Ameliorative effect of Mg-Salvia Officinalis Nanoparticles against Aluminum Chloride induced oxidative stress in rat model of Alzheimer's Disease
Benha University; Faculty of Veterinary Medicine • 2021
معلومات البحث
المؤلفون
Eman A. EL-komy; Omayma A. Abozaid; Mohammed K. Mahfouz; Afaf D. Abd El-Magid
الكلمات المفتاحية
Not Available
المجلة العلمية
Benha University; Faculty of Veterinary Medicine
الناشر
Not Available
المجلد
40
العدد
2
الصفحات
91-95
publication.type
Local
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
Alzheimer’s disease (AD) which is usually referred to as Alzheimer’s is one of the popular
reasons for dementia. Mg-Salvia Officinalis NPs has been known as an interesting compound
with antioxidant, anti-inflammatory and cognitive properties. The possible therapeutic effect
of Mg-Salvia Officinalis NPs was evaluated in Aluminum Chloride (ALCL3) induced AD.
AD was induced by intraperitoneal injection of ALCL3 at a dose (100 mg/kg b. wt.) for 2
weeks. Fifty male rats were equally divided into 5 groups. Group I (Normal control): Rats
received no drugs, Group II (ALCL3- induced AD): Rats injected with ALCL3 (100mg/kg b.
wt./I. P) for two weeks, Group III (Mg-Salvia Officinalis NPs treated): After 14 days of
ALCL3 injection, rats treated with Mg-Salvia Officinalis NPs (5mg/kg b. wt./day, orally) for
four weeks. Group IV (Donepezil treated): Rats injected with ALCL3 as group II and treated
with Donepezil (1mg/kg b. wt./day, orally) for four weeks. Group V (Mg-Salvia Officinalis
NPs and Donepezil treated): Rats injected with ALCL3 and treated daily with Mg-Salvia
Officinalis NPs and Donepezil for four weeks. The results revealed that ALCL3-induced AD
rats causing significant alterations in Tau protein and acetylcholine levels in brain tissue in
addition to marked elevation of serum ALT, AST activities, urea, creatinine concentrations
and oxidative stress biomarkers. Treatment with Mg-Salvia Officinalis NPs to AD rats caused
marked improvement effect in all previous parameters. Conclusively, Salvia Officinalis NPs
treatment ameliorates oxidative stress induced by ALCL3 in rat’s model of AD and enhances
antioxidant defense system and prevent the lipid peroxidation
reasons for dementia. Mg-Salvia Officinalis NPs has been known as an interesting compound
with antioxidant, anti-inflammatory and cognitive properties. The possible therapeutic effect
of Mg-Salvia Officinalis NPs was evaluated in Aluminum Chloride (ALCL3) induced AD.
AD was induced by intraperitoneal injection of ALCL3 at a dose (100 mg/kg b. wt.) for 2
weeks. Fifty male rats were equally divided into 5 groups. Group I (Normal control): Rats
received no drugs, Group II (ALCL3- induced AD): Rats injected with ALCL3 (100mg/kg b.
wt./I. P) for two weeks, Group III (Mg-Salvia Officinalis NPs treated): After 14 days of
ALCL3 injection, rats treated with Mg-Salvia Officinalis NPs (5mg/kg b. wt./day, orally) for
four weeks. Group IV (Donepezil treated): Rats injected with ALCL3 as group II and treated
with Donepezil (1mg/kg b. wt./day, orally) for four weeks. Group V (Mg-Salvia Officinalis
NPs and Donepezil treated): Rats injected with ALCL3 and treated daily with Mg-Salvia
Officinalis NPs and Donepezil for four weeks. The results revealed that ALCL3-induced AD
rats causing significant alterations in Tau protein and acetylcholine levels in brain tissue in
addition to marked elevation of serum ALT, AST activities, urea, creatinine concentrations
and oxidative stress biomarkers. Treatment with Mg-Salvia Officinalis NPs to AD rats caused
marked improvement effect in all previous parameters. Conclusively, Salvia Officinalis NPs
treatment ameliorates oxidative stress induced by ALCL3 in rat’s model of AD and enhances
antioxidant defense system and prevent the lipid peroxidation
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