Basic Informations

C.V

 

C.V

Rasha  Mohammed Mostafa Kharshoum

NAME: Rasha  Mohammed Mostafa Kharshoum

DATE OF BIRTH : 9 / 3 / 1976.

NATIONALITY: Egyptian

STATUS: Married 

ADDRESSE : Egypt – Cairo – Maadi – 1/c Laselkee st.

P.O. BOX:  597 El-Maadi

E-MAIL :  rasha0mohd@hotmail.com

PHONE NOMBER:   00201141968805 - 0020225177563

EDUCATION : 

1-BS.C of Pharmacy & Pharmaceutical Sciences - Faculty of Pharmacy -Cairo University  in 1998.

 Grade : Excellent with Honors

2-Master in Pharmaceutics and Industrial pharmacy in "formulation of Norfloxacin in different Pharmaceutical Preparations" Faculty of Pharmacy- Cairo University  in (2009).

This thesis included the formulation of Norfloxacin in the form of dispersible tablets prepared by different techniques such as; freeze drying, direct compression, etc.  

3-PH. D. in Pharmaceutics and Industrial pharmacy in "Pharmaceutical Study on Ketotifen Fumarate" Faculty of Pharmacy- Beni Suef University  (Branch of Cairo University Previously) in (2011).

This thesis included the clinical application of the prepared sublingual tablets by complex formation with 2HP-β Cyclodextrin and formation of eye drops with different techniques

LANGUAGE SKILLS:

·         Arabic

·         English -( Excellent ) pass TOEFL ITP.

COMPUTER SKILLS : International computer driving license {ICDL} , SPSS, photoshop

CURRENT JOB: Assistant professor in Pharmaceutics and Industrial Pharmacy Department in Beni Suef University

 

 

WORK EXPERIENCE:

July 98 to October 99: National Cancer Institute- Cairo University

                             Worked as pharmacist in the field of clinical and hospital pharmacy

January1999  to July 2011: Faculty of Pharmacy- Beni Suef University, Lecturer in  Pharmaceutics and Industrial Position Held

2015-2016                               Vice-dean of social services and environmental affairs. Faculty of Pharmacy, The University of Beni- Suef, Egypt.

 

2012-2014                               Vice dean for higher eduation and research, THE University of Beni-Suef, Egypt.

2011-2012                               Vice-dean of social services and environmental affairs. Faculty of Pharmacy, The University of Beni- Suef, Egypt.

 

2011-2014                               Head of pharmaceutics and industrial pharmacy department, Faculty of pharmacy. The University of Beni- Suef, Egypt.

                                                 

2011-2012                               Associate professor of pharmaceutical nanotechnology, The University of Beni- Suef, Egypt.

                                                 

2005-2010                               Assistant professors of pharmaceutics and industrial pharmacy

Pharmacy

July 2011 up to date:  Faculty of Pharmacy- Beni Suef  University, Assistant Professor  in  Pharmaceutics and Industrial Pharmacy

 

BUBLICATIONS:

1- Pharmaceutical Development and Technology, 2014. Statistical optimization of controlled release microspheres containing cetirizine hydrochloride as a model for water soluble drugs

2- World Journal of Pharmaceutical  Science, 2014; 2(8): 695-703. Modeling of ketoprofen release from a mucoadhesive orodental gel for better control of dental pain and gingivitis

3-International Journal of drug delivery, 2013; 5 (2): 167-176. Comparative pharmacokinetic study of two lyophilized orally disintegrating tablets formulations of vinpocetine in human volunteers

4-International Journal of Pharmaceutical Sciences, 2014: Preparation and Evaluation of Risperidone Oro-dispersible Tablets”

 

5- International Journal of drug delivery, Volume 4 (2012) 484-491: Development of Sublingual tablets of Bisoprolol Hemifumarate / Hydroxypropyl –β-Cyclodextrin Complex for Potential treatment of Angina Pectoris.

6- Al Azhaar Jounal of pharmaceutical science in 2009, volume 40-p:226:240 " Fast dispersible Norfloxacin tablets: formulation, stability and Bioavailability" ISSN 1110-1644.

