Hayder Abdul Hameed Alsalem; Mahammed Ebraheem Al-Defiery
Volume 12, Issue 1 , January 2026, Pages 1-13
Abstract
The World Health Organization declared a novel coronavirus disease (COVID-19) as a global pandemic the work has begun to combat it. Objective: The objective of the study was investigated whether can be used some biological tests as dependable biomarkers for indicating the severity of COVID-19 with a ...
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The World Health Organization declared a novel coronavirus disease (COVID-19) as a global pandemic the work has begun to combat it. Objective: The objective of the study was investigated whether can be used some biological tests as dependable biomarkers for indicating the severity of COVID-19 with a comparison between patients in urban and rural of Babylon province. Materials and Methods: One hundred and forty samples of blood (70 patients urban and 70 patients rural) were obtained from patients who had positive results and severe symptoms of COVID-19 infection were accomplished by Marjan Teaching Hospital from December/2021 to February/2022. D-dimer, ferritin and C-reactive protein (CRP) tests were performed according to (CLIA) technique. White blood cell (WBC), counting uses a fully automated hematology analyzer device.Results: The results showed a significant difference in D-dimer (P=0.000), ferritin (P=0.001) and WBC count (P=0.000) between patients in both urban and rural of Babylon province, while CRP was an insignificant difference (P=0.06).Conclusions: It can be inference the examination of D-dimer and CRP is considered as biomarkers for severity of COVID-19 patients in urban and rural. Whereas the effect of gender is not significant in all parameters. Furthermore, the results of frequency distribution of patients showed the concentrations of D-dimer and CRP in blood exceeded the approved normal value in both patients of urban and rural. Also, a lot of values of ferritin and WBC in urban patients exceeded the normal value and not exceeded in rural patients.
Hussein Salman; Iqbal Ismael Salih; Rana Mohamed Naser
Volume 12, Issue 1 , January 2026, Pages 14-24
Abstract
The antifungal and antibacterial properties of black pepper (Piper nigrum) were examined in this study. against a number of isolated bacteria and fungi. 58 oral swabs in all were collected from 40 women and 18 men with diabetes and urinary tract infections at Al-Moani and Al-Fayhaa Hospitals in Al-Basra ...
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The antifungal and antibacterial properties of black pepper (Piper nigrum) were examined in this study. against a number of isolated bacteria and fungi. 58 oral swabs in all were collected from 40 women and 18 men with diabetes and urinary tract infections at Al-Moani and Al-Fayhaa Hospitals in Al-Basra province during the period from September to November 2023. Disc diffusion was used in antimicrobial experiments to identify inhibitory zones against various bacteria isolates. According to the findings, black pepper revealed strong antifungal efficacy against Candida albicans (80%), Candida dubliniensis (80%), and Candida tropicalis (100%). Furthermore, the extract showed strong antibacterial activity, particularly against Staphylococcus aureus (100%) and Staphylococcus epidermidis (60%), and moderate activity against Escherichia coli (80%) and Klebsiella pneumoniae (70%).The findings confirm the broad-spectrum antibacterial properties of black pepper, which are likely caused by its bioactive components, such as piperine and essential oils. These results suggest that black pepper could be a natural alternative for controlling dangerous bacteria and fungi in the food preservation and pharmaceutical industries.
Ali H. Ali; Jamal Rzaij; Mustafa R. Al-Shaheen
Volume 12, Issue 1 , January 2026, Pages 25-43
Abstract
The present work explored a low cost approach to synthesize zinc oxide (ZnO) nanoparticles employing pulsed laser ablation in liquid (PLAL). The ablated material was pelletized into a disk with a diameter of 2 cm and annealed at 400 °C for one hour. NPs were prepared with a Q-switched Nd:YAG ...
