Corrosion Inhibition of Carbon Steel in a Sour (HS) Environment by an Acryloyl-Based Polymer.

Corrosion poses safety and operational challenges in the oil and gas field, particularly in a sour environment. Corrosion inhibitors (CIs) are thus employed to protect the integrity of industrial assets. However, CIs have the potential to dramatically impair the effectiveness of other co-additives, such as kinetic hydrate inhibitors (KHIs).

Morning cortisol as an alternative to Short Synecthan test for the diagnosis of primary adrenal insufficiency.

Objective: To determine 7-9 am serum cortisol less than 5mcg/dl is an independent reliable confirmatory test for the diagnosis of primary adrenal insufficiency (PAI).

Methods: A total of 164 patients who visited the outpatient or inpatient department of Aga Khan University Hospital from June 2011 to June 2017 were included for the study. All those patients whose levels came out less than 5mcg/dl were recruited for the study and they all underwent SST.

Microalbuminuria in Type-2 Diabetes Mellitus; the tip of iceberg of diabetic complications.

Objective: To determine the prevalence of microalbuminuria and its association with hypertension and other diabetic complications among Type-2 diabetic patients attending at Aga Khan University Hospital Karachi.

Methods: 1280 Type-2 diabetes patients who visited the outpatient department of Aga Khan University Hospital from September 2014 to August 2016 were included in the study. Microalbuminuria was diagnosed if spot urinary microalbumin excretion was confirmed to be more than 20mg/l.

Primary adrenal non-Hodgkin lymphoma: a case report and review of the literature.

Background: Lymphomas are cancers that arise from the white blood cells and have been traditionally divided into two large subtypes: Hodgkin and non-Hodgkin lymphoma. B-cell lymphoma is the most common subtype of non-Hodgkin lymphoma; almost 85% of patients with lymphoma have this variant. Lymphomas can potentially arise from any lymphoid tissue located in the body; however, primary adrenal non-Hodgkin lymphoma is extremely rare.

Targeting biofilms of multidrug-resistant bacteria with silver oxynitrate.

A topical antimicrobial, silver oxynitrate (AgNO), has recently become available that exploits the antimicrobial activity of ionic silver but has enhanced activity because highly oxidised silver atoms are stabilised with oxygen in a unique chemical formulation. The objective of this study was to use a multifaceted approach to characterise the spectrum of antimicrobial and antibiofilm activity of a wound dressing coated with AgNO at a concentration of 0.4 mg Ag/cm.

In vivo efficacy, toxicity and biodistribution of ultra-long circulating desferrioxamine based polymeric iron chelator.

Desferrioxamine (DFO) is currently in clinical use to remove iron from transfusion-dependent patients with β-thalassemia major, sickle-cell anemia and the myelodysplastic syndromes. However, its short half-life, burdensome, subcutaneous mode of administration and propensity to cause neurotoxicity at high doses greatly hinder its use. Thus, developing an optimized version of DFO with extended half-life, and reduced toxicity is a major goal.

Clinically approved iron chelators influence zebrafish mortality, hatching morphology and cardiac function.

Iron chelation therapy using iron (III) specific chelators such as desferrioxamine (DFO, Desferal), deferasirox (Exjade or ICL-670), and deferiprone (Ferriprox or L1) are the current standard of care for the treatment of iron overload. Although each chelator is capable of promoting some degree of iron excretion, these chelators are also associated with a wide range of well documented toxicities. However, there is currently very limited data available on their effects in developing embryos.

Hybrid polyglycerols with long blood circulation: synthesis, biocompatibility, and biodistribution.

Multifunctional polymers with defined structure and biocompatibility are critical to the development of drug delivery systems and bioconjugates. In this article, the synthesis, in vitro blood compatibility, cell viability, in vivo circulation, biodistribution, and clearance of hybrid copolymers based on linear and branched polyglycerol are reported. Hybrid polyglycerols (M(n) ≈ 100 kDa) are synthesized with different compositions (15-80 mol% linear polyglycerol).

Design of long circulating nontoxic dendritic polymers for the removal of iron in vivo.

Patients requiring chronic red blood cell (RBC) transfusions for inherited or acquired anemias are at risk of developing transfusional iron overload, which may impact negatively on organ function and survival. Current iron chelators are suboptimal due to the inconvenient mode of administration and/or side effects. Herein, we report a strategy to engineer low molecular weight iron chelators with long circulation lifetime for the removal of excess iron in vivo using a multifunctional dendritic nanopolymer scaffold.

Biodegradable polyglycerols with randomly distributed ketal groups as multi-functional drug delivery systems.

Biodegradable multi-functional polymeric nanostructures that undergo controlled degradation in response to physiological cues are important in numerous biomedical applications including drug delivery, bio-conjugation and tissue engineering. In this paper, we report the development of a new class of water soluble multi-functional branched biodegradable polymer with high molecular weight and biocompatibility which demonstrates good correlation of in vivo biodegradation and in vitro hydrolysis. Main chain degradable hyperbranched polyglycerols (HPG) (20-100 kDa) were synthesized by the introduction of acid labile groups within the polymer structure by an anionic ring opening copolymerization of glycidol with ketal-containing epoxide monomers with different ketal structures.

Influence of architecture of high molecular weight linear and branched polyglycerols on their biocompatibility and biodistribution.

The availability of long circulating, multifunctional polymers is critical to the development of drug delivery systems and bioconjugates. The ease of synthesis and functionalization make linear polymers attractive but their rapid clearance from circulation compared to their branched or cyclic counterparts, and their high solution viscosities restrict their applications in certain settings. Herein, we report the unusual compact nature of high molecular weight (HMW) linear polyglycerols (LPGs) (LPG - 100; M(n) - 104 kg mol(-1), M(w)/M(n) - 1.

Phase behavior of ketoprofen-poly(lactic acid) drug particles formed by rapid expansion of supercritical solutions.

The present contribution investigates whether it is possible to form stable amorphous particles of ketoprofen-poly(lactic acid), naproxen-poly(lactic acid), and indomethacin-poly(lactic acid). Amorphization and micronization of these poorly water-soluble drugs offer a combined way to improve the solubility and enhance the dissolution rate. The particles were formed by pulsed rapid expansion of supercritical CO(2) solutions and characterized in the aerosol phase with rapid-scan infrared spectroscopy and after collection with scanning electron microscopy and X-ray diffraction.