N Puramini, A Movahedian, S Bordbar-Bonab, E Fattahi, A Mirza-Aghazadeh, A Bahrami, Sh Fattahi, H Dolatkhah,
Volume 8, Issue 5 (winter[PERSIAN] 2015)
Abstract
Abstract Background and Objective: Recently, diabetes mellitus has been known as one of the main cause of upper gastrointestinal symptoms. Since a high prevalence of H. Pylori in diabetic patients has been reported, we aimed to evaluate the level of gastric juice Nitric Oxide (NO°), Oxidative Stress and Glycated Hemoglobin. Material and Methods: In case group, the participants were 60 diabetic patients infected with H. Pylori, and in control groups 60 diabetic patients without H. Pylori and 60 healthy individuals. The level of NO° in gastric juice was measured calorimetrically and the activity of superoxide dismutase (SOD) and glutathione peroxidase (GPX) in gastric biopsy was determined using standard methods. The percentage of Glycated Hemoglobin (HbA1C) was measured by ion exchange chromatography. Results: In case group compared to controls, significantly increased level of blood HbA1C, nitric oxide in gastric juice, activity of SOD and GPX in the gastric mucosa were observed (p<0.0001). Conclusion: A significant increase of glycated hemoglobin in diabetic patients with H. Pylori and high activity of antioxidant enzymes in the case group may indicate a high production of reactive oxygen species and the presence of oxidative stress in these patients. Key Words: Diabetes Mellitus, H. Pylori Infection, Glycated Hb, Nitric Oxide, Oxidative Stress
Mohsen Dashti, Afsane Bahrami, Mohammad Hadi Sadeghian, Seyyede Fatemeh Shams, Ahmad Ashjaee, Zahra Arianpour ,
Volume 11, Issue 4 (Jul-Aug 2017)
Abstract
ABSTRACT
Background and Objectives: Blood transfusion may induce some adverse effects on receivers. Some methods such as antibody screening and cross matching have been suggested to reduce the risk of transfusion complications. However, these methods require commercial antibody screening kits that may also need special equipment. The aim of this study was to introduce a new method for antibody screening that does not require a commercial kit, and could be used in any transfusion laboratory.
Methods: We examined 350 samples that contained alloantibody and 350 control samples without the antibody. A solution containing two O+ and one O- samples were used instead of screening cells.
Results: Sensitivity and specificity of the method were 73.32% and 45.15%, respectively. Positive predictive value and negative predictive value were 58.33% and 63.88%, respectively.
Conclusion: Our new method can be used in basic hematology laboratories with some modifications.
Keywords: Antibodies, Antigens, Coombs test.
Fereshteh Keyghobadi, Nader Bahramifar, Elahe Gharekhani, Seyyedeh Marzieh Kia,
Volume 13, Issue 5 (Sep-Oct 2019)
Abstract
ABSTRACT
Background and Objectives: In this study, nanosilica modified with HS-SiO2 thiol groups was utilized as adsorbent for solid phase extraction, as a fast and reliable method of preconcentration and separation of very small quantities of selenium ions from water and blood samples.
Methods: The samples included four natural water samples and one biological sample (blood serum) prepared in volumes of 25, 100, 200, 300, 400 and 500 ml. The samples were analyzed by solid phase microextraction, using thiolated-nanosilica (as adsorbent), ultraviolet-visible spectrophotometry and atomic absorption spectroscopy.
Results: Optimized conditions for preconcentration of a 25 ml 0.2 mg/l selenium solution were pH 5, 40 mg of adsorbent, sample-adsorbent mixing time of 15 minutes and 5 ml of 2N sulfuric acid as detergent. The volume limit and concentration factor were 400 and 80, respectively. Limit of detection and relative standard deviation of the method were 0.46 μg/l and 0.9%, respectively.
Conclusion: This study is the first to successfully utilize thiolated nanosilica for measuring low selenium levels. Thiolation of the absorbent increases selenium adsorption by thiolated-silica compared to SiO2.
Keywords: Solid phase extraction, Selenium, Preconcentration, Nano, UV-visible spectrophotometry.