7- In the international Egyptian pharmaceutical society XXXII conference of pharmaceutical sciences: Formulation and Evaluation of Ketotifen Fumarate Fast Disintegrating Sublingual Tablets

8- International Journal of drug delivery, Volume3 (2011) 228-240: 2-Hydroxypropyl-ß-Cyclodextrin Complex with Ketotifen Fumerate for Eye Drops Preparations

9. International Journal of drug delivery, Volume 4 (2011) 619-632: Formulation and Evaluation of Ketotifen Fumarate Fast Disintegrating Sublingual Tablets.

10. Heba A. A, Rasha M.K, Hatem R.I, Formulation and optimization of solid self nanoemulsifying system using porous carriers for oral delivery of Cinnarizine International Journal of Pharmacy and Pharmaceutical Sciences.Vol 8, Issue 1, 2016;

 

11.  Heba A. A, Rasha M.K Formulation, Development and Evaluation of Meclozine Hydrochloride Microspheres J Bioequiv Availab 2016, 8:1

 J Bioequiv Availab 2016, 8:1

 

 

All documents are available on request

 

 

 

 

 

 

 

 

Master Title

formulation of Norfloxacin in different Pharmaceutical Preparations

Master Abstract

This research paper addressed the formulation and performance of a mucoadhesive gel containing the anti-inflammatory drug ketoprofen. Various polymers were used in the formulation at different levels together with different types of crosslinking additives. The compatibility between ketoprofen and the employed polymers was tested using differential scanning calorimetry (DSC). Sustained release profiles were obtained from gels containing pluroic F127, carbopol981 and polycarbophil. Fast release was obtained from sodium alginate and HPMC at low levels. Response surface modeling of the release data indicated that the optimum ketoprofen release rates (44-58 %) were obtained from gel formulations containing carbopol 981 at 1% w/w level. Gel formulations containing sodium alginate (5 % w/w) released more than 40 % of their content of ketoprofen within two hours. The fastest rate was obtained from formulations containing hydroxylpropyl methylcellulose (HPMC E15) where, more than 90 % of the drug content was released at polymer level of 20 % w/w as obtained from model optimized formulations. The clinical evaluation of the anti-inflammatory and analgesic action of the prepared formulations compared to commercial ketoprofen tablets indicated significant difference (P < 0.05) in pain intensity and swelling associated with ginigivitis in favor of the gel formulation over the oral tablet. Therefore, formulation of ketoprofen into a mucoadhesive orodental gel can be considered an easy and more effective alternative to oral solid dosage forms.

PHD Title

Modeling of ketoprofen release from a mucoadhesive orodental gel for better control of dental pain and gingivitis

PHD Abstract

This research paper addressed the formulation and performance of a mucoadhesive gel containing the anti-inflammatory drug ketoprofen. Various polymers were used in the formulation at different levels together with different types of crosslinking additives. The compatibility between ketoprofen and the employed polymers was tested using differential scanning calorimetry (DSC). Sustained release profiles were obtained from gels containing pluroic F127, carbopol981 and polycarbophil. Fast release was obtained from sodium alginate and HPMC at low levels. Response surface modeling of the release data indicated that the optimum ketoprofen release rates (44-58 %) were obtained from gel formulations containing carbopol 981 at 1% w/w level. Gel formulations containing sodium alginate (5 % w/w) released more than 40 % of their content of ketoprofen within two hours. The fastest rate was obtained from formulations containing hydroxylpropyl methylcellulose (HPMC E15) where, more than 90 % of the drug content was released at polymer level of 20 % w/w as obtained from model optimized formulations. The clinical evaluation of the anti-inflammatory and analgesic action of the prepared formulations compared to commercial ketoprofen tablets indicated significant difference (P < 0.05) in pain intensity and swelling associated with ginigivitis in favor of the gel formulation over the oral tablet. Therefore, formulation of ketoprofen into a mucoadhesive orodental gel can be considered an easy and more effective alternative to oral solid dosage forms.