Navigating challenges in radiography research: radiographers' perspectives in Saudi Arabia.

Introduction: Radiography is a crucial healthcare specialty that requires ongoing research to advance imaging technologies and techniques. Despite this, radiographers are faced with obstacles such as time constraints, lack of resources, and the need for training on new technologies, which can discourage their research involvement. This study aims to provide a more representative understanding of the radiography research culture in Saudi Arabia, building upon previous studies. Methods: Following the approval of an ethics committee at Taibah University (2024/173/302 DRD), a cross-sectional survey was conducted from January to March 2024 among registered radiographers in Saudi Arabia. An online questionnaire was distributed via social media platforms using a snowball sampling strategy to reach a diverse group of radiographers across different regions and institutions. Participants provided informed consent before completing the questionnaire. The questionnaire, originally in English, was translated into Arabic and validated by two bilingual academics. It included sections on demographics, previous research experience, barriers to research involvement, factors encouraging research engagement, and self-assessment of research competencies. Descriptive statistics and Cronbach's alpha were used to analyze the data. Results: A total of 105 radiographers participated in the study, with 41% having prior research involvement. Among those engaged, the most common activity was data collection (65%), followed by preparation of scientific articles (49%). Challenges such as the lack of a research-focused culture (48%), insufficient awareness of opportunities (36%), and time constraints (34%) were prominent barriers to research participation. Encouraging factors included the need for research training (63%), support from research groups (51%), and allocated research time (50%). Respondents assessed their research skills, with confidence varied across skills, with 50% feeling capable of initiating research and 51% of participating, yet a significant proportion expressed uncertainties, especially in statistical knowledge and research methodology. Conclusion: Most of the surveyed radiographers did not engage in research. However, there is a substantial interest in enhancing research involvement, with training, collaborative groups, and organizational support identified as key factors encouraging participation. The findings suggest that addressing these barriers can foster a more robust research culture, leading to improved diagnostic practices.

Photoacoustic imaging in prostate cancer: A new paradigm for diagnosis and management.

The global health issue of prostate cancer (PCa) requires better diagnosis and treatment. Photoacoustic imaging (PAI) may change PCa management. This review examines PAI's principles, diagnostic role, and therapeutic guidance. PAI uses optical light excitation and ultrasonic detection for high-resolution functional and molecular imaging. PAI uses endogenous and exogenous contrast agents to distinguish cancerous and benign prostate tissues with greater sensitivity and specificity than PSA testing and TRUS-guided biopsy. In addition to diagnosing, PAI can guide and monitor PCa therapy. Its real-time imaging allows precise biopsies and brachytherapy seed placement. Photoacoustic temperature imaging allows non-invasive monitoring of thermal therapies like cryotherapy, improving treatment precision and success. Transurethral illumination probes, innovative contrast agents, integration with other imaging modalities, and machine learning analysis are being developed to overcome depth and data complexity restrictions. PAI could become an essential tool for PCa diagnosis and therapeutic guidance as the field advances.

A Process for Hydrogen Production from the Catalytic Decomposition of Formic Acid over Iridium-Palladium Nanoparticles.

The present study investigates a process for the selective production of hydrogen from the catalytic decomposition of formic acid in the presence of iridium and iridium-palladium nanoparticles under various conditions. It was found that a loading of 1 wt.% of 2% palladium in the presence of 1% iridium over activated charcoal led to a 43% conversion of formic acid to hydrogen at room temperature after 4 h. Increasing the temperature to 60 °C led to further decomposition and an improvement in conversion yield to 63%. Dilution of formic acid from 0.5 to 0.2 M improved the decomposition, reaching conversion to 81%. The reported process could potentially be used in commercial applications.

Biogenic-Mediated Synthesis of the Cs2O-MgO/MPC Nanocomposite for Biodiesel Production from Olive Oil.

In this work, a biogenic-mediated approach is successfully used to synthesize a novel heterogeneous Cs2O-MgO/MPC basic nanocomposite. For the first time, the established technicality employs pomegranate seed extract that gives a green capping fuel and reducing mediators during an aqueous solution combustion process of metal ion precursors. The synthesized nanocomposites were identified by X-ray diffraction, Fourier transform infrared, N2 isotherms, field emission scanning electron microscopy, and CO2-TPD analyses. The transesterification process of olive oil was used to evaluate the catalytic performance. The nanocomposite displayed outstanding catalytic efficiency stemming from the boosting of the reactant and product diffusion. The transesterification activity and the optimization design were assessed by applying the response surface methodology. Based on the experimental tests, the finest experimental conditions with a biodiesel yield of 96.1% are 4 h, 4% catalyst amount, an oil/methanol ratio of 1:15, and a temperature of 65 °C. The predicted optimal conditions based on the statistical model are 6 h contact time, 5.2 % catalyst dose, 65 °C reaction temperature, and 1:15 oil/methanol molar ratio, attaining a biodiesel yield of 95.18%. The catalyst reusability has been performed almost continuously up to four cycles, with no loss of the active constituents. The obtained biodiesel demonstrated characteristics close to those of international standards of biodiesel. Besides, the process employed in this study demonstrated significant potential for further development and commercialization and is cheaper than the refined vegetable oil used in traditional approaches of biodiesel manufacturing.