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RESEARCH ARTICLE

Glanders: re-emergence of an ancient zoonosis

Patricia Ellis
+ Author Affiliations
- Author Affiliations

Equine Health Advisor
Asian Racing Federation
Tel: 0419 371 123
Email: pmevet@bigpond.net.au

Microbiology Australia 41(1) 41-44 https://doi.org/10.1071/MA20011
Published: 3 March 2020

Glanders, although known to be endemic in certain regions/countries of the Old and New Worlds for centuries, had been largely overlooked as a threat to equine and human health until the disease re-emerged in the Middle East in 2004. The exponential growth in international horse movements, both legal and illegal, mainly for performance purposes, has enhanced the risk of global spread of glanders in the Middle East and elsewhere. Ever since the First World War, the glanders bacillus has been recognised as a potential biological warfare agent.


The organism

Glanders is an OIE (World Organisation for Animal Health) listed notifiable disease caused by Burkholderia mallei, a Gram-negative, non-motile and non-spore-forming bacterium. Previously known as Pseudomonas mallei, it is genetically closely related to the agent of melioidosis, Burkholderia pseudomallei. It is an obligate pathogen of domestic equids. Glanders is one of the oldest recorded diseases of horses dating back to Aristotle (350 BC), and long recognised as a very important zoonotic disease of humans.

The incubation period of glanders varies from a few days to many months according to the route and level of exposure and intrinsic host factors1. For the purposes of the OIE Terrestrial Animal Health Code, the infective period of B. mallei in equids is lifelong and incubation period for glanders is up to 6 months2.


The disease

The signs of glanders are relatively non-specific. Three clinical forms are described (nasal, pulmonary and cutaneous forms) but more than one form of the disease may occur in the same animal concurrently. Fever, mucopurulent nasal discharge, coughing, difficulty breathing, and enlarged sub-mandibular lymph nodes are characteristic of the nasal and pulmonary forms of the disease (hence glanders). The cutaneous form of glanders or farcy is also associated with the development of subcutaneous nodules along the course of the lymphatics of the face, eyes, costal region, legs or ventral abdomen. Diseases that can be confused with glanders include strangles (Streptococcus equi equi), a common disease of horses, melioidosis (B. pseudomallei), epizootic lymphangitis (Histoplasma capsulatum var farciminosum), ulcerative lymphangitis (Corynebacterium pseudotuberculosis) and sporotrichosis (Sporotrichum schenckii)1,3,4.

Acute disease occurs mainly in donkeys; glanders in horses can be acute, but more often chronic or latent1,3. Humans are susceptible and if untreated, infection in man is frequently fatal5. Small ruminants and dromedary camels kept in close contact with infected horses can contract the disease6, as can carnivores by eating infected or contaminated meat1,3.


Diagnosis

Glanders presents diagnostic challenges and diagnosis cannot be based on clinical signs alone. Isolation of B. mallei from lesions and exudates is the ‘gold’ standard; difficulties arise however when infections are sub-clinical or latent. Other tests resorted to can include the Mallein test (preferably the intradermo-palpebral test). This is a hypersensitivity skin test which does not distinguish infection with B. mallei from B.pseudomallei3,7,8.

The complement fixation test (CFT), the OIE recommended serological test for international trade9, is complex to perform, difficult to standardise and can result in anti-complementary reactions with some sera. Its sensitivity and specificity can vary depending on the antigen and methodology used7,8. Newer more sensitive and specific diagnostic tests e.g. the polymerase chain reaction test, competitive enzyme-linked immunosorbent assay (C-ELISA) and the Western immunoblot test have been developed to overcome the limitations of traditional diagnostic tests. However, none of these tests have yet been validated by the OIE for use in international trade7,10.


Transmission

Glanders is usually introduced to a free area by an asymptomatic carrier animal7,8. Spread can occur by direct or indirect contact with an infected animal. The disease is frequently contracted by the ingestion of food or water from communal troughs contaminated by nasal discharges or pus from skin lesions. Spread by inhalation can also occur. The cutaneous form of glanders is spread by contaminated saddlery, harness or grooming equipment. Latent infection can be reactivated by stress, for example, travel, poor husbandry or over-crowding1,3,4.


