COMPARATIVE EFFICACY OF ALOE VERA (ALOBARBADENSIS) AND TURMERIC (CURCUMA LONGA) ON BURN WOUND HEALING IN RABBIT MODEL

Main Article Content

Muhammad Rizwan
Hafiz Muhammad Usman Abid
Muhammad Akhlaq
Sundus khan
Asad Manzoor
Bushra khiljee
Mehwish Ansari
Sehrish Rana Rajpoot
Usman javaid
Sadia Shoukat

Keywords

Rabbits, Aloe Vera, Turmeric, silver sulfadiazine, Burn wound healing

Abstract

Severe burns represent some of the most distressing and physically incapacitating injuries, impacting nearly all bodily systems and resulting in substantial morbidity and mortality rates. This study investigates the efficacy of Aloe vera and turmeric, both individually and in combination, on burn wounds in a rabbit model. Forty rabbits were randomly allocated into four groups (A, B, C, and D), each subjected to topical treatments. Wounds were induced using sulfuric acid. Group A received Aloe vera, Group B received turmeric, Group C received a combination of Aloe vera and turmeric, while Group D served as the control and was treated with silver sulfadiazine. The impact of treatments was assessed in terms of wound contraction, tensile strength, healing duration, and histopathological analysis. Group C exhibited accelerated wound contraction, reaching maximum contraction by day 10, and demonstrated the shortest healing duration among all groups i.e. 22.80 ± 0. 490.Notably, the combination therapy of Aloe vera and turmeric outperformed individual treatments, showcasing synergistic effects. Histopathological examination revealed enhanced granulation and epithelial tissue growth in Group C, corroborating the observed expedited healing. These findings highlight the potential of Aloe vera and turmeric as cost-effective, easily accessible topical agents for wound management, owing to their synergistic action and stimulation of tissue regeneration

Abstract 462 | PDF Downloads 241

References

Abid, H.M.U., et al., Wound-healing and antibacterial activity of the quercetin–4-formyl phenyl boronic acid complex against bacterial pathogens of diabetic foot ulcer. ACS omega, 2022. 7(28): p. 24415-24422.
2. Abid, S., et al., Unlocking the potential of phenyl boronic acid functionalized-quercetin nanoparticles: Advancing antibacterial efficacy and diabetic wound healing. Heliyon, 2024. 10(1).
3. Abid, S., et al., " Revolutionizing Sericulture: Unleashing the Potential of Ascorbic Acid for Optimal Silkworm Well-being and Maximized Silk Production.
4. Abid, H.M.U., et al., NAVIGATING THE VASCULAR FRONTIER: EXPLORING QUERCETIN-BASED DRUG DELIVERY STRATEGIES IN CARDIOVASCULAR THERAPY. Journal of Population Therapeutics and Clinical Pharmacology, 2024. 31(1): p. 1702-1719.
5. Yasin, M.S., et al., DEVELOPMENT AND VALIDATION OF A REVERSED-PHASE HPLC METHOD FOR ASSAY OF THE OCTAPEPTIDE OCTREOTIDE IN RAW MATERIAL AND PHARMACEUTICAL DOSAGE FORM. Journal of Population Therapeutics and Clinical Pharmacology, 2024. 31(1): p. 1195-1203.
6. Azeem, M., et al., Design, synthesis, spectroscopic characterization, in-vitro antibacterial evaluation and in-silico analysis of polycaprolactone containing chitosan-quercetin microspheres. Journal of Biomolecular Structure and Dynamics, 2023. 41(15): p. 7084-7103.
7. Azeem, M., et al., Enhanced antibacterial and antioxidant properties of chitosan-quercetin complex containing polycaprolactone microspheres for the treatment of gastroenteritis: An in-vitro and in-vivo analysis. Materials Today Communications, 2022. 31: p. 103780.
8. Abid, U., et al., Fabrication and characterization of novel semi-IPN hydrogels based on xanthan gum and polyvinyl pyrrolidone-co-poly (2-acrylamido-2-methyl propane sulfonic acid) for the controlled delivery of venlafaxine. Polymer-Plastics Technology and Materials, 2022. 61(6): p. 577-592.
9. Azeem, M., et al., An insight into anticancer, antioxidant, antimicrobial, antidiabetic and anti-inflammatory effects of quercetin: A review. Polymer Bulletin, 2023. 80(1): p. 241-262.
10. Usman Abid, H.M., et al., Exploring the Potent Combination of Quercetin–Boronic Acid, Epalrestat, and Urea Containing Nanoethosomal Keratolytic Gel for the Treatment of Diabetic Neuropathic Pain: In Vitro and In Vivo Studies. Molecular Pharmaceutics, 2023.
11. Muhammad, D., et al., Antihepatotoxicity of Tagetes erecta (Mexican marigold) against indomethacin-induced Antihepatotoxicity in Sprague Dawley rats. 2020.
12. Irum, Z., et al., Food Effects Assessment on Oral Pharmacokinetics of Rosuvastatin in Wild Mice. 2019.
13. Khan, M., et al., Formulation of chitosan based lipid polymer hybrid nanocarrier system for oral delivery of tamoxifen citrate: Toxicological and hemocompatibility evaluation. Journal of Drug Delivery Science and Technology, 2024. 91: p. 105175.
14. Bibi, R., et al., The Impact of Promix Probiotics on the Growth and Survival of Pangas (Pangasius Pangasius) In the Biofloc System at 40% CP Feed. Central Asian Journal of Medical and Natural Science, 2023. 4(6): p. 739-761.
15. Ghalloo, B.A., et al., DEVELOPMENT AND VALIDATION OF HPLC METHOD FOR THE DETERMINATION OF NITRITE AND ITS APPLICATION IN THE BIOLOGICAL FLUIDS OF PATIENTS. Journal of Population Therapeutics and Clinical Pharmacology, 2024. 31(1): p. 1456-1466.
16. Pandey, K., et al., Comparison of Hydrophilic and Lipophilic Surfactants for the Improvement of Solubility of BCS Class II Drug by First Generation Solid Dispersion Method. Latin American Journal of Pharmacy, 2022. 41: p. 3.