Type 1 diabetes mellitus (T1D) is a chronic autoimmune disease caused by the selective destruction of pancreatic beta cells, leading to insulin deficiency. Both genetic and environmental factors contribute to disease susceptibility. Among genetic factors, human leukocyte antigen (HLA) class II molecules, particulary DQA1 and DQB1 haplotypes, have been associated with T1D risk. This study aimed to identify haplotypes that increase susceptibility to or provide protection against T1D in Jordanian population.

Methods:

A total of 200 healthy individuals and 200 T1D patients were included in the study. Genomic DNA was extracted from blood samples and HLA-DQA1, HLA-DQB1 and cytotoxic T-lymphocyte associated protein 4 (CTLA-4) gene regions were amplified by PCR. The PCR products were then subjected to restriction enzyme digestion and analyzed through agarose gel electrophoresis to determine different haplotypes.

Results:

Among the analyzed haplotypes, HLA-DQA1*01:01 was found to be significantly associated with increased susceptibility to T1D. In contrast, HLA-DQA1*02:01 and HLA-DQB1*05:01 appeared to provide protective effects against T1D. No significant differences were observed for other haplotypes between the control and patient groups. Additionally, no significant difference has been observed in terms of CTLA-4 polymorphisms.

Conclusion:

These findings suggest that HLA-DQA1*01:01 may serve as a genetic marker for T1D susceptibility, while HLA-DQA1*02:01 and HLA-DQB1*05:01 may confer protectionin the Jordanian population. Identifying these genetic risk factors could contribute to early disease prevention strategies and advanced research into additional genetic markers associated with T1D.

18 Jul 2025·JOURNAL OF SPORTS MEDICINE AND PHYSICAL FITNESS

The Turkish adaptation of the athletic perceptions of Performance Scale: shame, guilt, and performance concerns and their associations with mental health problems among Turkish elite-level adult athletes.

Article

Author: Lima, Yavuz ; Treeby, Matt S ; Doğan, Erman ; Yilmaz, Nazli D ; Rice, Simon ; Denerel, Nevzad

BACKGROUND:

There are many sport-specific factors in daily sport/competition environment that may negatively affect athletes and cause athletic shame or guilt linked with mental health problems. The aim of the present study was to establish psychometric data for the Turkish version of the Athletic Perceptions of Performance Scale (APPS-Tr) and evaluate correlates of athletic shame and guilt among adult Turkish professional athletes.

METHODS:

This cross-sectional online survey study utilized standardized scales to assess athletic shame and guilt, performance concerns, athlete-specific stress, depression, and anxiety. The survey was distributed to 960 Turkish professional athletes. A subset of participants (N.=45) provided APPS-Tr test-retest data at 30 days.

RESULTS:

A total of 426 athletes participated. Confirmatory factor analysis validated the APPS-Tr, test-retest data confirmed its temporal stability, and the reliability values were within an acceptable range. Younger athletes (compared to older counterparts) reported higher athletic guilt scores (P<0.01), while athletes with less sport experience (compared to more sporting experienced counterparts) reported higher athletic shame scores (P=0.04). Athletes who had experienced recent adverse life events were more likely to endorse athletic shame and guilt and performance concerns (P=0.01, P=0.01, P<0.01, respectively). Athletic shame was more strongly associated with athlete-specific stress, depression, and anxiety than athletic guilt (r>0.30 versus r<0.30).

CONCLUSIONS:

Findings provide cross-cultural validation of the APPS assessing athletic shame and guilt among adult elite athletes. Consistent with other studies, athletic shame was more strongly associated with mental health problems than athletic guilt. Results suggest that athletes experiencing athletic shame and performance concerns may benefit from supportive coaching and/or mental health support.

16 Jun 2025·Energy Sources Part A-Recovery Utilization and Environmental Effects

A biomass-integrated comprehensive energy system: thermodynamics assessment and performance comparison of sugarcane bagasse and rice husk as input source

Author: Dagbasi, Mustafa ; Kemena, Awoh Desire ; Huang, Qi ; Ruwa, Tonderai ; Babatunde, Akinola ; Williams, Ndifreke ; Bamisile, Olusola

The conversion of different waste materials into biogas through anaerobic digestion process has been presented in different literatures.However, studies about the application of these biomass energy resources are limited.The thermodn. assessment of a neoteric biomass-integrated comprehensive energy system configuration is studied.This study aims to investigate the multigeneration performance of the novel energy system and compare its thermodn. efficiencies with two different input sources.This study will provide an insight into the better choice of biomass-based thermal input source for thermodn. modeling.The system is developed to generate power, cooling, hot water, and hydrogen with a steam (power) cycle, absorption system, hot water tank, and polymer electrolyte membrane electrolyzer.With the aim to compare biomass from two different sources, biogas generated from rice husk and sugarcane bagasse is integrated as the thermal input and energetic/exergetic performance of the system presented in this study.The overall energy and exergy efficiencies of the system are 34.83% and 12% for rice husk biomass integrated system, and 68.29%, and 21.85% for sugarcane bagasse-integrated system.The highest exergy destruction was recorded at the boiler stage of the comprehensive energy system.

News (Medical) associated with Girne American University

11 Jul 2022

·www.sciencedaily.com

Could a phytochemical derived from vegetables like broccoli be the answer to antibiotic resistant pathogens?

While more and more pathogens have developed biofilms that protect them from being eradicated by antibiotics, fewer classes of antibiotics are being developed. Researchers decided to go in a different direction and investigated a phytochemical derived from cruciferous vegetables such as broccoli that breaks down the biofilm. Antibiotic resistant bacterial pathogens are increasingly playing a role in rising illness and preventing wound healing, especially in hospitals. While more and more pathogens have developed biofilms that protect them from being eradicated by antibiotics, fewer classes of antibiotics are being developed. Researchers from Ben-Gurion University of the Negev decided to go in a different direction and investigated a phytochemical derived from cruciferous vegetables such as broccoli that breaks down the biofilm. The phytochemical 3,3'-diindolylmethane (DIM) successfully broke down the biofilms protecting two different pathogens including Acinetobacter baumannii and Pseudomonas aeruginosa- enabling their eradication 65% and 70% of the time, respectively. Combined with antibiotics, that number jumped to 94%. Prof. Ariel Kushmaro, Dr. Karina Golberg and his team together with Prof. Robert Marks, all of them members of the Avram and Stella Goldstein-Goren Department of Biotechnology Engineering at BGU chronicled their findings in the peer-reviewed journal Pharmaceutics recently. Additionally, when they introduced DIM into an infected wound, it sped up the healing process significantly, the team found. "Our findings show promise for other avenues of research in addition to known classes of antibiotics," says Prof. Kushmaro. Further development and commercialization of the technology is currently being done at the startup company LifeMatters ( ). Additional researchers from Prof. Kushmaro's lab included: Bat-el Kagan, Sigalit Barzanizan, Dr. Karin Yaniv and Dr. Esti Kramarsky-Winter. They collaborated with researchers from Near East University and Girne American University in Cyprus. The research was supported by the National Institute for Biotechnology in the Negev and Israel's Ministry of Science and Technology. Prof. Kushmaro is also a member of the Goldman Sonnenfeldt School of Sustainability and Climate Change, and the Ilse Katz Center for Nanoscale Science and Technology.

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