Disease in humans

Naturally occurring disease occurs infrequently in humans and usually results from occupational exposure involving close and prolonged contact with an infected equid(s). People most at risk include veterinarians, grooms and abattoir workers5. It is now generally accepted that glanders caused the death in 1793 of Charles Vial de St Bel, inaugural Professor of the recently established London Veterinary College, although the zoonotic potential of glanders was not actually recognised until the beginning of the 19th century11. Deaths in laboratory workers have also been reported, including European scientists studying glanders after the initial isolation of the aetiologic agent in 188211, and military research microbiologists in the USA11,12.

B. mallei was used as a biological warfare agent against animals in Europe, Russia and the USA during the First World War. In the USA, cultures were grown by a German agent in a basement laboratory in Washington, DC. The microbes were suspended in liquid in test tubes, and dockworkers recruited by the Germans went among mules and horses assembled for shipment to the Allied forces in Europe and jabbed animals with needles that had been dipped into the microbial cultures13.

Glanders is classified as a Category B biothreat agent by the Centres for Disease Control and Prevention in the USA14 and all potentially infected or contaminated material must be handled in a laboratory with appropriate biosafety and biosecurity controls9.


Geographic distribution and re-emergence

Glanders was once widespread globally primarily due to the movement of horses for war, transportation and agriculture. Throughout history, when horse-mounted troops invaded new territories, glanders almost invariably accompanied them8,11. Mandatory national test and slaughter control programs in the early to mid-20th century eradicated the disease from many countries, including the USA, Canada and Western Europe. Since then, these countries have maintained their glanders-free status by strict import policies and border controls1,7,8.

Glanders still persists in parts of Eastern Europe, the Middle East, Asia, Africa, the Indian subcontinent,and Brazil in South America1,3. Over the past 15 years glanders has been reported with increasing frequency from the Middle East (United Arab Emirates, 2004; Iran, 2007; Kuwait, 2009 and 2019; Bahrain, 2010; Lebanon, 2011) and is considered a re-emerging disease in that region1,15,16. Cases have been reported from Kuwait as recently as July 201917 and most recently in Turkey in late 2019. Movement of horses from Syria appears to have played a prominent role in the disease’s re-emergence16,18,19.

Glanders has also made an unwelcome reappearance in Western Europe. A 2009 report described a horse imported into Germany from Brazil in 2006 with certification of no known exposure to the disease and of negative CFT status. It became ill after arrival and the animal was subsequently diagnosed as having glanders15,20. In 2015, another case, and this time of latent or occult glanders, was reported in a German horse where the source of infection was not identified21.

Confirmation of a case of glanders has a substantial economic impact in non-endemic areas. There is no effective long-term treatment or any vaccine against the disease. Horses eventually die. A test and slaughter program must be introduced if a country wishes to regain its free status2. Diseased animals and animals that test positive must be killed, severe restrictions on horse movement imposed within the country and the international trade in equids and their products suspended for an extended period.


What factors are contributing to the renaissance of this ancient disease?

  • Foremost is the exponential growth in international movement of horses for equestrian sports or racing purposes, particularly legal and illegal movements between Middle Eastern countries8,15,16.

  • Inadequate regulation, biosecurity and supervision of international horse movements including failure of countries to harmonise their national regulations for importation with OIE disease specific recommendations15.

  • Regional conflicts can disrupt national government control programs7.

  • B. mallei can evade the host’s immune response and result in latent infections and the potential for the introduction of infection into glanders-free countries8.

  • Absence of an OIE validated diagnostic serological test for glanders. The current OIE approved CF test for international trade can give rise to false positive and false negative results. Unreliable diagnostic tests compromise the efficacy of disease control programs1.

  • Lack of awareness of the clinical signs of glanders may result in an incorrect or delayed diagnosis and failure to detect or report an outbreak. Reduced commercial use of horses has led to diminished veterinary awareness of glanders, its clinical signs, epidemiology and diagnostic methods7,8.

  • Disease investigations carried out by private veterinarians have hampered government authorities and prevented timely and appropriate action16.

  • Failure to report the disease – economic and cultural circumstances may hinder the culling of asymptomatically infected animals; fear of restrictions and the absence of adequate compensation may also deter official reporting1,4,7,19.