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The present work explored a low cost approach to synthesize zinc oxide (ZnO) nanoparticles employing pulsed laser ablation in liquid (PLAL). The ablated material was pelletized into a disk with a diameter of 2 cm and annealed at 400 °C for one hour. NPs were prepared with a Q-switched Nd:YAG laser at 1064 nm wavelength and various energy levels (500, 600, and 700) mJ at a pulse count of 1000 pulses. The samples were initially examined by UV-Vis: for the latter, a power dependence (increasing laser power led to increased absorption in the 200–400 nm wavelength range) was found. the absorption peak was at about 370-380 nm. Furthermore, Zeta potential increased with the higher laser power, indicating the superior stability of floating nanoparticles. Lastly, Flame Atomic Absorption Spectroscopy (FAAS) showed a power dependent increase of the nanoparticles. For the UV-Vis, Zeta potential and FAAS experiments, 700 mJ of power was the best condition. Hence, the selected samples were further analyzed for crystalline phase by X-ray diffraction (XRD), and atomic composition was determined by Energy dispersive X-ray (EDX), size and shape were analyzed by Transmission Electron Microscope(TEM). The XRD diffraction data demonstrates various hexagonal phase crystalline structure for zinc (Zn), ZnO and ZnO2. The diffraction peaks were exhibited at different 2θ positions and were calculated crystal sizes of (12.92–90.74) nm. EDX was used to verify that the nanoparticles have the targeted elemental stoichiometry. TEM examination confirmed the spherical shape of the particles with an average size diameter of approximately 12 nm.
Noor Alhuda khalaf; Hussein Ali Naji
Volume 12, Issue 1 , January 2026, Pages 44-60
Abstract
Dermatophytes are a category of fungi that preferentially target keratin and can infect the skin, hair, and nails. They are ubiquitous globally but more prevalent in warm and wet regions. These pathogens are zoonotic and represent a considerable source of infection for humans. The present study ...
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Dermatophytes are a category of fungi that preferentially target keratin and can infect the skin, hair, and nails. They are ubiquitous globally but more prevalent in warm and wet regions. These pathogens are zoonotic and represent a considerable source of infection for humans. The present study is designed to document the feline dermatophytosis in cats in Basra province – Iraq. The current study included 100 cats, eighty cats clinically infected with dermatophytosis in different age, sex and breeds, in addition 20 cats clinically healthy consider as control group. The results of the clinical signs included circular lesion or alopecia (1-3 cm) small and round patches of hair loss 80 (100%), Broken hairs around lesion appear frayed like a a paintbrush 74 (59.2%), grayish- white scales (dandruff like) 72 (57.6 %), thickening of skin, especially on pressure points or chronic lesion 38 (30.4%) and erythema or mild redness 27 (21.6%). According to breed the results showed incidence of dermatophytosis in Shirazi Persian followed by Himalayan Persian, house cats and Scottish cats, while according to the sex dermatophytosis more incidence in male than female, According to age, the infected percent of dermatophytosis were more incidence in cats less than nine-month-old 52 (65%), In addition to cats infected with dermatophytosis, lesions commonly manifest in ears 12 (15%), face 11 (13.75%), abdomen 10 (12.5%), head 8 (10%), tail 7 (8.75%), The results of wood lamps examination indicated all the suspected infected cats (80 cats) were positive for dermatophytosis, microscopic examination indicated the ectothrix more incidence the endothrix.
Esraa A. Al Samir; Intisar Albandar; Muntaha Kadhim; Shaimaa Al Samir
Volume 12, Issue 1 , January 2026, Pages 61-74
Abstract
Successful “micro-propagation” requires avoiding microbial contamination of plant tissue cultures at every stage of growth. Bacterial contaminants (both Endophytic and epiphytic organisms) can lead to the loss of propagated plants at every stage of development. Plants infected with bacterial ...
