Protective Role of Honey After Lead Toxicity Effect on Albino Rats Lingual Papillae

Waleed, O El shawakh; Afaf, A El-Sawa; Sahar, K Shafik

doi:10.21608/adjalexu.2016.59287

Cited by 3 publications

(1 citation statement)

References 20 publications

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“…Although the scientific processes behind the association between lead exposure and dental illness are unknown, it has been hypothesised that lead impairs salivary gland function, hence increasing the incidence of dental caries. Rats exposed to lead throughout the prenatal and perinatal periods exhibited an increase in dental caries and a substantial decrease in salivary flow (7). There are three pairs of main salivary glands situated outside the oral cavity, the parotid, submandibular, and sublingual, with extensive duct networks that transport gland secretions to the mouth.…”

Section: Introductionmentioning

confidence: 99%

The Protective Role of Sesame Oil on Rat Parotid Salivary Glands Subjected to Lead Exposure

Soliman,

El-Hak,

koura

et al. 2023

Alexandria Dental Journal

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INTRODUCTION:Lead poisoning is a threat to public health due to its permanent health consequences. Since antioxidant integration is considered as the most effective therapy sesame oil has been recommended for preventing lead-induced poisoning.The purpose of this research is to examine the ultrastructural changes that may develop in the acini and duct system of the parotid salivary glands of adult albino rats after exposure to lead acetate, and to identify the possible protective effect of sesame oil. MATERIALS AND METHODS:This research included 24 adult male albino rats weighing between 180-200g. Randomly, the rats were separated into three equal groups: Group I (Control), Group II (Lead acetate), and Group III (Lead acetate + Sesame oil). After five weeks of experimentation, blood was drawn and tested using atomic absorption spectroscopy (AAS) to determine the blood lead level. After euthanization, glands were dissected for transmission electron microscopy analysis. RESULTS: Group (II) blood results demonstrated a rise in blood lead levels, but group (III) blood lead levels were midway between groups (I) and (II), demonstrating the therapeutic impact of sesame oil. Group (II) revealed acinar cells with evidence of cytotoxicity, including degenerated mitochondria, apoptotic nuclei, whereas the ducts had lumens with stagnant secretion. The ultrastructure of their acinar cells and duct system improved significantly in group III. CONCLUSIONS: Sesame oil reduced the lead acetate toxicity in rats, which may be utilized as a prophylactic strategy in order to avoid the permanent negative effects of lead acetate exposure.

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Section: Introductionmentioning

confidence: 99%

The Protective Role of Sesame Oil on Rat Parotid Salivary Glands Subjected to Lead Exposure

Soliman,

El-Hak,

koura

et al. 2023

Alexandria Dental Journal

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Evaluation of consumer safety of Polish honey—the content of Cd and Pb in multifloral, monofloral and honeydew honeys

Winiarska-Mieczan

Wargocka

Jachimowicz

et al. 2021

Biol Trace Elem Res

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Honey Can Obviate Heavy Metal Toxicity: A Review

Bhattacharya

2023

J Environ Pathol Toxicol Oncol

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Toxicity caused by heavy metals inflicts a grave global menace to the habitat and inhabitants. Arsenic (As), cadmium (Cd), lead (Pb), and mercury (Hg) are the non-essential yet harmful heavy metals commonly associated with pollution and resultant health complications. Typical chelating/complexing agents are not worthy of combating heavy metal-induced sub-chronic and chronic toxicities. It transpires from scientific data mining that, honey obviates investigational heavy metal toxicity. This review aims to collate such investigations conducted against As, Cd, and Pb toxicity. There is a total of 19 pre-clinical works demonstrating the ameliorative effect of honey against empirical As, Cd, and Pb toxicity. Pre-clinical reports against Hg and clinical study against these heavy metals could not found. From the outcome of the current literature investigation, it seems that honey has a marked heavy metal toxicity meliorative effect which is chiefly ascribed to its innate antioxidant effect due to its diverse polyphenol content.

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Protective Role of Honey After Lead Toxicity Effect on Albino Rats Lingual Papillae

Cited by 3 publications

References 20 publications

The Protective Role of Sesame Oil on Rat Parotid Salivary Glands Subjected to Lead Exposure

The Protective Role of Sesame Oil on Rat Parotid Salivary Glands Subjected to Lead Exposure

Evaluation of consumer safety of Polish honey—the content of Cd and Pb in multifloral, monofloral and honeydew honeys

Honey Can Obviate Heavy Metal Toxicity: A Review

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