Nosocomial buffalopoxvirus infection, Karachi, Pakistan.During 5 months in 2004-2005, buffalopoxvirus infection, confirmed by virus isolation and limited nucleic acid sequencing, spread between 5 burns units in Karachi, Pakistan. The outbreak was related to movement of patients between units. Control measures reduced transmission, but sporadic cases continued due to the admission of new patients with community-acquired infections. ********** Buffalopoxvirus, a strain of Vaccinia virus in the genus Orthopoxvirus of the family Poxviridae, has been associated with sporadic cases and outbreaks of infection in Asian buffalo (Bubalus bubalis) in Pakistan, India, Bangladesh, Russia, Indonesia, Egypt, and Italy (1-13). The virus causes pock pock (pok) a pustule, especially of smallpox. pock n. 1. The characteristic pustular cutaneous lesion of smallpox. 2. A pockmark. lesions on the udder udder: see mammary gland. , which adversely affect milk production and can be a source for human infection characterized by transient fever, regional lymphadenitis Lymphadenitis Definition Lymphadenitis is the inflammation of a lymph node. It is often a complication of a bacterial infection of a wound, although it can also be caused by viruses or other disease agents. , and pock lesions, usually on the hands, from contact with infected buffalo. The Study Karachi is the largest city in Pakistan, with a population of 12 million. Healthcare is provided by public and private hospitals, and there are 5 major burns units. In January 2005, pustular pus·tu·lar adj. Of, relating to, or consisting of pustules. pustular pertaining to or of the nature of a pustule; consisting of pustules. lesions were observed on the foot of a patient in 1 of the burns units, and similar lesions subsequently appeared on other patients. Local health authorities were informed of the outbreak, and an investigatory team confirmed reports of similar infections in the city's other burns units, with retrospective identification of at least 19 probable cases occurring over a 5-month period. Most patients had a fever (39.0[degrees]C-40.5[degrees]C) for 2-3 days, followed by the appearance of an eruption(s). Lesions were typically small, rounded, umbilicated umbilicated marked by depressed spots resembling the umbilicus. , and nodular nodular marked with, or resembling, nodules. nodular dermatofibrosis see dermatofibrosis. nodular episcleritis see nodular fasciitis (below). nodular fasciitis a firm painless nodular swelling, 0. in appearance with an erythematous erythematous characterized by erythema. base (Figure 1A). They contained cheesy pustular material and increased in size (from 1-2 mm to >1 cm in diameter) and severity over 7-8 days. The lesions involved burn wounds and intact skin surrounding them, with the unhealed margins of the wounds being covered by a layer of thick yellow secretion. Some patients had a sparse rash; others had closely spaced lesions that produced a cobblestone appearance. The lesions developed crusts, which shrank and sloughed without residual scars. A single lesion developed on a paramedical par·a·med·i·cal adj. 1. Of, relating to, or being a person trained to give emergency medical treatment or assist medical professionals. 2. staff member's finger, and lesions developed around 1 patient's insertion site for an intravenous line (Figure 1B). In all instances, the disease was self limiting, and patients recovered in 3-4 weeks. [FIGURE 1 OMITTED] Results of bacteriologic and mycologic my·col·o·gy n. pl. my·col·o·gies 1. The branch of botany that deals with fungi. 2. The fungi native to a region. 3. examination of biopsy samples, impression smears, and swab samples from lesions were negative. Histopathologic examination showed extensive ulceration and granulation, with epidermal necrosis and subepidermal edema plus acute and chronic inflammatory cell infiltration. No molluscum molluscum /mol·lus·cum/ (mo-lus´kum) 1. any of various skin diseases marked by the formation of soft rounded cutaneous tumors. 2. m. contagiosum. bodies were observed, but eosinophilic eosinophilic /eo·sin·o·phil·ic/ (-fil´ik) 1. readily stainable with eosin. 2. pertaining to eosinophils. 