Last data update: Jan 13, 2025. (Total: 48570 publications since 2009)
Records 1-18 (of 18 Records) |
Query Trace: Drew CP[original query] |
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Intraventricular granulomatous mass associated with Mycobacterium haemophilum: a rare central nervous system manifestation in a patient with human immunodeficiency virus infection
Barr LK , Sharer LR , Khadka Kunwar E , Kapila R , Zaki SR , Drew CP , Bhatnagar J , Liu JK , Chew D . J Clin Neurosci 2015 22 (6) 1057-60 We report a rare case of Mycobacterium haemophilum presenting as an intraventricular granulomatous mass with loculated hydrocephalus and seizures in a patient with human immunodeficiency virus. M. haemophilum, a slow-growing mycobacteria, causes localized and disseminated disease among immunocompromised hosts. Central nervous system infection with M. haemophilum is extremely rare. Preoperative laboratory testing of our patient for tuberculosis, toxoplasmosis, sarcoidosis and histoplasmosis were negative. Surgical resection of the mass revealed a caseating granuloma that stained positive for acid-fast bacillus suggesting possible tuberculoma. Despite negative testing for tuberculosis, a polymerase chain reaction analysis was ultimately performed from the resected mass which revealed M. haemophilum. To our knowledge, this is the first case of M. haemophilum presenting as an intraventricular mass. We review the clinical manifestations of this pathogen and discuss the medical and surgical management. |
Single-dose replication-defective VSV-based Nipah virus vaccines provide protection from lethal challenge in Syrian hamsters
Lo MK , Bird BH , Chattopadhyay A , Drew CP , Martin BE , Coleman JD , Rose JK , Nichol ST , Spiropoulou CF . Antiviral Res 2014 101 26-9 Nipah virus (NiV) continues to cause outbreaks of fatal human encephalitis due to spillover from its bat reservoir. We determined that a single dose of replication-defective vesicular stomatitis virus (VSV)-based vaccine vectors expressing either the NiV fusion (F) or attachment (G) glycoproteins protected hamsters from over 1000 times LD50 NiV challenge. This highly effective single-dose protection coupled with an enhanced safety profile makes these candidates ideal for potential use in livestock and humans. |
Novel poxvirus infection in two patients from the United States
Osadebe LU , Manthiram K , McCollum AM , Li Y , Emerson GL , Gallardo-Romero NF , Doty JB , Wilkins K , Zhao H , Drew CP , Metcalfe MG , Goldsmith CS , Muehlenbachs A , Googe P , Dunn J , Duenckel T , Henderson H , Carroll DS , Zaki SR , Denison M , Reynolds MG , Damon IK . Clin Infect Dis 2014 60 (2) 195-202 BACKGROUND: Some human poxvirus infections can be acquired through zoonotic transmission. We report a previously unknown poxvirus infection in two patients, one of whom was immunocompromised, and both patients had known equine contact. METHODS: The patients were interviewed and clinical information was abstracted from the patients' medical files. Biopsies of the skin lesions were collected from both patients for histopathology, immunohistochemistry, and transmission electron microscopy analysis. Oral and skin swabs were collected from animals with frequent contact with the patients and environmental sampling including rodent trapping was performed on the farm where the immunosuppressed patient was employed. 'Pan-pox and high GC' PCR assays were performed on patient, animal, and environmental isolates. Amplicon sequences of the viral DNA were used for agent identification and phylogenetic analysis. RESULTS: Specimens from both human cases revealed a novel poxvirus. The agent shares 88% similarity to viruses in the Parapoxvirus genus and 78% to those in the Molluscipoxvirus genus but is sufficiently divergent to resist classification as either. All animal and environmental specimens were negative for poxvirus and both patients had complete resolution of lesions. CONCLUSION: This report serves as a reminder that poxviruses should be considered in cutaneous human infections especially in individuals with known barnyard exposures. The clinical course of the patients was similar to that of parapoxvirus infections and the source of this virus is currently unknown but is presumed to be zoonotic. This report also demonstrates the importance of a comprehensive approach to diagnosis of human infections caused by previously unknown pathogens. |
