Last data update: Dec 09, 2024. (Total: 48320 publications since 2009)
Records 1-11 (of 11 Records) |
Query Trace: Tiller RV[original query] |
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Animal vaccine strain Brucella abortus infection in a plateletpheresis donor: A case report
Parsons MG , Hermelin D , Hennenfent A , Tiller RV , Annambhotla P , Negrón ME , Basavaraju SV , Katz LM . Transfusion 2024 |
Notes from the Field: Brucella abortus vaccine strain RB51 infection and exposures associated with raw milk consumption - Wise County, Texas, 2017
Cossaboom CM , Kharod GA , Salzer JS , Tiller RV , Campbell LP , Wu K , Negron ME , Ayala N , Evert N , Radowicz J , Shuford J , Stonecipher S . MMWR Morb Mortal Wkly Rep 2018 67 (9) 286 In July 2017, the Texas Department of State Health Services (DSHS) Region 2/3 office reported a human case of brucellosis associated with the consumption of raw (unpasteurized) cow’s milk purchased from a dairy in Paradise, Texas. CDC’s Bacterial Special Pathogens Branch (BSPB) confirmed the isolate as Brucella abortus vaccine strain RB51 (RB51). | | Brucellosis is a zoonotic bacterial disease that affects humans and many animal species. In humans, the disease is characterized by fever and nonspecific influenza-like symptoms that frequently include myalgia, arthralgia, and night sweats. Without appropriate treatment, brucellosis can become chronic, and life-threatening complications can arise. Human brucellosis transmitted by cattle was once common in the United States. Control strategies have focused on elimination of brucellosis through vaccination and surveillance of cattle herds, in addition to milk pasteurization. Because of these measures, domestically acquired human cases are now rare (1). |
African Lineage Brucella melitensis Isolates from Omani Livestock.
Foster JT , Walker FM , Rannals BD , Hussain MH , Drees KP , Tiller RV , Hoffmaster AR , Al-Rawahi A , Keim P , Saqib M . Front Microbiol 2017 8 2702 Brucellosis is a common livestock disease in the Middle East and North Africa, but remains poorly described in the region both genetically and epidemiologically. Traditionally found in goats and sheep, Brucella melitensis is increasingly recognized as infecting camels. Most studies of brucellosis in camels to date have focused on serological surveys, providing only limited understanding of the molecular epidemiology of circulating strains. We genotyped B. melitensis isolates from Omani camels using whole genome SNP assays and VNTRs to provide context for regional brucellosis cases. We identified a lineage of B. melitensis circulating in camels as well as in goats, sheep, and cattle in Oman. This lineage is genetically distinct from most genotypes from the Arabian Peninsula and from isolates from much of the rest of the Middle East. We then developed diagnostic assays that rapidly identify strains from this lineage. In analyses of genotypes from throughout the region, Omani isolates were genetically most closely related to strains from brucellosis cases in humans and livestock in North Africa. Our findings suggest an African origin for B. melitensis in Oman that has likely occurred through the trade of infected livestock. Moreover, African lineages of B. melitensis appear to be undersampled and consequently are underrepresented in genetic databases for Brucella. As we begin to more fully understand global genomic diversity of B. melitensis, finding and characterizing these unique but widespread lineages is essential. We predict that increased sampling of humans and livestock in Africa will reveal little known diversity in this important zoonotic pathogen. |
Human Brucella canis infection and subsequent laboratory exposures associated with a puppy, New York City, 2012
Dentinger CM , Jacob K , Lee LV , Mendez HA , Chotikanatis K , McDonough PL , Chico DM , De BK , Tiller RV , Traxler RM , Campagnolo ER , Schmitt D , Guerra MA , Slavinski SA . Zoonoses Public Health 2014 62 (5) 407-14 Human Brucella canis infection incidence is unknown. Most identified cases are associated with pet dogs. Laboratory-acquired infections can occur following contact with Brucella spp. We identified a paediatric B. canis case, the source and other exposed persons. A 3-year-old New York City child with fever and dyspnoea was hospitalized for 48 h for bronchiolitis. After her admission, blood culture grew B. canis, she was prescribed anti-microbials and recovered. B. canis was also isolated from blood of the child's pet dog; these isolates were genetically similar. The dog originated from an Iowa breeding facility which was quarantined after identification of the dog's infection. Additionally, 31 laboratory workers were exposed and subsequently monitored for symptoms; 15 completed post-exposure prophylaxis. To our knowledge, this is the first report strongly suggesting B. canis zoonotic transmission to a child in the United States, and highlights the need for coordinated control policies to minimize human illness. |
Real-time PCR assays for detection of Brucella spp. and the identification of genotype ST27 in bottlenose dolphins (Tursiops truncatus).
