Showing 5 results for Gholipour
Gholipour M, Kordi Mr, Taghikhani M, Ravasi Aa, Gaeini Aa, Tabrizi A,
Volume 69, Issue 2 (5 2011)
Abstract
Background: Body weight is regulated by both food intake and energy expenditure. Ghrelin, a hormone produced by the stomach and pancreas, enhances appetite. This study was undertaken to determine the effects of intermittent treadmill running on acylated ghrelin and appetite in individuals with obesity.
Methods: Nine inactive male students, with a mean age of 20.56±0.48 yrs, a body mass index of 32.68±0.84 kg/m2 and a maximum oxygen uptake of 34.21±1.48 ml/kg/min, participated in the study in two trials (control and exercise) in a counterbalanced, randomized design. The protocol included intermittent running with a constant intensity at 65% of VO2 max on a treadmill. Blood samples were collected before, during, and 2h after cessation of the exercise.
Results: Acylated ghrelin concentrations and hunger ratings decreased significantly in the second phase and remained lower than baseline (P=0.006 and P=0.002, respectively) at the end of the exercise. The total area under the curve values and hunger ratings (all P<0.0005) were significantly lower in the exercise trial compared with the control state. Similarly, growth hormone rose significantly at the second phase and remained higher than baseline (P=0.033) at the end of the exercise trial.
Conclusion: These findings indicate that acylated ghrelin and appetite are reduced by running at 65% of VO2 max and remain lower than baseline even two hours afterwards in individuals with obesity. Growth hormone seems to be more responsible for this
suppression. Further studies are required to investigate whether this protocol could
elicit the same effects in short-term training programs.
Majid Gholipour , Arezoo Tabrizi ,
Volume 71, Issue 5 (August 2013)
Abstract
Background: The prevalence of obesity has risen enormously over the past few decad-es. Both food intake (Appetite) and energy expenditure can influence body weight. Acylated ghrelin enhances appetite, and its plasma level is suppressed by growth horm-one. The present study, examines the effects of an intermittent exercise with progress-ive intensities on acylated ghrelin, appetite, and growth hormone in inactive male students with two levels of obesity.
Methods: Eleven inactive males were allocated into two groups on the basis of their body mass index (BMI). Six subjects in group one, BMI= 31.18±0.92 kg/m2, and five subjects in group two, BMI= 36.94±2.25 kg/m2, ran on the treadmill with progressive intensities of 50, 60, 70 and 80% of VO2max for 10, 10, 5, and 2 min respectively. Blood samples were collected before the exercise (as the resting values), after each workload (during the exercise), and at 30, 60, and 120 min (during recovery).
Results: Plasma acylated ghrelin concentrations and hunger ratings in two groups were decreased and remained significantly lower than resting values (P=0.008 and P=0.002 respectively) at the end of the trial and there was no significant differences between groups. Growth hormone levels in two groups were increased and remained significant-ly higher than resting values (groups one P=0.012, group two P=0.005) at the end of the trial and there was no significant differences between groups. In addition, there were no significant differences between area under the curves (AUC) values over total periods for acylated ghrelin, hunger ratings, and growth hormone in two groups.
Conclusion: These findings indicate that individuals with two levels of obesity have the same response to the different intensities of treadmill running and two hours thereafter during recovery period, which can be considered for designing a more effective weighting loss training program.
Majid Gholipour , Mastaneh Seifabadi , Mohammad Reza Asad ,
Volume 77, Issue 11 (February 2020)
Abstract
Background: Skeletal muscle mass, which is regulated by a balance between muscle protein synthesis and degradation, is an important factor for movement to meet everyday needs, especially in pathological conditions and aging. The purpose of the present investigation was to compare the alterations of the gene expression involved in muscle protein synthesis and degradation signaling pathways induced by two exercise training protocols.
Methods: Eight weeks old Wistar rats have been assigned to the present experimental study, which was conducted from August 2018 to October 2018 at the animal laboratory of Tehran University. They were randomly divided into two resistance and endurance training groups and one control group, and run on a treadmill, 5 sessions per week for 8 weeks. 48 hours after the last exercise session, the rats in the two groups were anesthetized, and the dissected soleus muscles from euthanized animals were stored at -80° for RT-PCR and Western blot analysis later. Between-group differences were analyzed by the parametric and non-parametric tests for normally and non-normally distributed data respectively, at the significance level of α˂0.05.
Results: Compared with the control group, mTORC1 gene expression was increased significantly just in the endurance group (P=0.022), whereas both endurance and resistance exercise protocols caused a significant increase in Rps6kb1 (P˂0.001 and P=0.001 respectively). In protein degradation pathway, although, FOXO3a did not alter significantly (P=0.463), eIF4Ebp1 gene expression was inhibited by both endurance and resistance exercise training protocols (P˂0.001 and P=0.001 respectively). The alterations of Rps6kb1 and FOXO3a gene expression were confirmed by Western blot analysis.
