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Infectious mononucleosis (IM) is a relatively common infection in healthy young patients with few complications. Here we present a case of severe IM complicated with extensive bilateral peritonsillar abscesses. Clinicians should be aware of this complication of IM in patients with persistent or progressive symptoms. Epstein-Barr virus is a herpes virus that causes infectious mononucleosis (IM) in young adults. Symptoms are usually sore throat, lymphadenopathy, fever, and malaise Sylvester et al. [1]. IM has been associated with complications such as hemolytic anemia, myocarditis, splenic rupture, thrombocytopenia, hepatitis, etc Sylvester et al. [1]. There have been reports of suppurative processes involving the tonsils such as intratonsillar or peritonsillar abscesses, but these seem to be rare complications. Herein, we present a case of bilateral peritonsillar abscesses in a patient with severe mononucleosis.
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We present a challenging case of disseminated Nocardia brasiliensis infection manifesting as brain and skin abscesses. Nocardia is an important potential pathogen to consider in patients with a relevant travel history to endemic regions or atypical presentations, such as brain and skin abscesses. About one-third of patients with Nocardia infections are immunocompetent, and their symptoms are nonspecific. This case shows the limitations of imaging studies in diagnosing Nocardia brain abscesses, as the patient's non-magnetic resonance (MR) conditional pacemaker precluded MRI evaluation and led to a diagnostic challenge. Therefore, the patient's initial evaluation was presumed to be primary lung cancer with brain metastasis. High clinical suspicion, imaging studies (especially MRI), and tissue biopsy are needed to diagnose this type of brain abscess in a timely manner to prevent further complications.
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A 35-year-old male greenhouse worker presented with myalgia, fatigue, and fever. Initially, he was thought to have an unspecified viral infection and was treated with conservative therapy. However, the patient's symptoms persisted, and he reported additional symptoms of mild abdominal pain and headaches. Laboratory evaluation was significant for elevated liver enzymes. Due to concern for acute hepatitis and persistent fever the patient was hospitalized. During his hospital course, no infectious etiology was found to explain his symptoms. After discharge from the hospital, additional testing showed positive serology for Q fever IgG phase II antibody (1:8192) and phase II antibody IgM (>1:2048). He was treated with doxycycline and had a good clinical response. Upon follow-up, he had worsening Phase I IgG serologies. Transesophageal echo demonstrated vegetations consistent with endocarditis.
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BACKGROUND: Because of the structural and molecular similarities between the two systems, the lateral line, a fish and amphibian specific sensory organ, has been widely used in zebrafish as a model to study the development/biology of neuroepithelia of the inner ear. Both organs have hair cells, which are the mechanoreceptor cells, and supporting cells providing other functions to the epithelium. In most vertebrates (excluding mammals), supporting cells comprise a pool of progenitors that replace damaged or dead hair cells. However, the lack of regenerative capacity in mammals is the single leading cause for acquired hearing disorders in humans. RESULTS: In an effort to understand the regenerative process of hair cells in fish, we characterized and cloned an egfp transgenic stable fish line that trapped tnks1bp1, a highly conserved gene that has been implicated in the maintenance of telomeres' length. We then used this Tg(tnks1bp1:EGFP) line in a FACsorting strategy combined with microarrays to identify new molecular markers for supporting cells. CONCLUSIONS: We present a Tg(tnks1bp1:EGFP) stable transgenic line, which we used to establish a transcriptional profile of supporting cells in the zebrafish lateral line. Therefore we are providing a new set of markers specific for supporting cells as well as candidates for functional analysis of this important cell type. This will prove to be a valuable tool for the study of regeneration in the lateral line of zebrafish in particular and for regeneration of neuroepithelia in general.