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Successful “micro-propagation” requires avoiding microbial contamination of plant tissue cultures at every stage of growth. Bacterial contaminants (both Endophytic and epiphytic organisms) can lead to the loss of propagated plants at every stage of development. Plants infected with bacterial contamination will suffer from impaired rooting and multiplication, and may even die. Plant death results in the loss of plant tissue, which is particularly detrimental for the tissue culture of economically important plants such as potatoes and date palms. Early detection of bacterial contamination is difficult, as it is present within plant tissues, leading to the loss of plant tissue before the contamination is detected and treated. Bacterial contamination can result from various causes, including the use of improper sterilization techniques or the use of improperly sterilized equipment. To produce sterile plant cultures, various criteria must be known, such as the source of contamination and the type of pathogen. These criteria can be minimized, and sterilized plant cultures can be produced using antibiotics or other advanced techniques. It has been found that methods of preventing bacterial contamination using chemical compounds cause harm to both the transferred and growing plant tissues and to workers in plant tissue culture laboratories or fields. Therefore, nanotechnology using various types of nanoparticles has emerged as a promising new solution to this intractable and widespread problem in plant tissue cultures. Nanoparticles may serve as an alternative to antibiotics, particularly when bacteria develop resistance to existing antibiotics.
Sabreen Malik Nayef; Faris S. Kata
Volume 12, Issue 1 , January 2026, Pages 75-89
Abstract
Osteoporosis is a pathological condition that results from a disruption in the dynamic balance of bone remodeling, involving complex interactions between resorption and formation markers at the cellular level. These interactions are influenced by various molecular and hormonal factors, ultimately leading ...
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Osteoporosis is a pathological condition that results from a disruption in the dynamic balance of bone remodeling, involving complex interactions between resorption and formation markers at the cellular level. These interactions are influenced by various molecular and hormonal factors, ultimately leading to an increased rate of bone resorption that surpasses bone formation. The assessment of bone turnover markers is considered a critical tool in the management and monitoring of patients with osteoporosis. Among the established biochemical indicators, bone-specific alkaline phosphatase (B-ALP) and osteopontin (OPN) serve as reference markers for bone formation and resorption. The present study was conducted on postmenopausal women diagnosed with osteoporosis in Basrah Province, Iraq. This study set out to examine the correlation between osteoporosis and blood concentrations of two important biomarkers, bone alkaline phosphatase (B-ALP) and osteopontin (OPN), in women who had just gone through menopause. After menopause, 80 blood samples were taken from women: 55 from those who had osteoporosis and 25 from those who were considered healthy. Patient samples were also distributed into two categories depending on age and disease severity. The results of the statistical analysis showed that compared to healthy persons, osteoporotic patients had significantly higher levels of osteopontin (P < 0.001). In addition, the T-test revealed that the serum B-ALP concentration was significantly lower in the osteoporotic group than in the control group. The results of this research indicate that changes in the blood levels of B-ALP and OPN are important for postmenopausal women to be able to recognise and track the course of osteoporosis early on. These findings support the potential use of B-ALP and OPN as early biochemical indicators for monitoring postmenopausal osteoporosis.
Ahlam Ali Turki Mohammed; Alaa Kadhim Jasim; Rajaa Ahmed Mahmoud
Volume 12, Issue 1 , January 2026, Pages 90-101
Abstract
Background: Welding is a skilled manual craft that relies on human labor and artistry to fuse metal components using heat and tools. It's crucial in manufacturing, maintenance, and construction. Despite technological advances, intricate projects still depend on welders. However, this profession exposes ...
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Background: Welding is a skilled manual craft that relies on human labor and artistry to fuse metal components using heat and tools. It's crucial in manufacturing, maintenance, and construction. Despite technological advances, intricate projects still depend on welders. However, this profession exposes workers to various occupational hazards, making health and safety a top priority. Objectives: The study evaluated the impact of workplace safety protocols on Iraqi welders in the Al Diwaniyah province. Methodology: A cross-sectional descriptive study was performed out. There were 291 participants in the study, which used a simple method of random sampling. It began in September of 2024 and ended in February of 2025. Results: The study found that the majority of welders were young adults aged 25–34, with limited educational levels and a high prevalence of smoking. Most participants worked more than 8 hours per day, primarily in residential areas, and had experience ranging from 5 to 10 years. Electric welding was the most common method used, while the use of Personal protective equipment (PPE) (especially for respiratory and auditory protection) was notably low. Statistical analysis found no significant link between demographic or occupational variables and PPE use, indicating major gaps in safety compliance. Conclusions: This study highlights the demographics of welders and the relationship with the application of occupational safety practices. PPE use remains inadequate. This study emphasizes the need for targeted interventions and stricter workplace safety compliance.