Acute muscular sarcocystosis: an international investigation among ill travelers returning from Tioman Island, Malaysia, 2011 and 2012
Esposito DH , Stich A , Epelboin L , Malvy D , Han PV , Bottieau E , da Silva A , Zanger P , Slesak G , van Genderen PJ , Rosenthal BM , Cramer JP , Visser LG , Munoz J , Drew CP , Goldsmith CS , Steiner F , Wagner N , Grobusch MP , Plier DA , Tappe D , Sotir MJ , Brown C , Brunette GW , Fayer R , von Sonnenburg F , Neumayr A , Kozarsky PE . Clin Infect Dis 2014 59 (10) 1401-10 BACKGROUND: Through two international traveler-focused surveillance networks (GeoSentinel and TropNet), we identified and investigated a large outbreak of acute muscular sarcocystosis (AMS), a rarely-reported zoonosis caused by a protozoan parasite of the genus Sarcocystis, associated with travel to Tioman Island, Malaysia, during 2011-2012. METHODS: Clinicians reporting patients with suspected AMS to GeoSentinel submitted demographic, clinical, itinerary, and exposure data. We defined a probable case as travel to Tioman Island after March 1, 2011, eosinophilia (>5%), clinical or laboratory-supported myositis, and negative trichinellosis serology. Case confirmation required histologic observation of sarcocysts or isolation of Sarcocystis spp. DNA from muscle biopsy. RESULTS: Sixty-eight patients met the case definition; 62 probable and six confirmed. All but two resided in Europe; all were tourists and travelled mostly during the summer months. The most frequent symptoms reported were myalgia (100%), fatigue (91%), fever (82%), headache (59%), and arthralgia (29%); onset clustered during two distinct periods: 'early' during the second and 'late' during the sixth weeks post-departure from the island. Blood eosinophilia and elevated serum creatinine phosphokinase (CPK) levels were observed beginning during the fifth week post-departure. Sarcocystis nesbitti DNA was recovered from one muscle biopsy. CONCLUSIONS: Clinicians evaluating travelers returning ill from Malaysia with myalgia, with or without fever, should consider AMS, noting the apparent biphasic aspect of the disease, the later onset of elevated CPK and eosinophilia, and the possibility for relapses. The exact source of infection among travelers to Tioman Island remains unclear but needs to be determined to prevent future illnesses. |
Cerebral Angiostrongylus cantonensis infection in a captive African pygmy falcon (Polihierax semitorquatus) in southern California
Burns RE , Bicknese EJ , Qvarnstrom Y , DeLeon-Carnes M , Drew CP , Gardiner CH , Rideout BA . J Vet Diagn Invest 2014 26 (5) 695-8 A 10-month-old, female African pygmy falcon (Polihierax semitorquatus) hatched and housed at the San Diego Zoo developed neurologic signs and died from a cerebral infection with the rat lungworm Angiostrongylus cantonensis. There was an associated mild nonsuppurative meningoencephalitis. This infection was diagnosed on histology and confirmed by detection of species-specific A. cantonensis DNA in formalin-fixed and frozen brain tissue by a polymerase chain reaction assay. To the authors' knowledge, this infection has not previously been reported in a bird in the United States and has not been known to be naturally acquired in any species in this region of the world. The source of the infection was not definitively determined but was possibly feeder geckos (Hemidactylus frenatus) imported from Southeast Asia where the parasite is endemic. |
Exserohilum infections associated with contaminated steroid injections: a clinicopathologic review of 40 cases
Ritter JM , Muehlenbachs A , Blau DM , Paddock CD , Shieh WJ , Drew CP , Batten BC , Bartlett JH , Metcalfe MG , Pham CD , Lockhart SR , Patel M , Liu L , Jones TL , Greer PW , Montague JL , White E , Rollin DC , Seales C , Stewart D , Deming MV , Brandt ME , Zaki SR . Am J Pathol 2013 183 (3) 881-92 September 2012 marked the beginning of the largest reported outbreak of infections associated with epidural and intra-articular injections. Contamination of methylprednisolone acetate with the black mold, Exserohilum rostratum, was the primary cause of the outbreak, with >13,000 persons exposed to the potentially contaminated drug, 741 confirmed drug-related infections, and 55 deaths. Fatal meningitis