Background: Chronic aluminum intoxication enhanced the risk for different body tissues in human and animals. Ginger administration may minimize the harmful effects of metal ions toxicity.
Objective: This study has attempted to assess and compare the effects of chronic aluminum intoxication and concomitant ginger treatment on different structures of rat periodontium.
Methodology: 21 adult male albino rats were divided into three equal groups: For three months; groupI received sterile 0.9% saline/day orally, groups II and III received (20mg/kg/day) aluminum chloride orally in drinking water; then, only groupIII received (150mg/kg/day) ginger oil extract orally for 4 weeks. Some of dissected mandibular halves were used for bone mineral density (BMD) measure. Other halves were decalcified and processed for H&E and immunohistochemical (using anti-CD68+ and anti-osteopontin antibodies) examination.
Results: Histopathologically, groupII showed apparently decreased periodontal fibers density, wide degenerative areas and marked inflammatory infiltrates. Likewise, CD68+ was significantly expressed in giant cells in periodontal ligament (PDL) and at resorption surfaces of cementum and bone in groupII. These changes were improved in groupIII with a significant decrease of CD68+ positive cells in PDL. Cementum and bone of groupII presented significant destructive changes that were mostly restored in groupIII. Comparing to groupI, osteopontin expression in groupII significantly increased in acellular cementum(AC)>cellular cementum(CC)>bone> PDL. In comparison, this reactivity was significantly increased in bone>CC>AC in groupIII while osteopontin expression in PDL was mild but with significant increase comparing to groupI. BMD of alveolar bone was highest in groupI>groupIII>groupII with a significant differences.
Conclusion: We concluded that detrimental alterations associated with chronic Al toxicity were markedly detected in PDL>bone>CC>AC that could result in serious clinical outcomes. Ginger extract greatly ameliorated these changes in bone>CC>AC>PDL confirming its strong curative potency against aluminum associated oxidative damage thus it is indicated for use in further new therapeutic approaches