Areeg Anwer Ali scite author profile

Absence of safe, effective and appropriate treatment is one of the main causes of high mortality and morbidity rates among the pediatric group. This review provides an overview of pharmacokinetic differences between pediatric and adult population and their implications in pharmaceutical development. Different pediatric dosage forms, their merits and demerits are discussed. Food and Drug Administration Act of 1997 and the Best Pharmaceuticals for Children Act 2002 added 6 months patent extension and exclusivity incentives to pharmaceutical companies for evaluation of medicinal products in children. Prescription Drug User Fee Act and Food and Drug Administration Amendments Act of 2007 made it mandatory for pharmaceutical companies to perform pediatric clinical studies on new drug products. Drug development program should include additional clinical bridge studies to evaluate differences in pharmacokinetics and pharmacodynamics of drugs in adult and child populations. Additionally, pharmaceutical development should consider ease of administration, palatability, appropriate excipients, stability and therapeutic equivalency of pediatric dosage forms. Pediatric population is diverse with individual preferences and demand for custom made dosage formulations. Practically it is not feasible to have different pharmaceutical dosage forms for each group. Hence, an appropriate dosage form that can be administered across pediatric population is warranted.

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Lesson Learnt from Recall of Valsartan and Other Angiotensin II Receptor Blocker Drugs Containing NDMA and NDEA Impurities

Charoo¹,

Ali

Buha³

et al. 2019

AAPS PharmSciTech

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The presence of N-nitrosodimethylamine (NDMA) and N-nitrosodiethylamine (NDEA) impurities in angiotensin II receptor blocker (ARB) drugs containing tetrazole ring has triggered worldwide product recalls. The purpose of this article is to identify the potential gap area in current pharmaceutical industry practice that might have led to the NMDA and NDEA impurities escaping the drug manufacturer's and FDA's attention. The impact of process change was not adequately assessed by the manufacturer of contaminated APIs (active pharmaceutical ingredients), and potential for generation of mutagenic or other toxic impurities was not considered. The safety and risk associated with a chemical synthetic process was also not evaluated. This is primarily due to current industry practice which focuses on controlling the impurities above reporting threshold. ICH Q3A and FDA guidance on genotoxic and carcinogenic impurities in drug substances and products need to be integrated so that the ICH Q3A decision tree (attachment 3) begins by checking whether the synthetic process has been evaluated for the potential to generate toxic impurities. The compliance with ICH Q3A limits should be carried out only after the process has been determined to be safe without the risk of generating mutagenic and carcinogenic impurities.

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Establishment of a BioequivalenceIndicating Dissolution Specification for Candesartan Cilexetil Tablets Using a Convolution Model

Hassan¹,

Charoo²,

Ali³

et al. 2015

Dissolution Technol.

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The aim of the present work was to establish a bioequivalence-indicating dissolution specification for candesartan cilexetil tablets. The discriminating power of the selected medium (0.25% Polysorbate 20 in pH 6.5 phosphate buffer) was assessed relative to that of 0.35% Polysorbate 20 in pH 6.5 phosphate buffer, a medium recommended by the U.S. FDA. Plasma concentration-time profiles of candesartan cilexetil tablets were derived from in vitro dissolution data by a convolution model. In solubility studies, 0.25% Polysorbate 20 in pH 6.5 phosphate buffer provided sink conditions for candesartan cilexetil 16-mg tablets. The method was more sensitive to the concentration of Polysorbate 20 than to paddle rotation speed and was able to distinguish depressed dissolution of mismanufactured tablets in samples taken at 20-and 30-min intervals. Verification of the model performed on innovator samples revealed the closeness of the predicted C max and AUC 0-α values to the reported values. A two-point dissolution specification is proposed for post-approval changes, and a one-point dissolution specification for quality control release of production batches.

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Quality risk management in pharmaceutical development

Charoo

Ali

2012

Drug Development and Industrial Pharmacy

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The objective of ICH Q8, Q9 and Q10 documents is application of systemic and science based approach to formulation development for building quality into product. There is always some uncertainty in new product development. Good risk management practice is essential for success of new product development in decreasing this uncertainty. In quality by design paradigm, the product performance properties relevant to the patient are predefined in target product profile (TPP). Together with prior knowledge and experience, TPP helps in identification of critical quality attributes (CQA's). Initial risk assessment which identifies risks to these CQA's provides impetus for product development. Product and process are designed to gain knowledge about these risks, devise strategies to eliminate or mitigate these risks and meet objectives set in TPP. By laying more emphasis on high risk events the protection level of patient is increased. The process being scientifically driven improves the transparency and reliability of the manufacturer. The focus on risk to the patient together with flexible development approach saves invaluable resources, increases confidence on quality and reduces compliance risk. The knowledge acquired in analysing risks to CQA's permits construction of meaningful design space. Within the boundaries of the design space, variation in critical material characteristics and process parameters must be managed in order to yield a product having the desired characteristics. Specifications based on product and process understanding are established such that product will meet the specifications if tested. In this way, the product is amenable to real time release, since specifications only confirm quality but they do not serve as a means of effective process control.

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Drug utilization review of cephalosporins in a secondary care hospital in United Arab Emirates

et al. 2016

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Background Cephalosporins are one of the most commonly used antibiotics in United Arab Emirates (UAE). Few studies have been carried out to evaluate the antibiotic utilization pattern in UAE in spite of the obvious increase in cephalosporins resistance during the past decade. Objective To assess the prescriptions pattern of cephalosporins among physicians at a secondary care hospital in Ras Al Khaimah, UAE. Method This observational prospective study was carried out during October 2013 to April 2014. The data of in patients were documented in the predesigned patient profile form and was analyzed for patient's, drug's and drug's therapy related parameters. Results The 3rd generation cephalosporins constituted 83.6 % of the prescriptions, with ceftriaxone being the most commonly used one (81.1 %). They were mainly prescribed for the treatment of the lower respiratory tract infections (60.2 %). Seven (3.5 %) different ADRs linked to cephalosporin use were observed ranging from oral thrush to clostridium difficile infection. A total of 1039 antimicrobial and nonantimicrobial medications were prescribed concomitantly with cephalosporins. Conclusion The 3rd generation cephalosporins were commonly prescribed by parenteral route. Thus, there is a strong need for rationalizing their use to preserve their efficacy and prevent the development of resistance in the region.

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Areeg Anwer Ali

Pediatric drug development: formulation considerations

Lesson Learnt from Recall of Valsartan and Other Angiotensin II Receptor Blocker Drugs Containing NDMA and NDEA Impurities

Establishment of a BioequivalenceIndicating Dissolution Specification for Candesartan Cilexetil Tablets Using a Convolution Model

Quality risk management in pharmaceutical development

Drug utilization review of cephalosporins in a secondary care hospital in United Arab Emirates

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