and localized epidural, paraspinal, and peripheral joint infections occurred. Tissues from 40 laboratory-confirmed cases representing these various clinical entities were evaluated by histopathological analysis, special stains, and IHC to characterize the pathological features and investigate the pathogenesis of infection, and to evaluate methods for detection of Exserohilum in formalin-fixed, paraffin-embedded (FFPE) tissues. Fatal cases had necrosuppurative to granulomatous meningitis and vasculitis, with thrombi and abundant angioinvasive fungi, with extensive involvement of the basilar arterial circulation of the brain. IHC was a highly sensitive method for detection of fungus in FFPE tissues, demonstrating both hyphal forms and granular fungal antigens, and PCR identified Exserohilum in FFPE and fresh tissues. Our findings suggest a pathogenesis for meningitis involving fungal penetration into the cerebrospinal fluid at the injection site, with transport through cerebrospinal fluid to the basal cisterns and subsequent invasion of the basilar arteries. Further studies are needed to characterize Exserohilum and investigate the potential effects of underlying host factors and steroid administration on the pathogenesis of infection. |
Fatal transplant-associated West Nile virus encephalitis and public health investigation-California, 2010
Rabe IB , Schwartz BS , Farnon EC , Josephson SA , Webber AB , Roberts JP , de Mattos AM , Gallay BJ , van Slyck S , Messenger SL , Yen CJ , Bloch EM , Drew CP , Fischer M , Glaser CA . Transplantation 2013 96 (5) 463-8 BACKGROUND: In December 2010, a case of West Nile virus (WNV) encephalitis occurring in a kidney recipient shortly after organ transplantation was identified. METHODS: A public health investigation was initiated to determine the likely route of transmission, detect potential WNV infections among recipients from the same organ donor, and remove any potentially infected blood products or tissues. Available serum, cerebrospinal fluid, and urine samples from the organ donor and recipients were tested for WNV infection by nucleic acid testing and serology. RESULTS: Two additional recipients from the same organ donor were identified, their clinical and exposure histories were reviewed, and samples were obtained. WNV RNA was retrospectively detected in the organ donor's serum. After transplantation, the left kidney recipient had serologic and molecular evidence of WNV infection and the right kidney recipient had prolonged but clinically inapparent WNV viremia. The liver recipient showed no clinical signs of infection but had flavivirus IgG antibodies; however, insufficient samples were available to determine the timing of infection. No remaining infectious products or tissues were identified. CONCLUSIONS: Clinicians should suspect WNV as a cause of encephalitis in organ transplant recipients and report cases to public health departments for prompt investigation of the source of infection. Increased use of molecular testing and retaining pretransplantation sera may improve the ability to detect and diagnose transplant-associated WNV infection in organ transplant recipients. |
Neurologic melioidosis in an imported pigtail macaque (Macaca nemestrina)
Ritter JM , Sanchez S , Jones TL , Zaki SR , Drew CP . Vet Pathol 2013 50 (6) 1139-44 Burkholderia pseudomallei is the cause of melioidosis in humans and other animals. Disease occurs predominately in Asia and Australia. It is rare in North America, and affected people and animals typically have a history of travel to (in human cases) or importation from (in animal cases) endemic areas. We describe the gross and histopathologic features and the microbiologic, molecular, and immunohistochemical diagnoses of a case of acute meningoencephalomyelitis and focal pneumonia caused by B. pseudomallei infection in a pigtail macaque that was imported from Indonesia to the United States for research purposes. This bacterium has been classified as a Tier 1 overlap select agent and toxin; therefore, recognition of pathologic features, along with accurate and timely confirmatory diagnostic testing, in naturally infected research animals is imperative to protect animals and personnel in the laboratory animal setting. |
Bartonella henselae-mediated disease in solid organ transplant recipients: two pediatric cases and a literature review