An Australian perspective

Glanders has never gained a foothold in Australia. Australia was remote from Europe (and its major wars and disturbances) and had no land borders. It was not an attractive target for European invaders until the British came by sea to establish the first penal colony in 1788 accompanied by a few horses sourced from South Africa22. Luckily these and other horses imported in the early wild colonial days did not introduce glanders. Freedom from significant equine diseases such glanders provided an important trade advantage for the export of Australian horses to the Indian market as army remounts23.

Nevertheless, in November 1891, swift and efficient action by New South Wales (NSW) quarantine authorities prevented disaster. Glanders was detected by a government veterinarian in circus horses imported from the USA. Fortunately, they were still held in quarantine. Their only Australian contacts were horses recently recruited to the circus. The two imported clinical cases and their Australian contacts were destroyed. The imported horses were then transferred to Shark Island in Port Jackson where four more animals developed the disease. The remaining circus horses were shipped back to San Francisco in February 1892. Their export occurred despite considerable opposition from certain NSW veterinary practitioners who thought the rest of the American circus horses could be safely admitted to Australia because the diseased animals had been killed. Unlike the recent experience in the Middle East16, the strong stand taken by the government authorities prevailed24.

Subsequently, Australia has maintained strict border controls and maintained its glanders free status. An import risk analysis covering inter alia the biosecurity risk posed by glanders in imported horses was conducted in 2010 and reviewed in 201325,26. Australia only imports horses directly from countries in which glanders does not occur. To be eligible for import, horses must have been resident for at least 6 months prior to shipment or since birth in an approved country free of glanders.

In the unlikely event that glanders did ever manage to penetrate our borders again, Australia is well prepared for its eradication with a response plan and a government/industry disease control cost sharing formula agreed in advance of any outbreak27.


Future research

To improve global control of glanders while facilitating future international horse movements, the International Horse Sports Confederation and the OIE have supported projects to identify and validate improved diagnostic tests7,10.

More sensitive tests will allow more accurate certification of the disease freedom of individual animals and reduce the risk of introduction of glanders to new areas by the international movement of infected carriers. More specific tests will also reduce false positive results that lead to unnecessary and expensive obstacles to trade7,10.


Conflicts of interest

The author declares no conflicts of interest.



Acknowledgements

This research did not receive any specific funding.


References

[1]  Khan, I. et al. (2013) Glanders in animals: a review on epidemiology, clinical presentation, diagnosis and countermeasures. Transbound. Emerg. Dis. 60, 204–221.
Glanders in animals: a review on epidemiology, clinical presentation, diagnosis and countermeasures.Crossref | GoogleScholarGoogle Scholar | 22630609PubMed |

[2]  OIE (2019) Chapter 12.10 Infection with Burkholderia (Glanders). In: OIE Terrestrial Animal Health Code 28th edn. https://www.oie.int/index.ph p?id=169&L=0&htmfile=chapitre_glanders.htm (accessed 3 December 2019).

[3]  Spickler, A.R. (2018) Glanders. http://www.cfsph.iastate.edu/Factsheets/pdfs/glanders.pdf (accessed 30 November 2019).

[4]  Wernery, U. (2009) Glanders. In Infectious Diseases of the Horse (Mair, T.S. and Hutchinson, R.E., eds). pp 253-260. Equine Veterinary Journal Ltd.

[5]  Van Zandt, K.E. et al. (2013) Glanders: an overview of infections in humans. Orphanet J. Rare Dis. 8, 131.
Glanders: an overview of infections in humans.Crossref | GoogleScholarGoogle Scholar | 24004906PubMed |

[6]  Wernery, U. et al. (2011) Natural Burkholderia mallei infection in dromedary, Bahrain. Emerg. Infect. Dis. 17, 1277–1279.
Natural Burkholderia mallei infection in dromedary, Bahrain.Crossref | GoogleScholarGoogle Scholar | 21762586PubMed |

[7]  Elschner, M.C. et al. (2017) The resurrection of glanders in a new epidemiological scenario: a beneficiary of ‘global change’. Curr. Clin. Micro. Rpt 4, 54–60.
The resurrection of glanders in a new epidemiological scenario: a beneficiary of ‘global change’.Crossref | GoogleScholarGoogle Scholar |

