Hospital-Related Infections and Potential Solutions – Infections Example

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"Hospital-Related Infections and Potential Solutions" is a wonderful example of a paper on infections. Nosocomial infections at the age of emerging diseases rank among the major healthcare problems that demand the immediate attention of healthcare administrators. Nosocomial infections refer to the category of infections that health facilities harbor by virtue of welcoming patients for treatment. Exposing vulnerable persons to the hospital environment without appropriate measures of reducing nosocomial infections contradicts healthcare principles. According to Cipolla et al. (2011), vulnerable groups of patients such as newborns require additional attention from hospital officials against infections arising from contact with several patients.

The authors' findings coincide with a personal opinion on the possibilities of picking infections from contaminated environments, especially for immunocompromised groups such as neonates. Inside Neonatal Intensive Care Units (NICU), newborns with weak immunity face risks of infection contamination from other patients. Healthcare professionals need to tighten all loopholes in handling such groups through continuous disease surveillance. Salkin (2006) reported an ingenious way to automatically sanitize toilet door handles, giving a health facility safety option that can avert major nosocomial infections.

As a common channel for the spread of infections, points where members of the public come into shared contact can inform potential solutions. Through sanitization of shared hospital facilities such as waiting rooms, wards, door handles, and equipment, medical authorities can minimize nosocomial infections. The article by Salkin (2006) differs from the opinion by Cipolla et al. (2011) in the provision of scientific detail and authority. The latter indulge in complex microbial and antimicrobial details on how to eliminate contamination of the NICU and effectively protect newborns. In terms of academic quality, Cipolla et al.

(2011) adopt a peer-reviewed approach and publish their observations in an academic journal to justify their authenticity. The overall research outcomes for the healthcare problem stated underscore the importance of increasing protective attributes of healthcare facilities against nosocomial infections. In light of the findings, the ubiquitous nature of microbes in the environment implies that hospitals have a higher concentration of pathogenic species. Equipping the healthcare environment with protection against high concentrations of pathogens will benefit both the patients and professionals at the facility. Continued infectivity from emerging pathogens exposes healthcare officials to risks that can affect their productivity (Bagnoli et al. , 2012).   Increasing disease surveillance across the various areas of contact with contaminated hands such equipment provides a direct success area for the prevention of associated risks. Healthcare administrators have the responsibility of assisting the public access healthcare in a safe environment.

Exposing patients to nosocomial infections opens the doors for potential lawsuits seeking compensation for associated harm. To exercise a duty of care for both workers and members of the public, healthcare administrators must engage every available solution that can reduce such damage.

Equally, reducing infections emanating from hospital-related contaminations can reduce distractions coming from external sources. Technologies that offer solutions to contamination in the health facilities support such infection control programs. According to Chowdhury et al. (2013), some cheap applications can reduce the burden of nosocomial infections, making them readily applicable across economic situations. In this regard, every person visiting a health facility must feel secure during visits and contact with people inside the facility. Healing can continue uninterrupted, with the provision of an appropriate environment inside hospitals.

Sick healthcare officials cannot deliver service, which justifies efforts taken for such protection initiatives.


Bagnoli, F., Mishra, R., Oviedo-Orta, E., Prachi, P., & Rappuoli, R. (2012). Vaccines and antibiotic resistance. Current Opinion in Microbiology, 1027(15), 1-7.

Cippolla, D., Corsello, G., Giuffre, M., & Mammina, C. (2011). Prevention of nosocomial infections and surveillance of emerging resistances in NICU. Journal of Maternal-Foetal and Neonatal Medicine, 24(1), 23-26.

Chowdhury, A., Das, S., Deb, S., Hog, M., & Rahman, A. (2013). Effect of application of sunflower and coconut oils over the skin of low birth weight babies in prevention of nosocomial infection. Journal of Dhaka Medical College, 21(2), 160-165.

Salkin, A. (2006). Germs never sleep. New York Times, Retrieved from

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