Wu Q , McFee WE , Goldstein T , Tiller RV , Schwacke L . J Microbiol Methods 2014 100 99-104 Rapid detection of Brucella spp. in marine mammals is challenging. Microbiologic culture is used for definitive diagnosis of brucellosis, but is time consuming, has low sensitivity and can be hazardous to laboratory personnel. Serological methods can aid in diagnosis, but may not differentiate prior exposure versus current active infection and may cross-react with unrelated gram-negative bacteria. This study reports a real-time PCR assay for the detection of Brucella spp. and application to screen clinical samples from bottlenose dolphins stranded along the coast of South Carolina, USA. The assay was found to be 100% sensitive for the Brucella strains tested, and the limit of detection was 0.27fg of genomic DNA from B. ceti B1/94 per PCR volume. No amplification was detected for the non-Brucella pathogens tested. Brucella DNA was detected in 31% (55/178) of clinical samples tested. These studies indicate that the real-time PCR assay is highly sensitive and specific for the detection of Brucella spp. in bottlenose dolphins. We also developed a second real-time PCR assay for rapid identification of Brucella ST27, a genotype that is associated with human zoonotic infection. Positive results were obtained for Brucella strains which had been identified as ST27 by multilocus sequence typing. No amplification was found for other Brucella strains included in this study. ST27 was identified in 33% (18/54) of Brucella spp. DNA-positive clinical samples. To our knowledge, this is the first report on the use of a real-time PCR assay for identification of Brucella genotype ST27 in marine mammals. |
Microsporidiosis acquired through solid organ transplantation a public health investigation
Hocevar SN , Paddock CD , Spak CW , Rosenblatt R , Diaz-Luna H , Castillo I , Luna S , Friedman GC , Antony S , Stoddard RA , Tiller RV , Peterson T , Blau DM , Sriram RR , Da Silva A , De Almeida M , Benedict T , Goldsmith CS , Zaki SR , Visvesvara GS , Kuehnert MJ . Ann Intern Med 2014 160 (4) 213-220 BACKGROUND: Encephalitozoon cuniculi, a microsporidial species most commonly recognized as a cause of renal, respiratory, and central nervous system infections in immunosuppressed patients, was identified as the cause of a temporally associated cluster of febrile illness among 3 solid organ transplant recipients from a common donor. OBJECTIVE: To confirm the source of the illness, assess donor and recipient risk factors, and provide therapy recommendations for ill recipients. DESIGN: Public health investigation. SETTING: Two transplant hospitals and community interview with the deceased donor's family. PATIENTS: Three transplant recipients and the organ donor. MEASUREMENTS: Specimens were tested for microsporidia by using culture, immunofluorescent antibody, polymerase chain reaction, immunohistochemistry, and electron microscopy. Donor medical records were reviewed and a questionnaire was developed to assess for microsporidial infection. RESULTS: Kidneys and lungs were procured from the deceased donor and transplanted to 3 recipients who became ill with fever 7 to 10 weeks after the transplant. Results of urine culture, serologic, and polymerase chain reaction testing were positive for E. cuniculi of genotype III in each recipient; the organism was also identified in biopsy or autopsy specimens in all recipients. The donor had positive serologic test results for E. cuniculi. Surviving recipients received albendazole. Donor assessment did not identify factors for suspected E. cuniculi infection. LIMITATION: Inability to detect organism by culture or polymerase chain reaction in donor due to lack of autopsy specimens. CONCLUSION: Microsporidiosis is now recognized as an emerging transplant-associated disease and should be considered in febrile transplant recipients when tests for routinely encountered agents are unrevealing. Donor-derived disease is critical to assess when multiple recipients from a common donor are ill. |
Review of brucellosis cases from laboratory exposures in the United States, 2008-2011, and improved strategies for disease prevention
Traxler RM , Guerra MA , Morrow MG , Haupt T , Morrison J , Saah JR , Smith C , Williams C , Fleischauer AT , Lee PA , Stanek D , Trevino-Garrison I , Franklin P , Oakes P , Hand S , Shadomy SV , Blaney DD , Lehman MW , Benoit TJ , Stoddard RA , Tiller RV , De BK , Bower W , Smith TL . J Clin Microbiol 2013 51 (9) 3132-6 Five laboratory-acquired brucellosis (LAB) cases that occurred in the United States between 2008 and 2011 are presented. The Centers for Disease Control and Prevention (CDC) reviewed the recommendations published in 2008 and the published literature to identify strategies to further prevent LAB. The improved prevention strategies are described. |
Fatal case of brucellosis misdiagnosed in early stages of Brucella suis infection in a 46-year-old patient with Marfan syndrome
Carrington M , Choe U , Ubillos S , Stanek D , Campbell M , Wansbrough L , Lee P , Churchwell G , Rosas K , Zaki SR , Drew C , Paddock CD , Deleon-Carnes M , Guerra M , Hoffmaster AR , Tiller RV , De BK . J Clin Microbiol 2012 50 (6) 2173-5 We report a fatal case of Brucella suis endocarditis initially misdiagnosed by automated identification systems as Ochrobactrum anthropi infection in a patient with a history of Marfan syndrome and recreational feral swine hunting. This report emphasizes the need to consider brucellosis as a part of the differential diagnosis of acute febrile illness, particularly in patients with known risk of exposure. |
