4 research outputs found
Airway compromise in infectious mononucleosis: a case report
A 25-year-old Caucasian man had difficulty swallowing and shortness of breath during an episode of infectious mononucleosis. His tonsils were “kissing” and erythematous but no superimposed infection with a streptococcal organism was identified. His symptoms improved rapidly upon administration of intravenous steroids. This case demonstrates a rare and short-term complication that is well described in young adults with infectious mononucleosis. Physicians should routinely counsel their patients with infectious mononucleosis to be aware of potentially life-threatening airway obstruction in addition to splenic rupture and meningitis
Planning for Rift Valley fever virus: use of geographical information systems to estimate the human health threat of white-tailed deer (Odocoileus virginianus)-related transmission
Rift Valley fever (RVF) virus is a mosquito-borne phlebovirus of the Bunyaviridae family that causes frequent
outbreaks of severe animal and human disease in sub-Saharan Africa, Egypt and the Arabian Peninsula. Based on its
many known competent vectors, its potential for transmission via aerosolization, and its progressive spread from East
Africa to neighbouring regions, RVF is considered a high-priority, emerging health threat for humans, livestock and
wildlife in all parts of the world. Introduction of West Nile virus to North America has shown the potential for “exotic”
viral pathogens to become embedded in local ecological systems. While RVF is known to infect and amplify within
domestic livestock, such as taurine cattle, sheep and goats, if RVF virus is accidentally or intentionally introduced
into North America, an important unknown factor will be the role of local wildlife in the maintenance or propagation
of virus transmission. We examined the potential impact of RVF transmission via white-tailed deer (Odocoileus virginianus)
in a typical north-eastern United States urban-suburban landscape, where livestock are rare but where these
potentially susceptible, ungulate wildlife are highly abundant. Model results, based on overlap of mosquito, human and
projected deer densities, indicate that a significant proportion (497/1186 km2, i.e. 42%) of the urban and peri-urban
landscape could be affected by RVF transmission during the late summer months. Deer population losses, either by
intervention for herd reduction or by RVF-related mortality, would substantially reduce these likely transmission zones
to 53.1 km2, i.e. by 89%