Conclusion: The results showed that the exercise training protocols of the present study had approximately similar effects on alterations of gene expression involved in skeletal muscle protein synthesis and degradation pathways. Therefore, application of the protocols may be considered to prevent or reduce the muscle atrophy in pathological conditions such as motor neuron disease, aging, and/or muscle strength improvement in athletes.
Sara Emamgholipour, Rajabali Darroudi , Abdoreza Mousavi, Samira Alipour , Fakhraddin Daastari,
Volume 80, Issue 11 (February 2023)
Abstract
Background: Given the limited resources of health system, economic evaluations studies can provide appropriate evidences for resource allocation by clarifying the possible consequences of a decision. Present study aimed to evaluate the implemented approaches for economic evaluation studies of pharmacoeconomic in Iran.
Methods: This study was carried out using the critical review method. All studies related to economic evaluation studies of pharmacoeconomic in Iran, indexed in PubMed and SID databases and Google Scholar search engine, were searched by using appropriate keywords and search strategies until 2021. Further, published papers from Iranian researchers in the field of health economics and pharmacoeconomics and pharmaceutical administration were extracted with the scientometric system of the Health Ministry. Then, retrieved papers were screened by title, abstract, and the whole text. Finally, papers were evaluated by applying the Drummond quality assessment checklist, and finally appropriate ones were selected. Finally, 29 papers were selected and analyzed.
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Results: Out of total available papers (n=1324), 29 papers had inclusion criteria to evaluate. The selected papers were analyzed based on 10 parameters, including type of analysis, type of comparator, source of clinical effectiveness, time horizon, used model, perspective of the analysis, measured expected outcomes, discounting of costs and outcomes, sensitivity analysis, and subgroup analysis. Most studies have used cost utility analysis. Shortcomings were found in some aspects as follows: some studies did not mention the applied model, or the time horizon. Moreover, some studies had time horizon more than one year, while the cost and consequences were not discounted.
Conclusion: In recent years, economic evaluation studies in the field of pharmacoeconomic in Iran have been center attention in line with global trend. In order to make a decision regarding the allocation of resources based on the findings of economic evaluation studies, these studies should be conducted with the systematic and transparent approach. Therefore, it is necessary to develop a standard framework for implementing and reporting the results of economic evaluation studies in Iran.
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Keywords: cost-benefit analysis, cost-effectiveness analysis,
Akram Gholipour, Mahshid Malakootian , Maziar Oveisee,
Volume 81, Issue 4 (July 2023)
Abstract
Background: Osteoarthritis (OA) and rheumatoid arthritis (RA) are both joint diseases with many different causes. Inflammatory arthritis, also known as rheumatoid arthritis, is one of the most complex types of arthritis. Non-inflammatory arthritis, also known as osteoarthritis, is a disease caused when the cartilage between the joints begins to be damaged. Considering the different treatment approaches for OA and RA, an accurate diagnosis of the type of arthritis is very important. The present study was conducted with the aim of finding gene expression and introducing reliable molecular biomarkers for RA and OA.
Methods: The microarray dataset was obtained under the GSE27390 number. The samples included nine samples of mononuclear cells obtained from the bone marrow of RA patients, 10 samples of mononuclear cells obtained from the bone marrow of OA patients. Differential expression analysis between the OA and RA groups was performed using GEO2R, and genes with differential expression were separated by examining two factors such as logFC#1 and p.adj. Value<0.05. Signaling pathways were determined using Enrichr databases. Next, the genes with the most expression changes were introduced. This study is a bioinformatics analysis and was conducted jointly at Bam University of Medical Sciences and Rajaie Cardiovascular, Medical and Research Institute from September 2022 to March 2023.
Results: The results showed that, 5083 genes had significant expression differences. Analysis of signaling pathways showed that antigen processing and presentation, natural killer cell-mediated cytotoxicity, the, IL-17 signaling pathway, Th17 cell differentiation and cytokine-cytokine receptor interaction, as inflammatory pathways, were important in this disease. It was also determined that CH25H (upregulated in RA samples) and GYPE (downregulated in RA samples) genes can distinguish rheumatoid arthritis from osteoarthritis.
Conclusion: Since accurate diagnosis helps with better disease treatment, it is very important to obtain new biological diagnostic markers. Overall, our data showed that genes can act as novel biomarkers with potential utility in the diagnosis of RA and OA and can be considered novel molecular biomarkers for the diagnosis of these two diseases.
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