug release. DSC and XRD studies confirm its amorphous nature with effective drug entrapment. The gel provides enhanced skin deposition, improved antifungal activity, and reduced irritation. This makes it a cost-effective and innovative alternative to traditional dosage forms. BUTE-SLN promisingly showed no irritation, higher hydrating potential, slow and sustained release, and enhanced antifungal activity. With an aim to target deeper skin strata, minimize the side effects of drugs and symptomatic impact of fungal infection, and shorten the duration of therapy, BUTE-SLN was successfully prepared. The mean particle size and PDI were 261.25 ± 2.38 nm and 0.268 ± 0.01, respectively. Conclusion: BUTE-SLN gel offers improved topical delivery of BUTE with significantly higher compatibility and antifungal activity than the marketed formulation. [ABSTRACT FROM AUTHOR]

Published

2024

46. Effect of three biofloc meal production methods on its chemical composition.

Author

Gallardo-Collí, Alfredo, Pérez-Rostro, Carlos Iván, Hernández-Vergara, Martha Patricia, Ortega-Clemente, Luis Alfredo, and Huerta-Mora, Ibis Rafael

Subjects

*ALOE vera, *MORINGA oleifera, *PRODUCTION methods, *DIETARY supplements, *ENERGY industries

Abstract

To obtain a biofloc meal that serves as alternative and functional protein ingredient in aquaculture feed, a protocol consisting of three stages was developed to evaluate the effect on its proximate chemical composition. The three stages were thickening, dewatering, and drying, with the following treatments: stage 1: MS, seeds of Moringa oleifera; CS, cationic corn starch; AG, Aloe barbadensis gel; and WF, sedimentation without flocculants. Stage 2: FP, filter press; CF, cartridge filter; CN, centrifugation; and MF, mesh filter with manual pressure. Stage 3: CO, convection oven; MO, microwave; and SD, sun drying. In each stage, the proximate chemical composition of the biofloc was evaluated. Based on the proximate chemical composition, the WF treatment was considered the most efficient for the thickening stage; CN was considered more efficient during the dewatering stage, and CO and SD treatments were more efficient in the drying stage. The results of the three stages were used to establish two production protocols to obtain the biofloc meal: protocol A (PA) = WF + CN + SD, and protocol B (PB) = WF + CN + CO. Overall, both biofloc meal production protocols, PA and PB, allowed to preserve biofloc nutrients and can be considered a benchmark for the production of an alternative protein ingredient for use in aquafeeds; however, it is important to analyze the energy costs of the production protocol. [ABSTRACT FROM AUTHOR]

Published

2024

47. Investigating the Effect of Green Silver Nanoparticles on Seed Germination and Physiological Parameters of Spinach (Spinacia oleracea L.) under Salt Stress.

Author

Ali Naghizadeh, A., Zarandi, M. Mahmoudi, Khoshroo, S. M. R., and Davarani, F. Hasanzadeh

Subjects

*NONLINEAR statistical models, *GERMINATION, *SILVER nanoparticles, *AGRICULTURAL productivity, *ALOE vera, *SALINITY, *SPINACH

Abstract

Spinach (Spinacia oleracea L.), a valuable crop, suffers greatly from salt stress. This study investigates the potential of green silver nanoparticles (Ag-NPs) synthesized using Aloe vera extract to relieve the harmful effects of salt stress on spinach seed germination and growth. The experiment evaluated various seed germination and plant growth characteristics of spinach cultivar Viroflay RZ under five Ag-NP concentrations (0, 20, 40, 80, and 100 ppm) and four salinity levels (0, 50, 100, and 150 mM NaCl) in a controlled laboratory setting. This studymeasured seed germination percentage, rate and relative germination, vigor indices, plant height, root length, shoot and root dry weight, and chlorophyll content. Data analysis revealed that salinity stress significantly inhibited seed germination and all other studied parameters, especially at higher salt concentrations. The impact of green Ag-NPs on these traits varied considerably under salt stress. A complex statistical model showed a non-linear relationship between Ag-NP concentration and its effect, with an optimal concentration potentially alleviating the negative effects of salt stress. The study suggests that pre-treating spinach seeds with green Ag-NPs at an optimized concentration might enhance their tolerance to salt stress, potentially improving germination and growth under saline conditions. This research promotes using eco-friendly nanotechnology to mitigate the detrimental effects of salinity on agricultural productivity. [ABSTRACT FROM AUTHOR]

Published

2024

48. A Review on Aloe vera used in Cosmetology.

Author

Chandra Trivedi, Chandni Bipin, Tiwari, Himani, and Chandrul, Kaushal Kishor

Subjects

*ALOE, *ALOE vera, *COSMETOLOGY, *SKIN care, *LABORATORY animals, *NATURAL products, *FOLIAGE plants

