In a new perspective piece being published Online First tonight in Annals of Internal Medicine, a physician recalls lessons learned from treating patients affected by the 2002 outbreak of Exophiala (Wangiella) dermatitidis meningitis or arthritis related to contaminated, injectable coticosteroids prepared from a compounding pharmacy.
According to the author, the lessons he learned in 2002 are applicable to the current outbreak. He warns that compounding of preservative-free corticosteroids requires meticulous sterility to ensure lack of fungal contamination. Without this sterility, fungus grows aggressively.
As seen with the current cases, once injected, the fungus can travel through the body's tissues rapidly, leading to invasive mycosis. However, the incubation period from exposure to disease could be up to six months, so exposed patients will need to be followed for a long time. While there were many people exposed to the fungus in 2002, all but one fatal case were successfully treated with voriconazole.
Treatment decisions should be made on a case-by-case basis, but the author writes that evidence from the previous outbreak suggests voriconazole as the logical antifungal drug for initial treatment. Due to the aggressive and deadly nature of the disease, it is important for physicians to act decisively and early.
The author warns that these outbreaks will happen again if pharmacy societies, the FDA, and the pharmaceutical industry do not work together to regulate pharmacy compounding.
This article is free to the public at http://annals.org/article.aspx?articleid=1384984. Author, John R. Perfect, MD. is available for interviews. He can be reached through Sarah Avery at firstname.lastname@example.org or 919-660-1306.
Megan Hanks | EurekAlert!
Biofilm discovery suggests new way to prevent dangerous infections
23.05.2017 | University of Texas at Austin
Another reason to exercise: Burning bone fat -- a key to better bone health
19.05.2017 | University of North Carolina Health Care
Scientists have developed a new method of characterizing graphene’s properties without applying disruptive electrical contacts, allowing them to investigate both the resistance and quantum capacitance of graphene and other two-dimensional materials. Researchers from the Swiss Nanoscience Institute and the University of Basel’s Department of Physics reported their findings in the journal Physical Review Applied.
Graphene consists of a single layer of carbon atoms. It is transparent, harder than diamond and stronger than steel, yet flexible, and a significantly better...
The world's highest gain high power laser amplifier - by many orders of magnitude - has been developed in research led at the University of Strathclyde.
The researchers demonstrated the feasibility of using plasma to amplify short laser pulses of picojoule-level energy up to 100 millijoules, which is a 'gain'...
Staphylococcus aureus is a feared pathogen (MRSA, multi-resistant S. aureus) due to frequent resistances against many antibiotics, especially in hospital infections. Researchers at the Paul-Ehrlich-Institut have identified immunological processes that prevent a successful immune response directed against the pathogenic agent. The delivery of bacterial proteins with RNA adjuvant or messenger RNA (mRNA) into immune cells allows the re-direction of the immune response towards an active defense against S. aureus. This could be of significant importance for the development of an effective vaccine. PLOS Pathogens has published these research results online on 25 May 2017.
Staphylococcus aureus (S. aureus) is a bacterium that colonizes by far more than half of the skin and the mucosa of adults, usually without causing infections....
Physicists from the University of Würzburg are capable of generating identical looking single light particles at the push of a button. Two new studies now demonstrate the potential this method holds.
The quantum computer has fuelled the imagination of scientists for decades: It is based on fundamentally different phenomena than a conventional computer....
An international team of physicists has monitored the scattering behaviour of electrons in a non-conducting material in real-time. Their insights could be beneficial for radiotherapy.
We can refer to electrons in non-conducting materials as ‘sluggish’. Typically, they remain fixed in a location, deep inside an atomic composite. It is hence...
24.05.2017 | Event News
23.05.2017 | Event News
22.05.2017 | Event News
30.05.2017 | Life Sciences
30.05.2017 | Life Sciences
30.05.2017 | Physics and Astronomy