Rand Hussein Abdullah; Karrar Ali Hussein; Hussam Mezher Merdas; Abdulrahman Ali Hassan
Volume 12, Issue 1 , January 2026, Pages 102-120
Abstract
Iraq experienced a critical and turbulent period between 2003 and 2020, marked by political instability and emergency conditions that directly impacted the country's structure, performance, and economy. In light of this, this study aimed to analyze the effect of fluctuations in oil revenues on key macroeconomic ...
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Iraq experienced a critical and turbulent period between 2003 and 2020, marked by political instability and emergency conditions that directly impacted the country's structure, performance, and economy. In light of this, this study aimed to analyze the effect of fluctuations in oil revenues on key macroeconomic variables in Iraq, specifically unemployment and inflation, during the period 2005–2020. The research employed the Variable Regression (VAR) model and the Error Correction (ECM) model, based on official annual data analyzed using EViews 12 software. Reliability tests and cointegration techniques were applied to assess short-term and long-term relationships. The results indicate that the Iraqi economy is heavily dependent on oil revenues, which constituted more than 90% of total public revenues in most of the years included in the study. The study reveals that oil revenues peaked at 119.4 trillion Iraqi dinars in 2012, then declined to 54.4 trillion Iraqi dinars in 2016. Unemployment rose from 18% in 2005 to 30% in 2020, largely driven by lower oil prices and reduced fiscal capacity. Simultaneously, inflation fell significantly from 30.8% in 2005 to less than 1% between 2015 and 2020, reflecting government interventions and demand constraints. The VAR model results indicate a unidirectional causal relationship between oil revenue volatility and unemployment, highlighting the vulnerability of the Iraqi labor market to oil price shocks. Therefore, the study recommends diversifying the economy, investing oil revenues in other productive sectors, and adopting flexible budgeting practices to mitigate the impact of future oil price shocks.
Azher Nassif Jassem; Questan Ali Ameen; Myriam Janeth Ortega Torres; Ahmed Sami Shaker
Volume 12, Issue 1 , January 2026, Pages 121-126
Abstract
The aim of these was to look out for their implications on body dimensions. In total, 150 horses of both sexes and ages 3 to 15, were analyzed. Measurements of body length, body height (withers height), and body girth were also performed in accordance with standards. Horses were grouped according to ...
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The aim of these was to look out for their implications on body dimensions. In total, 150 horses of both sexes and ages 3 to 15, were analyzed. Measurements of body length, body height (withers height), and body girth were also performed in accordance with standards. Horses were grouped according to their body color (black, red dun, blue roan, bay, gray) and face type (star and stripe, star and snip, bald face, lip marking, irregular blaze). Statistical analyses were made on independent samples for each of the dependent controls (SPSS Version 25.0); t-test, one-way ANOVA, and Pearson correlation coefficient. Results indicated statistically significant sexual dimorphism between males and females in body height (p = 0.009), with males consistently taller (155.62 cm) than females (149.95 cm). No significant differences were shown between sexes for body length and girth. Coat color significantly influenced body length (p < 0.05), with black horses having the longest body length, 161.50 cm, while the shortest body length was most attributed to red dun (143.22 cm); however, coat color did not have a notable effect on body height or girth. There was no significant difference in body height or gender differences between males and females. Face type did not significantly correlate with body dimensions. Limb morphology showed bilateral symmetry and the association between different limb traits was only moderate. All these points point out the influence of genetic and environmental factors on Equine Morphology and have practical implications for breeding and management strategies which are often used to support equine. The study emphasizes the need to take phenotypic traits into account in equine research and suggests future studies must delve further into the likely genetic basis for those associations. Key Words: horses, characterization, morphological
Isam Azeez Khaleefah; Sara Salim Mohammad; Budoor M. Lateif
Volume 12, Issue 1 , January 2026, Pages 127-143
Abstract
The southern Iraqi wetlands, especially the Hammar, Hawizeh and Central Marshes are one of the most ecologically important locations of migratory and resident birds in the Middle East. Forming a part of the largest wetland in Western Eurasia in the past, these territories are currently exposed to the ...