Abstract

Aloe vera is a natural product that is now a day frequently used in the field of cosmetology. Aloevera is natural plant it is used for manufacturing of different type of product. Though there are various indications for its use, controlled trials are needed to determine its real efficacy. The Aloevera plant has been known and used for centuries for its health, beauty, medicinal and skin care properties. The name Aloevera derives from the Arabic word "Alloeh" meaning "shining bitter substance," while "vera" in Latin means "true." 2000 years ago, the Greek scientists regarded Aloe vera as the universal panacea.The Egyptians called Aloe "the plant of immortality."Today, the Aloe vera plant has been used for various purposes in dermatology. Aloe vera is gel from the leaves of aloe plants. People have used it for thousands of years for healing and softening the skin. Aloe has also long been a folk treatment for many maladies, including constipation and skin disorders. Modern-day research into aloe vera's benefits is mixed, with some evidence showing it can cause cancer in lab animals. [ABSTRACT FROM AUTHOR]

Published

2024

49. Effect of Aloe Vera, Olive Oil and Normal Saline on Episiotomy Pain and Healing among Primi-para Women.

Author

Shaban, Rabaa El-Sayed, El-Sayed Abo-Hatab, Toha Ali, El-Abedin, Mostafa Zien, and El-Kholy, Eman Ahmed

Subjects

THERAPEUTIC use of olive oil, ALOE, WOUND healing, PHYSIOLOGIC salines, ACADEMIC medical centers, OLIVE oil, PILOT projects, QUESTIONNAIRES, TREATMENT effectiveness, JUDGMENT sampling, DESCRIPTIVE statistics, CHI-squared test, EPISIOTOMY, EXPERIMENTAL design, PAIN management, ANALYSIS of variance, WOMEN'S health, COMPARATIVE studies, DATA analysis software

Abstract

Background: Episiotomy is recurrent surgical procedure that facilitates birth vaginally while associated with serious complications which negatively affect aspect of women's life. Thus, this study aimed to evaluate the effect of aloe vera, olive oil and normal saline on episiotomy pain and healing among primi-para women. Subjects and Method: Design: A comparative experimental study design was applied. Subjects: A purposive sample of parturient women who were chosen from obstetric departments of Tanta University and El-Menshawy General Hospitals. Three tools used: Tool (I): Women's knowledge regarding episiotomy care that consisted of four parts, Tool (II): Pain Intensity Visual Analogue Scale (PIVAS) and Tool (III): The Standardized REEDA Scale. Results: It was proved that episiotomy pain intensity assessed by (PIVAS) highly significantly improved among aloe vera group followed by olive oil group compared to the normal saline group. Also, total REEDA scale shows evident improvement on episiotomy wound healing especially among aloe vera group followed by olive oil group compared to the normal saline group at 5th and 10th days post intervention. Conclusion: It can be concluded that applying aloevera followed by olive oil are highly effective in alleviating episiotomy pain and promote wound healing among primi-para women compared to normal saline solution at 5th and 10th days post intervention. Accordingly the study recommended that applying aloevera followed by olive oil is highly effective on managing episiotomy pain and promoting its healing. [ABSTRACT FROM AUTHOR]

Published

2024

50. Aloe vera Cuticle: A Promising Organic Water-Retaining Agent for Agricultural Use.

Author

Luligo-Montealegre, Wilmer E., Prado-Alzate, Santiago, Ayala-Aponte, Alfredo, Tirado, Diego F., and Serna-Cock, Liliana

Subjects

AGRICULTURE, ALOE vera, CUTICLE, PLANT fertilization, BIOSWALES, CIRCULAR economy, POLYACRYLAMIDE

Abstract

Water is an important resource for both human and environmental survival. However, due to current human practices, we are facing a serious crisis in accessing water. Thus, solutions must be explored to optimize the use of this resource. In the search for an organic water-retaining agent for agricultural use, the techno-functional properties of Aloe vera (Aloe barbadensis Miller) cuticle, an agro-industrial residue generated after gel extraction, were evaluated. The residue was dried and ground. The effects of particle size (180 µm and 250 µm), temperature (10 °C, 20 °C, 30 °C, and 40 °C), and pH (4.5, 6.0, and 7.0) on the solubility and water-holding capacity (WHC) of the obtained product (i.e., hydrogel) were then evaluated. The treatment with the highest WHC was selected and compared with the WHC of a commercial synthetic polyacrylamide gel widely used in agriculture. The effects of KNO3 and Ca(NO3)2 at different concentrations (10 g L−1, 20 g L−1, 30 g L−1, and 40 g L−1) on the WHC of the gels were assessed. Particle size, temperature, and pH interactions had statistically significant effects on solubility, while the WHC was affected by particle size × temperature and pH × temperature interactions. The highest product solubility (75%) was obtained at the smallest particle size (i.e., 180 µm), pH 4.5, and 20 °C. Meanwhile, the highest WHC (18 g g−1) was obtained at the largest particle size (i.e., 250 µm), pH 6.0, and 20 °C. This optimized gel kept its WHC across both salts and their concentrations. In contrast, the commercial gel significantly decreased its WHC with salt concentration. The product elaborated with A. vera cuticle could have bioeconomic potential as a water-retention agent for agricultural use, with the advantage that it is not affected by the addition of salts used for plant fertilization. [ABSTRACT FROM AUTHOR]

Published

2024