Background: Mobile phones are approximately widely used everywhere like in hospital wards, clinics and universities as well as biomedical laboratories. They have become very important tool in students’ life. In contrast, these tools carry many harmful bacteria which are responsible for infectious diseases in human because they serve as a reservoir for different pathogens. Current study was aimed to isolate bacteria from students’ mobile phones at the Institute of Medical Technology/Al-Mansour/The Middle Technical University, Baghdad, Iraq. Also, the study investigated microbial resistance to many antimicrobial agents as well as the appropriate remedial measures. Method: Four hundred and fifty swabs from mobile phones were collected from 450 students (271 males and 179 females). Their age range was (17-30) years. Swabs were collected from students during March 2018. Results: Out of the 450 swabs, 150(33.33%) swabs were positive. The percentages of the isolated bacteria according to gender were 53.33%(80 isolates) from males’ mobile phones and 46.66%(70 isolates) from females’ mobile phones. The most frequent Gram-positive bacteria isolated were Staphylococcus aureus (50%) followed by S. epidermidis (20%), whereas Gram-negative bacteria isolated were Escherichia coli (6.0%), Proteus mirabilis (2.66%), Proteus vulgaris (2.66%) and Pseudomonas aeruginosa (2.66%). The isolated bacteria showed variable antimicrobial sensitivity patterns for different antibiotics. Most S. aureus isolates were resistant to Cefotaxime, Gentamycin, Amoxicillin, Ciprofloxacin and Augmentin, whereas other isolated species showed the highest resistance to many antibiotics of interest. The isolates of Micrococcus spp. were sensitive to all the studied antibiotics except Tetracycline and Fucidic acid. Conclusion: The present findings indicated that contaminated students’ mobile phones could serve as reservoirs of bacterial agents. Also, most of the latter were resistant to many commonly prescribed antimicrobial agents.
Mobile-based human emotion recognition is very challenging subject, most of the approaches suggested and built in this field utilized various contexts that can be derived from the external sensors and the smartphone, but these approaches suffer from different obstacles and challenges. The proposed system integrated human speech signal and heart rate, in one system, to leverage the accuracy of the human emotion recognition. The proposed system is designed to recognize four human emotions; angry, happy, sad and normal. In this system, the smartphone is used to record user speech and send it to a server. The smartwatch, fixed on user wrist, is used to measure user heart rate while the user is speaking and send it, via Bluetooth,
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Background: Cancer is a lethal disease that results from a multifactorial process. Progression into carcinogenesis and an abnormal cell proliferation can occur due to the micro and macro environment as well as genetic mutations and modifications. In this review, cancer and the microbiota – mainly bacteria that inhabit the tumour tissue – have been discussed. The positive and negative impacts of the commensal bacteria on tumours being protective or carcinogenic agents, respectively, and their strategies have also been described. Methods: Related published articles written in English language were searched from Google Scholar, PubMed, Mendeley suggestions, as well as Google search using a combination of the keywords ‘Microbiota, commens
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DBN Dr. Liqaa Habeb, International Journal of Multidisciplinary Reseach, 2015
This paper is a review of the genus Sitta in Iraq, Five species of this genus are recognized
Sitta kurdistanica, S. neumayr, S. europaea, S.dresseri and S. tephronota. Geographical
distribution and systematic nots were given for separation and identification, also some notes
on nest building and nest sites of S. tephronota supporting by figures are presented.
JM Karhoot, AA Noaimi, WF Ahmad, The Iraqi Postgraduate Medical Journal, 2012 - Cited by 7
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This work revealed the spherical aromaticity of some inorganic E4 cages and their protonated E4H+ ions (E=N, P, As, Sb, and Bi). For this purpose, we employed several evaluations like (0D-1D) nucleus independent chemical shift (NICS), multidimensional (2D-3D) off-nucleus isotropic shielding σiso(r), and natural bond orbital (NBO) analysis. The magnetic calculations involved gauge-including atomic orbitals (GIAO) with two density functionals B3LYP and WB97XD, and basis sets of Jorge-ATZP, 6-311+G(d,p), and Lanl2DZp. The Jorge-ATZP basis set showed the best consistency. Our findings disclosed non-classical aromatic characters in the above molecules, which decreased from N to Bi cages. Also, the results showed more aromaticity in E4 than E4H+
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