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The southern Iraqi wetlands, especially the Hammar, Hawizeh and Central Marshes are one of the most ecologically important locations of migratory and resident birds in the Middle East. Forming a part of the largest wetland in Western Eurasia in the past, these territories are currently exposed to the severe danger connected with the human operation and alterations of the environment.This paper will focus on assessing the ecological importance of these wetlands to avian biodiversity, acknowledge the major environmental issues afflicting bird population and the offer practical tips in conservation.It is a study founded on a review and synthesis of earlier published researches, reports, and international assessments the focus of which is the bird migration patterns, the habitat diversity and environmental effects on the marshes in southern Iraq.Key Findings:The wetlands also act as important stopovers and breeding areas to more than 200 species of birds including the world threatened Northern bald Ibis and Marbled Teal. The marsh drainage, dam construction, pollution, poaching, and climate change, however, have led to a reduction in the bird populations. These threats have interfered with migration patterns and poor wetland ecosystem.Lacking urgent and long-term conservation measures, such as the restoration of habitats, increased control over human actions, and global cooperation, the ecological and cultural significance of Iraqi marshes of the southern region as the essential parts of the international migratory migration routes will only decline further.
Hoyam S. Alghaneam; Majid N. Humoud; Huda N. Jawad AL.Husseini
Volume 12, Issue 1 , January 2026, Pages 144-158
Abstract
The long-held knowledge regarding vitamin D is that it could affect both homeostasis of calcium and bone metabolism. It is a vital immune regulator which has impact on the immune systems' innate and adaptive components as it is based on the mounting data. Research has shown that vitamin D deficiency ...
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The long-held knowledge regarding vitamin D is that it could affect both homeostasis of calcium and bone metabolism. It is a vital immune regulator which has impact on the immune systems' innate and adaptive components as it is based on the mounting data. Research has shown that vitamin D deficiency is linked to several of immune-mediated illnesses, infection, vulnerability, and cancer. The objective of this article is to highlight the importance of this vitamin and clarifying the relationship between the immune system and it in general in addition to the innate and acquired immunity in particular.
Abeer M. Hussain
Volume 12, Issue 1 , January 2026, Pages 159-173
Abstract
Understanding the fundamentals of pathophysiology, testing methods, the causes of tumor marker levels that are outside of the normal range, and the evidence-based role of tumor markers in malignancy is essential in clinical practice, as these parameters play an increasingly important role in all facets ...
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Understanding the fundamentals of pathophysiology, testing methods, the causes of tumor marker levels that are outside of the normal range, and the evidence-based role of tumor markers in malignancy is essential in clinical practice, as these parameters play an increasingly important role in all facets of cancer, from screening to post-treatment continuation. This is an auxiliary tool for making a diagnosis. In actuality, there is no such thing as an optimal tumor marker. Tissue, bodily fluids, or serum may all be tested for this. There are 4 major classes of experimental applications: screening (early detections), confirmative diagnosis, prediction, and recurrence/response to treatment. In certain situations, levels of serum can be utilized in determining the stage of disease, prognostication or response to therapy. The majority of markers of blood tumors utilized in clinical practice for disease monitoring. It is possible to identify disease recurrence before radiological evidence of illness is seen due to the high levels of tumor markers in blood. Examining tumor markers' significance for cancer patients' Researchers had believed that this might be a valuable tool for screening cancer patients and diagnosing the disease at an early stage, before symptoms appear, because tumor cells release biomarkers that can be tested in blood and other bodily fluids.
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