Rostad CA , McElroy AK , Hilinski JA , Thompson MP , Drew CP , Denison AM , Zaki SR , Mahle WT , Rogers J , Abramowsky CR , Shehata B . Transpl Infect Dis 2012 14 (5) E71-81 Bartonella henselae, the etiologic agent of cat-scratch disease, causes a well-defined, self-limited syndrome of fever and regional lymphadenopathy in immunocompetent hosts. In immunocompromised hosts, however, B. henselae can cause severe disseminated disease and pathologic vasoproliferation known as bacillary angiomatosis (BA) or bacillary peliosis. BA was first recognized in patients infected with human immunodeficiency virus. It has become more frequently recognized in solid organ transplant (SOT) recipients, but reports of pediatric cases remain rare. Our review of the literature revealed only one previously reported case of BA in a pediatric SOT recipient. We herein present 2 pediatric cases, one of which is the first reported case of BA in a pediatric cardiac transplant recipient, to our knowledge. In addition, we review and summarize the literature pertaining to all cases of B. henselae-mediated disease in SOT recipients. |
The pox in the North American backyard: Volepox virus pathogenesis in California mice (Peromyscus californicus)
Gallardo-Romero NF , Drew CP , Weiss SL , Metcalfe MG , Nakazawa YJ , Smith SK , Emerson GL , Hutson CL , Salzer JS , Bartlett JH , Olson VA , Clemmons CJ , Davidson WB , Zaki SR , Karem KL , Damon IK , Carroll DS . PLoS One 2012 7 (8) e43881 Volepox virus (VPXV) was first isolated in 1985 from a hind foot scab of an otherwise healthy California vole (Microtus californicus). Subsequent surveys in San Mateo County, CA, revealed serological evidence suggesting that VPXV is endemic to this area, and a second viral isolate from a Pinyon mouse (Peromyscus truei) was collected in 1988. Since then, few studies have been conducted regarding the ecology, pathology, and pathogenicity of VPXV, and its prevalence and role as a potential zoonotic agent remain unknown. To increase our understanding of VPXV disease progression, we challenged 24 California mice (Peromyscus californicus) intranasally with 1.6x10(3) PFU of purified VPXV. By day five post infection (pi) we observed decreased activity level, conjunctivitis, ruffled hair, skin lesions, facial edema, and crusty noses. A mortality rate of 54% was noted by day eight pi. In addition, internal organ necrosis and hemorrhages were observed during necropsy of deceased or euthanized animals. Viral loads in tissues (brain, gonad, kidney, liver, lung, spleen, submandibular lymph node, and adrenal gland), bodily secretions (saliva, and tears), and excretions (urine, and/or feces) were evaluated and compared using real time-PCR and tissue culture. Viral loads measured as high as 2x10(9) PFU/mL in some organs. Our results suggest that VPXV can cause extreme morbidity and mortality within rodent populations sympatric with the known VPXV reservoirs. |
Solid organ transplant-associated lymphocytic choriomeningitis, United States, 2011
MacNeil A , Stroher U , Farnon E , Campbell S , Cannon D , Paddock CD , Drew CP , Kuehnert M , Knust B , Gruenenfelder R , Zaki SR , Rollin PE , Nichol ST . Emerg Infect Dis 2012 18 (8) 1256-1262 Three clusters of organ transplant-associated lymphocytic choriomeningitis virus (LCMV) transmissions have been identified in the United States; 9 of 10 recipients died. In February 2011, we identified a fourth cluster of organ transplant-associated LCMV infections. Diabetic ketoacidosis developed in the organ donor in December 2010; she died with generalized brain edema after a short hospitalization. Both kidneys, liver, and lung were transplanted to 4 recipients; in all 4, severe posttransplant illness developed; 2 recipients died. Through multiple diagnostic methods, we identified LCMV infection in all persons, including in at least 1 sample from the donor and 4 recipients by reverse transcription PCR, and sequences of a 396-bp fragment of the large segment of the virus from all 5 persons were identical. In this cluster, all recipients developed severe illness, but 2 survived. LCMV infection should be considered as a possible cause of severe posttransplant illness. |
Alternatives to retroorbital blood collection in hispid cotton rats (Sigmodon hispidus)