Characterization of novel Brucella strains originating from wild native rodent species in North Queensland, Australia
Tiller RV , Gee JE , Frace MA , Taylor TK , Setubal JC , Hoffmaster AR , De BK . Appl Environ Microbiol 2010 76 (17) 5837-45 We report on the characterization of a group of seven novel Brucella strains isolated in 1964 from three native rodent species in North Queensland, Australia during a survey of wild animals. The strains were initially reported as Brucella suis biovar 3 based on microbiological tests. Our results indicated that the rodent strains had distinct microbiological traits compared to B. suis biovar 3 and all other Brucella spp. To reinvestigate these rodent strains, we sequenced the 16S rRNA gene, recA, rpoB, and nine house-keeping genes, and also performed multiple-locus variable-number tandem-repeat analysis (MLVA). The rodent strains have a unique 16S rRNA gene sequence compared to that of the classical Brucella spp. Sequence analysis of recA, rpoB and nine house-keeping genes reveals that the rodent strains are genetically identical to each other at these loci and divergent from any of the currently described Brucella sequence types. However, all seven of the rodent strains do exhibit distinctive allelic MLVA profiles; though none demonstrated an amplicon for VNTR 7 in comparison to other Brucella spp. Phylogenetic analysis of MLVA data reveals the rodent strains form a distinct clade separate from the classical Brucella spp. Furthermore, whole genome sequence comparison using the maximal unique exact matches index (MUMi), demonstrated a high degree of relatedness of one (NF 2653) of the seven rodent Brucella strains with another Australian rodent Brucella strain 83-13. Our findings strongly suggest that this group of Brucella strains isolated from wild Australian rodents define a new species in the Brucella genus. |
Identification of an unusual Brucella strain (BO2) from a lung biopsy in a 52 year-old patient with chronic destructive pneumonia
Tiller RV , Gee JE , Lonsway DR , Gribble S , Bell SC , Jennison AV , Bates J , Coulter C , Hoffmaster AR , De BK . BMC Microbiol 2010 10 23 BACKGROUND: Brucellosis is primarily a zoonotic disease caused by Brucella species. There are currently ten Brucella spp. including the recently identified novel B. inopinata sp. isolated from a wound associated with a breast implant infection. In this study we report on the identification of an unusual Brucella-like strain (BO2) isolated from a lung biopsy in a 52-year-old patient in Australia with a clinical history of chronic destructive pneumonia. RESULTS: Standard biochemical profiles confirmed that the unusual strain was a member of the Brucella genus and the full-length 16S rRNA gene sequence was 100% identical to the recently identified B. inopinata sp. nov. (type strain BO1(T)). Additional sequence analysis of the recA, omp2a and 2b genes; and multiple locus sequence analysis (MLSA) demonstrated that strain BO2 exhibited significant similarity to the B. inopinata sp. compared to any of the other Brucella or Ochrobactrum species. Genotyping based on multiple-locus variable-number tandem repeat analysis (MLVA) established that the BO2 and BO1(T) strains form a distinct phylogenetic cluster separate from the other Brucella spp. CONCLUSION: Based on these molecular and microbiological characterizations, we propose that the BO2 strain is a novel lineage of the newly described B. inopinata species. |
Comparison of two multiple-locus variable-number tandem-repeat analysis methods for molecular strain typing of human Brucella melitensis isolates from the Middle East
Tiller RV , De BK , Boshra M , Huynh LY , Van Ert MN , Wagner DM , Klena J , Mohsen TS , El-Shafie SS , Keim P , Hoffmaster AR , Wilkins PP , Pimentel G . J Clin Microbiol 2009 47 (7) 2226-31 Brucella species are highly monomorphic, with minimal genetic variation among species, hindering the development of reliable subtyping tools for epidemiologic and phylogenetic analyses. Our objective was to compare two distinct multiple-locus variable-number tandem-repeat analysis (MLVA) subtyping methods on a collection of 101 Brucella melitensis isolates from sporadic human cases of brucellosis in Egypt (n = 83), Qatar (n = 17), and Libya (n = 1). A gel-based MLVA technique, MLVA-15(IGM), was compared to an automated capillary electrophoresis-based method, MLVA-15(NAU), with each MLVA scheme examining a unique set of variable-number tandem repeats. Both the MLVA(IGM) and MLVA(NAU) methods were highly discriminatory, resolving 99 and 101 distinct genotypes, respectively, and were able to largely separate genotypes from Egypt and Qatar. The MLVA-15(NAU) scheme presented higher strain-to-strain diversity in our test population than that observed with the MLVA-15(IGM) assay. Both schemes were able to genetically correlate some strains originating from the same hospital or region within a country. In addition to comparing the genotyping abilities of these two schemes, we also compared the usability, limitations, and advantages of the two MLVA systems and their applications in the epidemiological genotyping of human B. melitensis strains. |
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