King Faisal Specialist Hospital & Research Centre

About: King Faisal Specialist Hospital & Research Centre is a healthcare organization based out in Riyadh, Saudi Arabia. It is known for research contribution in the topics: Medicine & Detection limit. The organization has 58 authors who have published 157 publications receiving 3527 citations.

Quantitative determination of fluconazole in syrups by first order derivative spectrophotometry

Abstract: An improved first order derivative spectrophotometric method was applied for the determination of fluconazole in syrups. The spectral interference observed in syrups was eliminated by using first derivative method. Distilled water is used as a solvent throughout the study. The chosen wavelength was 271.6 nm at first order derivative spectrum and the linear concentration range was 126.0–462.0 µg mL−1. Recovery studies shows the method is accurate and precise with 102.2% mean recovery value and 1.78 coefficient variation. Detection limit was found to be 4.53 µg mL−1.

Biosensor for the enantioselective analysis of the thyroid hormones (+)-3,3',5-triiodo-L-thyronine (T3) and (+)-3,3',5,5'-tetraiodo-L-thyronine (T4).

Abstract: An amperometric biosensor based on L-aminoacid oxidase is proposed for enantioselective assay of (+)-3,3',5-triiodo-L-thyronine (L-T3) and (+)-3,3',5,5'-tetraiodo-L-thyronine (L-T4), due to the fact that only the L enantiomer has the hormonal activity. The construction of the amperometric biosensor is simple and reproducible. The analytical information obtained from enantioselective analysis are reliable. The RSD <1% assured by using the amperometric biosensors for L enantiomers assay as raw materials, and from tablets, demonstrated their suitability for the analysis of T3 and T4 at ppb concentration levels.

Emergency response to radiological and nuclear accidents and incidents.

Abstract: Bone marrow damage is an important consequence of exposure to acute high-dose whole-body radiation. As such, haematologists can play an important role in managing this complication. However, these accident and incident scenarios are complex and often involve injuries to other organs and tissues from heat, projectiles and chemicals. In the case of a large-scale event there will likely be severe infrastructure disruptions and injury or death to medical personnel. Accurate estimates of dose and uniformity of exposure are needed to intelligently direct appropriate interventions, which range from antibiotics, antifungals and anti-virus drugs, molecularly-cloned haematopoietic growth factors and, in rare instances, haematopoietic cell transplants. These therapies are ones that haematologists often use in the context of anti-cancer therapy, especially therapy of haematological cancers like leukaemia. However, most haematologists have little knowledge of radiation biology and should consider updating this aspect of their expertise in continuing medical education. As in other areas of medicine, prevention is better than cure and haematologists should be active in decreasing risks of a nuclear war.

The determination of lansoprazole in pharmaceutical preparation by capillary electrophoresis

Abstract: A capillary electrophoretic method for the determination of lansoprazole in pharmaceutical preparations is described. The analysis was performed in a fused silica capillary using 20 mM borate buffer at pH 8.7 as a background electrolyte. The best resolution was obtained by applying a potential of 30 kV and vacuum injection of 1 s. Detection was made at 200 nm. Phenobarbital sodium was a good internal standard and the migration times were 4.1±0.2 min (lansoprazole) and 5.7±0.2 min (phenobarbital sodium). A well-correlated calibration equation was found in the range of 1.12×10−5 and 2.24×10−4 M. Limit of detection (LOD) and limit of quantitation (LOQ) were 1.4×10−6 M (RSD 1.44%) and 4.42×10−6 M (RSD 1.49%), respectively. The method was validated and applied to the capsules containing enteric coated pellets of lansoprazole. The results of the proposed method were compared those of UV spectrophotometry. Insignificant differences were found between the two methods at the 95% probability level. The described CE method is selective, rapid, sensitive and accurate for the analysis of lansoprazole in quality control laboratories.