3. pertaining to or characterized by eosinophilia. cytoplasmic inclusions were present in keratinocytes Keratinocytes Cells found in the epidermis. The keratinocytes at the outer surface of the epidermis are dead and form a tough protective layer. The cells underneath divide to replenish the supply. . Impression smears and biopsy tissues were sent to the Special Pathogens Unit, National Institute for Communicable Diseases (NICD), Sandringham, South Africa, and to the Health Protection Agency (HPA), Centre for Emergency Preparedness and Response, Porton Down, Salisbury, United Kingdom "Salisbury" redirects here. For the capital of Zimbabwe, see Harare. For other uses, see Salisbury (disambiguation). Coordinates: Salisbury (IPA: [ˈsɒlz. . Electron microscopy of negative-stained grids prepared at HPA and NCID laboratories from pustular material showed orthopoxvirus particles, and examination of ultrathin sections prepared from infected Vero cell cultures at HPA found classic orthopox intracytoplasmic intracytoplasmic /in·tra·cy·to·plas·mic/ (-si?to-plaz´mik) within the cytoplasm of a cell. virus factories and particle maturation sites (Figure 1C, D). PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) was performed on nucleic acid extracted from the samples, using primers specific for regions of the orthopoxvirus hemagglutinin hemagglutinin /he·mag·glu·ti·nin/ (-gloo´ti-nin) an antibody that causes agglutination of erythrocytes. cold hemagglutinin one which acts only at temperatures near 4° C. gene (at NICD) and B5R membrane protein gene (at HPA). After nucleotide sequences were determined for the PCR products, phylogenetic analyses were conducted in relation to corresponding orthopoxvirus sequences obtained from GenBank, using methods described elsewhere (14,15). The causative agent was found to cluster with buffalopoxvirus isolates within the vaccinia subgroup of orthopoxviruses (Figure 2), and 3 patients from 2 separate burns units were shown to be infected with the identical virus, which was distinct from other known buffalopoxvirus isolates. To investigate the possibility of a shared source of infection, 17 samples of saline, antimicrobial drug ointments, petroleum jelly, cotton dressings, and swabs in common use were obtained from the 5 burns units and tested by PCR at NICD; no results were positive. Inquiries led to the suggestion that the outbreak was probably propagated by transfer of infected patients between burns units. This hypothesis was confirmed when a policy to isolate all new admissions, including referrals from other burn centers, for their first 2 weeks in a unit successfully controlled transmission of new endogenous cases. [FIGURE 2 OMITTED] Control measures included education of staff, single-room or cohort isolation of patients infected or suspected of being infected with buffalopoxvirus, and reinforcement of infection-control practices, such as hand disinfection after contact with any patient. To reduce virus load in the environment, the facilities were cleaned more frequently and hypochlorite hypochlorite /hy·po·chlo·rite/ (-klor´it) any salt of hypochlorous acid; used as a medicinal agent with disinfectant action, particularly as a diluted solution of sodium hypochlorite. disinfectant was used for cleaning. The measures proved effective in reducing transmission within burns units, but they did not prevent the sporadic arrival of newly infected patients. Conclusions Buffalopoxvirus outbreaks reported to date have been geographically restricted, and human cases have been limited to persons with direct exposure to infected animals, usually in rural communities (1-11). This reported outbreak uniquely involved nosocomial infections in 5 widely separated burns units in Karachi, Pakistan. However, buffaloes are the most common dairy animal in Pakistan, even within the city limits of Karachi, and buffalo fat, particularly in the form of butter or ghee ghee: see butter. , sometimes is used at home as a dressing for bums. Thus, burn patients newly infected with buffalopoxvirus may periodically arrive at burns units. Due to disparity in the sophistication so·phis·ti·cate v. so·phis·ti·cat·ed, so·phis·ti·cat·ing, so·phis·ti·cates v.tr. 1. To cause to become less natural, especially to make less naive and more worldly. 