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How Media is Controlled by Political Parties in Pakistan

Thesis Info

Author

Zanab Arshad Malik

Supervisor

Shabbir Hussain

Program

MS

Institute

Riphah International University

Institute Type

Private

City

Islamabad

Country

Pakistan

Thesis Completing Year

2015

Thesis Completion Status

Completed

Page

118 . : ill. ; 30 cm.

Subject

Political Science

Language

English

Other

Submitted in fulfillment of the requirements for the degree of MS in Media Studies to the Institute of Media Sciences; Includes bibliographical references;; English; Call No: 324.2 ARS

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676711597913

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کبوتر، گدھ تے سَپ دی دوستی

کبوتر، گدھ تے سَپ دی دوستی

کسے جنگل وچ کبوتر تے کبوتری اک درخت اتے آہلنا پے کے رہندے سن۔ دونویں بہت خوش سن۔ کسے وی قسم دا اوہناں نوں فکر نہ سی۔ جنگل وچوں اوہ دانہ چگدے تے آرام نال زندگی گزار رہے سن۔ حالانکہ اوتھے کئی ہور پرندے تے جانور وی رہندے سن۔ پر ایہناں دا کسے نال کوئی میل جول نہ سی۔ اک دن کبوتری نے کبوتر نوں آکھیا کہ ساہنوں ایتھے رہندے کئی سال ہو گئے ساڈا کوئی دوست نئیں۔ تسی نال دے درخت اتے رہ رہے گدھ نال دوستی کرلو تاں جے کدے ساہنوں اوہناں دی مدد دی لوڑ پوے یاں اوہناں نوں ساڈی مدد دی لوڑ پوے تاں اک دوجے دی مدد کر سکیے۔ کبوتر نوں کبوتری دی اک گل پسند آئی تے اگلے دن اوہ دوستی دا پیغام لے کے گدھ دے گھر گیا تے اوس دے سامنے ساری رکھی۔ گدھ نے کبوتر دی گل نال اتفاق کیتا۔ دوست بنن مگروں کبوتر نے گھر آ کے ساری گل کبوتری نوں دسی تے اوہ سن کے بہت خوش ہوئی۔

کجھ دناں پچھوں کبوتری نے کبوتر نوں سپ نال دوستی لاون لئی گھلیا جو نالے والے درخت دی جڑاں وچ رہندا سی۔ اوس نال دوستی توں بعد اوہ دونویں بے فکر ہو گئے۔ کبوتر، گدھ تے سپ کدے کدے اک دوجے دے گھر جاندے، خیر خیریت پچھدے تے اپنے گھر واپس آ جاندے۔ انج اوہناں دی زندگی بہت چنگی لنگھ رہی سی۔

اک رات انج ہویا کہ جنگل وچ کجھ شکاری آئے۔ رات ہوون پاروں اوہ جنگل توں باہر جاون دا رستہ بھل گئے۔ اوہناں رات جنگل وچ ٹھہرن دا فیصلہ کیتا تے ڈیرے اوس درخت لائے جتھے کبوتر دا آہلنا سی۔ رات دے ہنیرے توں بچن لئی اوہناں سکے پتے تے ٹہنیاں...

صاحبزاده ميان محمدي بن ميان عمر: حياته، خدماته وآثاره العلمية

Mian Muhammadi (son of Hazrat Mian Umer) was a great sufi saint and Islamic scholar of Khyber Pakhtunkhwa Pakistan in 19th century and born in a well known village “Chamkani” of district Peshawar.  He was a multi dimensional personality of his time being a saint respectful to the all sects of Muslims, as a poet of Arabic and Pashto, and a scholar having a systematic program for publication of the books. He has authored a number of books in various fields of Islamic Studies and Shariah adopting a unique methodology in writing. He, the Mian Muhammadi, has spent his whole life in quenching the spiritual thirst of the local Muslim of that era on one hand, and spreading the knowledge on other hand. In the present paper, personal life, services as well as academic effects of this great saint have been discussed scholarly in order to bring forth his life sketch and contributions before the scholars.

Microbiology and Phage Therapy of Diabetic Foot Ulcer

Diabetic foot infections (DFI) are a major complication of diabetes mellitus. It contributes to the development of gangrene and non-traumatic lower extremity amputations with the life time risk up to 25 %. Since bacteria responsible for chronic wound infections are commonly within polysaccharide matrices known as biofilms, which to a large extent are refractory to antibiotics even when the bacteria are genetically susceptible to their action. In the first part of the study, we identified the neuropathy, ulcer grade, microbial profile, phenotypic and genotypic resistance prevalence of methicillin and ESBL genes in bacterial isolates of DFI patients registered at PIMS, Pakistan. Our results indicated that 46 (92 %) out of 50 patients, had sensory neuropathy. The most prevelant isolate was Staphylococcus aureus (25 %), followed by Pseudomonas aeruginosa (18.18%), E. coli (16.16%), Streptococcus spp (15.15%), Enterococcus spp (9%), Proteus spp (15.15%) and Klebsiella pneumonia (3%). The prevalence of MecA gene was found to be 88 % and 84% phenotypically and genotypically respectively. K. pneumonia had highest percentage of ESBL producers with 66.6 % prevalence by double disc synergy test and 100 % for CTX+CL/CAZ+CL by combination disc test. Pseudomonas aeruginosa had highest (100 %) number of metalo β-lactamase producers by EDTA synergy disk test. Overall prevalence of bla-CTX-M, bla-CTX-M15, bla-TEM, bla-OXA and bla-SHV genes was found to be 76.92, 76.92, 75.0, 57.69 and 84.6 % respectively in gram negative isolates from DFI. Molecular epidemiology of MecA and ESBL genes were found alarmingly high in DFI, posing one of the major cause of antibiotic treatment failure. In the second part of our study we determined whether combinations of antibiotics and bacteriophage were more effective for the treating biofilm populations of Abstract xvii Pseudomonas aeruginosa [the laboratory strain PA14, and the clinical strain, CFBR2)] on plastic surfaces and layers of human epithelial cells. Two newly isolated bacteriophage NP1 and NP3 at a titer of ~1E8 pfu/ml were added individually or as pairs and/or in combination with 1X MIC, 4XMIC and 8X MIC of ceftazidime, colistin, gentamicin or trobramycin to 48 hours PA biofilms in 6 well polystyrene plates. Parallel experiments were performed with 8-hour biofilm populations of epithelial Naso pharyngeal Detroit 562 (ATCC® CCl-138TM). Treatment with phage reduces the viable density of biofilm populations of P. aeruginosa. biofilms by three orders of magnitude as compared to untreated control. In combination with antibiotics phages are more effective than alone and increase efficacy of the antibiotics for treating bacteria in biofilms. In the third part of study we explored co-evolutionary dynamics of resistance between Pseudomonas aeruginosa 14 and its phages NP1 and NP3. Evolutionary dynamics experiments of single and two phages revealed that PA14 can easily evolve resistance against NP1 phage. NP3 phage maintained for 30 serial transfers and we observed host range in evolved bacteria. In cocktail, both phage support each for their long term maintenance in serial transfer experiments. Also, cocktail delayed the evolution of resistance and sustained high phage infectivity, suggesting phage cocktail is promising strategy to control or slow down evolution of resistance in bacteria against bacteriophages.