The Effect of Xylitol on Osteoblast and Osteoclast in Rabbits Bone Defect

Naji, Ahmed Maki; Taqa, Ghada A.; Al-Watter, Wael

doi:10.21608/javs.2021.104726.1114

Cited by 2 publications

(2 citation statements)

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“…The procedure could be explained briefly as follows (21): Sections first are deparaffinized in two xylene changes, each for 10 minutes, and dehydrate in two changes of absolute alcohol, each for 5 minutes (alcohol 95 % for two minutes and 70 % for two minutes, gently wash with distilled water. Stain for 8 -10 minutes in (Harris hematoxylin solution).…”

Section: Bone Specimen Preparation For Histopathological Examinationmentioning

confidence: 99%

Histological and Histomorphometric Evaluation of the Systemic Metformin Administration on Bone Healing in Rabbits

Hussein¹,

Taqa²

2024

Mil. Med. Sci. Lett.

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Background: After injuries, infections, or tumor removal, endogenous healing depends on bone repair. Disorders of bone healing are difficult to treat in clinical settings. There are numerous induced methods for correcting bone abnormalities, such as the induced membrane technique, allogenic bone grafting, synthetic bone grafting, artificial joint replacement, and autologous bone grafting. However, the delivery of the bone graft and bone filling materials necessitates surgical implantation at the fracture site, which could cause edema, infection, and the development of heterotopic bone locally. Therefore, systemically administered osteogenic drugs will provide an excellent method for bone lesion healing. Aim of the study: to evaluate the systemic effect of metformin on bone healing after surgical induction of bony defect and to determine the amount of newly formed bone using histological, histomorphometric analysis, and the surface area measurement of newly formed bone. Also to study the safety of metformin administration at the administered dose for this purpose. Materials and methods: Twenty mature male New Zealand rabbits were separated into two groups, each including ten rabbits for the study. The same surgical procedure was performed on all rabbits. Two holes were made at the femur (3 mm in diameter and 3 mm in depth) and left empty. Metformin tablets were ground into a fine powder and the resultant powder was dissolved in 10ml of water to prepare a liquid dosage containing 50 mg /1ml of metformin. Metformin is administered orally to the rabbits through a feeding tube at a dose of 50 mg/kg body weight. Animals were euthanized at two-time intervals, 14 and 28 days. The femur was separated, sectioned preserved, and sent for histological analysis and histomorphometry. Results: The results revealed that there is an increase in new bone formation and bone-forming cells in the metformin-treated group. Conclusion: Metformin increases bone healing by increasing the number of bone-forming cells and the surface area of newly formed bone tissues and causes less inflammatory response at the site of a bone lesion. So it possesses an osteogenic effect.

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Section: Bone Specimen Preparation For Histopathological Examinationmentioning

confidence: 99%

Histological and Histomorphometric Evaluation of the Systemic Metformin Administration on Bone Healing in Rabbits

Hussein¹,

Taqa²

2024

Mil. Med. Sci. Lett.

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“…Although skeletal tissue has a strong regenerative capacity, the healing process may fail, resulting in a delayed healing period, (Einhorn and Gerstenfeld) [9]. So surgeons have tried to add substances to the bone matrix to promote and speed up healing and the formation of new bone (Naji et al) [20]. New bone graft alternatives have been devised in recent decades, such as demineralized bone matrix, bone-forming proteins, calcium phosphate, calcium sulfate, and hydroxyapatite (HA) (Athanasiou et al) [1].…”

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confidence: 99%

Preparing of Nano-Hydroxyapatite from Seashell and Mixed with Gold to Repair Bony Defect of Mandibular Bone in Rabbits

Taqa,

Al-Hussary,

Kashmola

2023

IJOIR

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The objectives of the present study were undertaken to prepared hydroxyapatite powder from seashell and convert this to nano size and then added to gold nanoparticles. Materials and Methods: The seashells was cleaned and the phosphoric acid was added. The product was inserted in oven then calcined in the muffled furnace, to evaporate CO2 and getting the white crystalline powder which indicated presence of hydroxyapatite. This powder was converted to nanoparticle. Gold 1% mixed with prepared seashell nano hydroxyapatite. The characteristics of the prepared nano hydroxyapatite from seashell, were studied by the FTIR infrared spectrophotometer. The most biocompatible nano hydroxyapatite estimation by chemical test and examine prepared nano hydroxyapatite from seashell alone or when mixed with gold 1% in vivo to detect the effectiveness on reparing bone defect in mandibulare rabbits. Results: The results of an infrared measurement (FTIR Spectroscopy) for prepared nano hydroxyapatite showed that the chemical structure and band have the same FTIR spectrum of standard nano hydroxyapatite and have the same nano traits as the chemical test showed a yellow precipitation consisting in the nHA seashells. As an indication of biocompatibility and increase Bone Mineral Density by repairing bone defect in rabbits. And when added gold to nano hydroxyapatite, increased the efficacy of bone remodeling and repair bone. Conclusions: The possibility of preparing nanoparticles for hydroxyapatite from seashell are simple and inexpensive feedstock's and can be successfully produced by chemical precipitation technology from seashells with a phosphoric acid solution.

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The Effect of Xylitol on Osteoblast and Osteoclast in Rabbits Bone Defect

Cited by 2 publications

References 0 publications

Histological and Histomorphometric Evaluation of the Systemic Metformin Administration on Bone Healing in Rabbits

Histological and Histomorphometric Evaluation of the Systemic Metformin Administration on Bone Healing in Rabbits

Preparing of Nano-Hydroxyapatite from Seashell and Mixed with Gold to Repair Bony Defect of Mandibular Bone in Rabbits

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