2. and cost of the care provided at the burns units in Karachi, patients are often transferred or move themselves between units, thus facilitating the possible spread of infection. In this outbreak, 6 of the 19 patients with putative cases of buffalopoxvirus infection are known to have transferred between burns units during treatment. Fortunately, the infection was of low virulence for humans. Delay in recognizing and investigating the outbreak is cause for concern and can be ascribed to poor awareness and lack of resources. Clearly, improvements are needed in disease surveillance, diagnostics, and infection control. References (1.) Sharma GK. An interesting outbreak of variola-vaccinia in milch milch giving milk or kept for milking. cattle in Lahore. Miscellaneous Bulletin of the Imperial Agricultural Research. Selected Clinical Articles. 1934;8:1-4. (2.) Mathew T. Virus study of pock diseases among buffaloes. Indian J Pathol Bacteriol. 1967;10:101-2. (3.) Sehgal CL, Ray SN, Ghosh TK, Arora RR. An investigation of an outbreak of buffalopox in animals and human beings in Dhulia district, Maharashtra State 1. Laboratory studies. Journal of Communicable Diseases. 1992;13:45-8. (4.) Kolhapure RM, Deolankar RP, Tupe CD, Raut CG, Basu A, Dama BM, et al. Investigation of buffalopox outbreaks in Maharashtra State during 1992-1996. Indian J Med Res. 1997;106:441-6. (5.) Chandra R, Garg SK, Rana UVS, Rao VDR Pox infection of buffaloes. Farm Animals. 1987;2:57-69. (6.) Bhatia SN. Variola variola /va·ri·o·la/ (vah-ri´o-lah) smallpox.vari´olarvari´olous va·ri·o·la n. See smallpox. va·ri on the ears and around the eyes of buffaloes. Indian Veterinary Journal. 1936;12:236-7. (7.) Singh RK, Hosamani M, Balamurugan V, Satheesh CC, Shingal KR, Tatwarti SB, et al. An outbreak of buffalopox in buffalo (Bubalus bubalis) dairy herds in Aurangabad, India. Rev Sci Tech. 2006;25:981-7. (8.) Ghosh TK, Arora RR, Sehgal CL, Ray SN, Wattal BL. An investigation of an outbreak of buffalopox in animals and human being in Dhulia district, Maharashtra state 2. Epidemiological studies. Journal of Communicable Diseases. 1977;9:93-101. (9.) Nedunchelliyan S, Reddy DS, Venkataraman KS. Buffalopox infection in man. Indian J Public Health. 1992;36:57. (10.) Ramanan C, Ghorpade A, Kalra SK, Mann S. Buffalopox. Int J Dermatol. 1996;35:128-30. (11.) Lal SM, Singh IR Buffalopox--a review. Tropical Animal Health and Production. 1977;9:107-12. (12.) Dumbell K, Richardson M. Virological investigations of specimens from buffaloes affected by buffalopox in Maharashtra state, India, between 1985 and 1987. Arch Virol. 1993;128:257-67. (13.) Fauquet CM, Mayo MA, Maniloff J, Desselberger U, Ball LA. Virus taxonomy: the classification and nomenclature of viruses. The eighth report of the International Committee on Taxonomy of Viruses The International Committee on Taxonomy of Viruses (ICTV) is a committee which authorizes and organizes the taxonomic classification of viruses. They have developed a universal taxonomic scheme for viruses and aim to describe all the viruses of living organisms. . San Diego: Academic Press; 2004. (14.) Ropp SL, Jin Q, Knight JC, Massung RF, Esposito JF. PCR strategy for identification and differentiation of smallpox and other poxviruses. J Clin Microbiol. 1995;33:2069-76. (15.) Venter M, Smit S, Leman P, Swanepoel R. Phylogenetic evidence of widespread distribution of genotype 3 JC virus in Africa and identification of a type 7 isolate in an AIDS patient. J Gen Virol. 2004;85:2215-9. Afia Zafar, * Robert Swanepoel, ([dagger]) Roger Hewson, ([double dagger]) Mazhar Nizam, ([section]) Altaf Ahmed, ([section]) Akhtar Husain, * Antoinette Grobbelaar, ([dagger]) Kevin Bewley, ([double dagger]) Valerie Mioulet, ([double dagger]) Barry Dowsett, ([double dagger]) Linda Easterbrook, ([double dagger]) and Rumina Hasan * * Aga Khan University Hospital, Karachi The Aga Khan University Hospital, Karachi (AKUH) was established in 1985 as the primary teaching site of the Aga Khan University’s (AKU) Faculty of Health Sciences. Founded by His Highness the Aga Khan, the hospital provides a broad range of secondary and tertiary care, , Pakistan; ([dagger]) National Institute for Communicable Diseases, Sandringham, South Africa; ([double dagger]) Centre for Emergency Preparedness and Response, Porton Down, Salisbury, UK; and ([section]) Patel Hospital, Karachi, Pakistan Dr Zafar is an associate professor and consultant microbiologist in the Department of Pathology and Microbiology at Aga Khan University Hospital Aga Khan University Hospital may refer to:
Address for correspondence: Afia Zafar, Department of Pathology and Microbiology, Aga Khan University, PO Box 3500, Karachi 74800, Pakistan; email: afia.zafar@aku.edu |
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