Masoumeh Kheirabadi scite author profile

We investigated the effect of Rosa damascena Mill, essential oil on the development of induced amygdala kindling seizures. Male Wistar rats were implanted with one tripolar and two monopolar electrodes in right basolateral amygdala and dura surface, respectively. The control group was injected solvent of essential oil and two experimental groups were injected 750 and 1000 mg kg(-1) of essential oil (ip), 30 min before a daily kindling stimulation. The number of stimulations required for the first appearance of seizure stages was significantly larger in two experimental groups than in control group. Mean after discharge duration was significantly different and essential oil reduced the increase of after discharge duration. Mean after discharge amplitude was also shorter in the groups treated with essential oil than in control group. Duration time for 5th stage of seizure at fully-kindled rats was significantly shorter in two experimental groups than control group. These results suggest that Rosa damascena essential oil significantly retarded the development of seizure stages and possesses the ability to counteract kindling acquisition. The flavonoids of Rosa damascena may act via GABAA receptors as previous studies have proposed for flavonoids of other medicinal plants. More detailed studies are recommended to define the effective component(s) of Rosa on different types of epilepsy.

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Evaluation of the Anticonvulsant Activities of Rosa damascena on the PTZ Induced Seizures in Wistar Rats

Kheirabadi¹,

Moghimi²,

Rakhshande³

et al. 2008

J. of Biological Sciences

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Systemic transplantation of mesenchymal stem cells can reduce cognitive and motor deficits in rats with unilateral lesions of the neostriatum

Edalatmanesh

Matin

Neshati

et al. 2010

Neurological Research

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Huntington's disease (HD) is an inherited neurodegenerative disorder that usually occurs in the third or fourth decades of life. Stem cell therapy is one of the approaches for HD treatment. Since mesenchymal stem cells (MSCs) have the ability to migrate into the lesioned site, we transplanted rat bone marrow-derived MSCs intravenously, following unilateral intrastriatal lesion made by quinolinic acid (QA) in Wistar rats. QA administration caused widespread neuropathological deficits similar to those found in HD, including impairments in motor and cognitive functions. Animals receiving MSCs exhibited significant improvement in motor and cognitive performance compared with sham group animals that did not receive cells. Animals were tested by apomorphine-induced rotations, beam walk, cylinder and hang wire tests at different times after cell transplantation. Results indicate that systemic transplantation of MSCs can significantly reduce the behavioral abnormalities of these animals. This method of systemic injection has a great advantage over invasive surgical techniques for transplantation of cells at the lesioned site.

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Use of an in vitro model in tissue engineering to study wound repair and differentiation of blastema tissue from rabbit pinna

Hashemzadeh

Mahdavi-Shahri

Bahrami

et al. 2015

In Vitro Cell.Dev.Biol.-Animal

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Rabbit ear wound repair is an accepted model for studies of tissue regeneration, leading to scar less wound repair. It is believed that a specific tissue, blastema, is responsible for such interesting capacity of tissue regeneration. To test this idea further and to elucidate the cellular events happening during the ear wound repair, we designed some controlled experiments in vitro. Small pieces of the ear were punched and washed immediately with normal saline. The tissues were then cultured in the Dulbecco's Modified Eagle(')s Medium, supplemented with fetal bovine serum in control group. As a treatment vitamin A and C was used to evaluate the differentiation potency of the tissue. These tissues were fixed, sectioned, stained, and microscopically studied. Micrographs of electron microscopy provided evidences revealing dedifferentiation of certain cells inside the punched tissues after incubation in tissue culture medium. The histological studies revealed that cells of the tissue (i) can undergo cellular proliferation, (ii) differentiate to epithelial, condrogenic, and osteogenic tissues, and (iii) regenerate the wounds. These results could be used for interpretation of the possible events happening during tissue engineering and wound repair in vitro. An important goal of this study is to create a tissue engineering and tissue banking model, so that in the future it could be used in further blastema tissue studies at different levels.

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The Ultra Structural Study of Blastema in Pinna Tissues of Rabbits with Transmission Electron Microscope

Mahdavishhari¹,

Naseri²,

Kheirabadi³

2008

J. of Biological Sciences

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