Ayers JD , Rota PA , Collins ML , Drew CP . J Am Assoc Lab Anim Sci 2012 51 (2) 239-245 Cotton rats (Sigmodon hispidus) are a valuable animal model for many human viral diseases, including polio virus, measles virus, respiratory syncytial virus, and herpes simplex virus. Although cotton rats have been used in research since 1939, few publications address handling and sampling techniques for this species, and the retroorbital sinus remains the recommended blood sampling site. Here we assessed blood sampling methods that are currently used in other species and a novel subzygomatic sampling site for their use in S. hispidus. The subzygomatic approach accesses a venous sinus that possibly is unique to this species and that lies just below the zygomatic arch of the maxilla and deep to the masseter muscle. We report that both the novel subzygomatic approach and the sublingual vein method can be used effectively in cotton rats. |
Myocardial injury and bacterial pneumonia contribute to the pathogenesis of fatal influenza B virus infection
Paddock CD , Liu L , Denison AM , Bartlett JH , Holman RC , Deleon-Carnes M , Emery SL , Drew CP , Shieh WJ , Uyeki TM , Zaki SR . J Infect Dis 2012 205 (6) 895-905 BACKGROUND: Influenza B virus infection causes rates of hospitalization and influenza-associated pneumonia similar to seasonal influenza A virus infection and accounts for a substantial percentage of all influenza-related hospitalizations and deaths among those aged <18 years; however, the pathogenesis of fatal influenza B virus infection is poorly described. METHODS: Tissue samples obtained at autopsy from 45 case patients with fatal influenza B virus infection were evaluated by light microscopy and immunohistochemical assays for influenza B virus, various bacterial pathogens, and complement components C4d and C9, to identify the cellular tropism of influenza B virus, characterize concomitant bacterial pneumonia, and describe the spectrum of cardiopulmonary injury. RESULTS: Viral antigens were localized to ciliated respiratory epithelium and cells of submucosal glands and ducts. Concomitant bacterial pneumonia, caused predominantly by Staphylococcus aureus, was identified in 38% of case patients and occurred with significantly greater frequency in those aged >18 years. Pathologic evidence of myocardial injury was identified in 69% of case patients for whom cardiac tissue samples were available for examination, predominantly in case patients aged <18 years. CONCLUSIONS: Our findings suggest that bacterial pneumonia and cardiac injury contribute to fatal outcomes after infection with influenza B virus and that the frequency of these manifestations may be age related. (See the editorial commentary by McCullers and Hayden, on pages 870-2.) |
Rift Valley fever virus vaccine lacking the NSs and NSm genes is safe, nonteratogenic, and confers protection from viremia, pyrexia, and abortion following challenge in adult and pregnant sheep.
Bird BH , Maartens LH , Campbell S , Erasmus BJ , Erickson BR , Dodd KA , Spiropoulou CF , Cannon D , Drew CP , Knust B , McElroy AK , Khristova ML , Albarino CG , Nichol ST . J Virol 2011 85 (24) 12901-9 Rift Valley fever virus (RVFV) is a mosquito-borne human and veterinary pathogen causing large outbreaks of severe disease throughout Africa and the Arabian Peninsula. Safe and effective vaccines are critically needed, especially those that can be used in a targeted one-health approach to prevent both livestock and human disease. We report here on the safety, immunogenicity, and efficacy of the DeltaNSs-DeltaNSm recombinant RVFV (rRVFV) vaccine (which lacks the NSs and NSm virulence factors) in a total of 41 sheep, including 29 timed-pregnant ewes. This vaccine was proven safe and immunogenic for adult animals at doses ranging from 1.0 x 10(3) to 1.0 x 10(5) PFU administered subcutaneously (s.c.). Pregnant animals were vaccinated with 1.0 x 10(4) PFU s.c. at day 42 of gestation, when fetal sensitivity to RVFV vaccine-induced teratogenesis is highest. No febrile reactions, clinical illness, or pregnancy loss was observed following vaccination. Vaccination resulted in a rapid increase in anti-RVFV IgM (day 4) and IgG (day 7) titers. No seroconversion occurred in cohoused control animals. A subset of 20 ewes progressed to full-term delivery after vaccination. All lambs were born without musculoskeletal, neurological, or histological birth defects. Vaccine efficacy was assessed in 9 pregnant animals challenged at day 122 of gestation with virulent RVFV (1.0 x 10(6) PFU intravenously). Following challenge, 100% (9/9) of the animals were protected, progressed to full term, and delivered healthy lambs. As expected, all 3 sham-vaccinated controls experienced viremia, fetal death, and abortion postchallenge. These results demonstrate that the DeltaNSs-DeltaNSm rRVFV vaccine is safe and nonteratogenic and confers high-level protection in sheep. |
