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Case Reports
. 2015 Apr 22;7(284):284re3.
doi: 10.1126/scitranslmed.aaa8419.

Disseminated Ureaplasma infection as a cause of fatal hyperammonemia in humans

Ankit Bharat  1 Scott A Cunningham  2 G R Scott Budinger  2 Daniel Kreisel  3 Charl J DeWet  3 Andrew E Gelman  3 Ken Waites  4 Donna Crabb  4 Li Xiao  4 Sangeeta Bhorade  5 Namasivayam Ambalavanan  4 Daniel F Dilling  6 Erin M Lowery  7 Todd Astor  8 Ramsey Hachem  3 Alexander S Krupnick  3 Malcolm M DeCamp  5 Michael G Ison  5 Robin Patel  2
Affiliations
Case Reports

Disseminated Ureaplasma infection as a cause of fatal hyperammonemia in humans

Ankit Bharat et al. Sci Transl Med. .

Abstract

Hyperammonemia syndrome is a fatal complication affecting immunosuppressed patients. Frequently refractory to treatment, it is characterized by progressive elevations in serum ammonia of unknown etiology, ultimately leading to cerebral edema and death. In mammals, ammonia produced during amino acid metabolism is primarily cleared through the hepatic production of urea, which is eliminated in the kidney. Ureaplasma species, commensals of the urogenital tract, are Mollicutes dependent on urea hydrolysis to ammonia and carbon dioxide for energy production. We hypothesized that systemic infection with Ureaplasma species might pose a unique challenge to human ammonia metabolism by liberating free ammonia resulting in the hyperammonemia syndrome. We used polymerase chain reaction, specialized culture, and molecular resistance profiling to identify systemic Ureaplasma infection in lung transplant recipients with hyperammonemia syndrome, but did not detect it in any lung transplant recipients with normal ammonia concentrations. Administration of Ureaplasma-directed antimicrobials to patients with hyperammonemia syndrome resulted in biochemical and clinical resolution of the disorder. Relapse in one patient was accompanied by recurrent Ureaplasma bacteremia with antimicrobial resistance. Our results provide evidence supporting a causal relationship between Ureaplasma infection and hyperammonemia, suggesting a need to test for this organism and provide empiric antimicrobial treatment while awaiting microbiological confirmation.

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Conflict of interest statement

Competing interests: S.A.C. has a royalty agreement with TIB Molbiol for real-time PCR assays. M.G.I. receives grant support from Anolinx, Chimerix, Gilead, GlaxoSmithKline, and ViroPharma; personal fees from Biota, Chimerix, Genentech/Roche, and Shionogi; provides unpaid consultation for Adamas, BioCryst, Cellex, Clarassance, GlaxoSmithKline, GenMarkDx, Romark, Toyama/MediVector, NexBio, Theraclone, Vertex, and Abbott; and serves as a member of the Board of Directors of the American Society of Transplantation. R.P. receives support from Thermo Fisher, St. Jude, and Curetis; personal fees from Mayo Clinic and Up-To-Date; and grants from 3M, BioFire, Curetis, and nanoMR, outside the submitted work.

Figures

Fig. 1
Fig. 1. Clinical course of index patient
(A) Initial occurrence of hyperammonemia in index patient. (B) Recurrence of hyperammonemia in the index patient and response to therapy.
Fig. 2
Fig. 2
Prospective validation of the association of Ureaplasma with hyperammonemia after lung transplantation.
See this image and copyright information in PMC

References

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