Basic Informations
C.V
1.
Personal data:
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Rasha abdel Salam Ibrahim Mahmoud
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Name:
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Beni-suef
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Place of birth:
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24-3-1984
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Date of birth:
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Egyptian
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Nationality :
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arabic
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Language :
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Pharmaceutical sciences
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General
specialization:
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Pharmaceutics and
industrial pharmacy
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Accurate specialization:
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Rasha_khallaf@yahoo.com
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E-mail:-
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Personal account:
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2.
Scientific qualification:
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Country
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Affiliation
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Faculty
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General specification
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Date
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Degree
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Egypt
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Faculty of pharmacy
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pharmacy
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Pharmaceutical sciences
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5/2006
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Bachelor degree
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Egypt
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Faculty of pharmacy
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pharmacy
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Pharmaceutical sciences
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14/11/201
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Master
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3.
Chronology of Employment:
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Country
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Affiliation
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The end of employment
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The start of
employment
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Academic degree
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Job
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Egypt
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Faculty of pharmacy
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11/2011
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5/2007
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demonstrator
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demonstrator
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Egypt
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Faculty of pharmacy
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Till now
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11/2011
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Assistant lecturer
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Assistant lecturer
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4. Courses and workshops:
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Year
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place
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Nature of course/ workshop
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Name of course
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2014
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Beni-suef university
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HRD course
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Training of trainers
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2014
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Beni-suef university
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HRD course
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Effective communication
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2014
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Beni-suef university
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HRD course
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Competitive projects
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2013
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Beni-suef university
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HRD course
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Students evaluation and
examination
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2010
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Beni-suef university
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HRD course
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International publishing
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2015
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Beni-suef university
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HRD course
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University administration
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2013
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Beni-suef university
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HRD course
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Organizing scientific conferences.
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Master Title
incorporaTING CHEMOTHERAPEUTIC AGENTS INTO NANO OR MICROPARTICLES TO BE USED BY ROUTES ATHER THAN INTRAVENOUS ROUTE
Master Abstract
These results revealed that incorporation of 5-FU into SLN and niosomes had allowed deep penetration of 5-FU into deep layers of skin and delivered the drug to target tissue more accurately.
PHD Title
Formulation and evaluation of certain ocular drug delivery systems containing nanoparticles of an antibiotic
PHD Abstract
The results obtained through out the work reveal that incorporating ocular antibiotics into niosomes and polymeric nanoparticles increased drug residence time in eye and allowed deep penetration through out ocular tissues to deliver drug into posterior eye segments and help treating deep ocular infections. The results also proved that such drug delivery systems can enhance the antimicrobial activity of antibiotics and hence maximize the benefits obtained from such drugs.