Coxiella burnetii infection of marine mammals in the Pacific Northwest, 1997-2010
Kersh GJ , Lambourn DM , Raverty SA , Fitzpatrick KA , Self JS , Akmajian AM , Jeffries SJ , Huggins J , Drew CP , Zaki SR , Massung RF . J Wildl Dis 2012 48 (1) 201-6 Q fever is a zoonotic disease caused by the bacterium Coxiella burnetii. Humans are commonly exposed via inhalation of aerosolized bacteria derived from the waste products of domesticated sheep and goats, and particularly from products generated during parturition. However, many other species can be infected with C. burnetii, and the host range and full zoonotic potential of C. burnetii is unknown. Two cases of C. burnetii infection in marine mammal placenta have been reported, but it is not known if this infection is common in marine mammals. To address this issue, placenta samples were collected from Pacific harbor seals (Phoca vitulina richardsi), harbor porpoises (Phocoena phocoena), and Steller sea lions (Eumetopias jubatus). Coxiella burnetii was detected by polymerase chain reaction (PCR) in the placentas of Pacific harbor seals (17/27), harbor porpoises (2/6), and Steller sea lions (1/2) collected in the Pacific Northwest. A serosurvey of 215 Pacific harbor seals sampled in inland and outer coastal areas of the Pacific Northwest showed that 34.0% (73/215) had antibodies against either Phase 1 or Phase 2 C. burnetii. These results suggest that C. burnetii infection is common among marine mammals in this region. |
Severe Leptospirosis similar to pandemic (H1N1) 2009, Florida and Missouri, USA
Lo YC , Kintziger KW , Carson HJ , Patrick SL , Turabelidze G , Stanek D , Blackmore C , Lingamfelter D , Dudley MH , Shadomy SV , Shieh WJ , Drew CP , Batten BC , Zaki SR . Emerg Infect Dis 2011 17 (6) 1145-6 Leptospirosis is caused by pathogenic spirochetes of the genus Leptospira and transmitted through direct contact of skin or mucous membranes with urine or tissues of Leptospira-infected animals or through indirect contact with contaminated freshwater or soil. Leptospirosis shares common clinical signs with influenza, including fever, headache, myalgia, and sometimes cough and gastrointestinal symptoms. During 2009, acute complicated influenza-like illness (ILI) and rapid progressive pneumonia were often attributed to pandemic (H1N1) 2009; however, alternative final diagnoses were reported to be common. We report 3 cases of severe leptospirosis in Florida and Missouri with clinical signs similar to those of pandemic (H1N1) 2009. |
Pandemic (H1N1) 2009 virus in 3 wildlife species, San Diego, California, USA
Schrenzel MD , Tucker TA , Stalis IH , Kagan RA , Burns RP , Denison AM , Drew CP , Paddock CD , Rideout BA . Emerg Infect Dis 2011 17 (4) 747-9 TO THE EDITOR: The influenza A pandemic (H1N1) 2009 virus rapidly created a global pandemic among humans and also appears to have strong infectivity for a broad range of animal species (1-3). The virus has been found repeatedly in swine and has been detected in a dog, cats, turkeys, and domestic ferrets and in nondomestic animals, including skunks, cheetahs, and giant anteaters (2-4). In some cases, animal-to-animal transmission may have occurred, raising concern about the development of new wildlife reservoirs (2). |
Blastomycosis in man after kinkajou bite
Harris JR , Blaney DD , Lindsley MD , Zaki SR , Paddock CD , Drew CP , Johnson AJ , Landau D , Vanderbush J , Baker R . Emerg Infect Dis 2011 17 (2) 268-70 We report transmission of Blastomyces dermatitidis fungal infection from a pet kinkajou to a man. When treating a patient with a recalcitrant infection and a history of an animal bite, early and complete animal necropsy and consideration of nonbacterial etiologies are needed. |
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