[8]  Kettle, A.N. and Wernery, U. (2016) Glanders and the risk of its introduction through the international movement of horses Equine Vet. J. 48, 654–658.
Glanders and the risk of its introduction through the international movement of horsesCrossref | GoogleScholarGoogle Scholar | 27288893PubMed |

[9]  OIE (2018) Glanders and meliodosis. Chapter 3.5.11 In: OIE Manual of Diagnostic Tests and Vaccines for Terrestrial Animals, 8th edn. https://www.oie.int/fileadmin/Home/eng/Health_standards/tahm/3.05.11_GLANDERS.pdf (accessed 3 December 2019).

[10]  Elschner, M.C. et al. (2019) Evaluation of the comparative accuracy of the complement fixation test, Western blot and five enzyme-linked immunosorbent assays for serodiagnosis of glanders. PLoS One 14, e0214963.
Evaluation of the comparative accuracy of the complement fixation test, Western blot and five enzyme-linked immunosorbent assays for serodiagnosis of glanders.Crossref | GoogleScholarGoogle Scholar | 30951554PubMed |

[11]  Wilkinson, L. (1981) Glanders: Medicine and veterinary medicine in common pursuit of a contagious disease. Med. Hist. 25, 363–384.
Glanders: Medicine and veterinary medicine in common pursuit of a contagious disease.Crossref | GoogleScholarGoogle Scholar | 7038356PubMed |

[12]  Srinivasan, A. et al. (2001) Glanders in a military research microbiologist. N. Engl. J. Med. 345, 256–258.
Glanders in a military research microbiologist.Crossref | GoogleScholarGoogle Scholar | 11474663PubMed |

[13]  Wheelis, M. (1998) First shots fired in biological warfare. Nature 395, 213.
First shots fired in biological warfare.Crossref | GoogleScholarGoogle Scholar | 9751039PubMed |

[14]  Rotz, L.D. et al. (2002) Public health assessment of potential biological terrorism agents. Emerg. Infect. Dis. 8, 225–230.
Public health assessment of potential biological terrorism agents.Crossref | GoogleScholarGoogle Scholar | 11897082PubMed |

[15]  Dominguez, M. et al. (2016) Equine disease events resulting from international horse movements: Systematic review and lessons learned. Equine Vet. J. 48, 641–653.
Equine disease events resulting from international horse movements: Systematic review and lessons learned.Crossref | GoogleScholarGoogle Scholar | 26509734PubMed |

[16]  OIE (2010) Press release: Glanders poses a serious health risk to both animals and humans in the Middle-East. https://www.oie.int/en/for-the-media/press-releases/detail/article/glanders-poses-a-serious-health-risk-to-both-animals-and-humans-in-the-middle-east/ (accessed 30 November 2019).

[17]  OIE (2019) Glanders in Kuwait. Immediate notification report. Report 31260. https://www.oie.int/wahis_2/public/wahid.php/Reviewreport/Review?reportid=31260 (accessed 2 December 2019).

[18]  Wernery, U. (2011) Glanders. Equine Disease Quarterly 20, 3.

[19]  Scholz, H.C. et al. (2014) Genotyping of Burkholderia mallei from an outbreak of glanders in Bahrain suggests multiple introduction events. PLoS Negl. Trop. Dis. 8, e3195.
Genotyping of Burkholderia mallei from an outbreak of glanders in Bahrain suggests multiple introduction events.Crossref | GoogleScholarGoogle Scholar | 25255232PubMed |

[20]  Elschner, M.C. et al. (2009) Burkholderia mallei infection in a horse imported from Brazil Equine Vet. Educ. 21, 147–150.
Burkholderia mallei infection in a horse imported from BrazilCrossref | GoogleScholarGoogle Scholar |

[21]  Elschner, M.C. et al. (2016) Re-appearance of glanders in Western Europe: clinical, laboratory and pathological findings in a German horse. OIE Bulletin. 2016, 76–79.
Re-appearance of glanders in Western Europe: clinical, laboratory and pathological findings in a German horse.Crossref | GoogleScholarGoogle Scholar |

[22]  Ellis, P.M. (1998) Pegasus joins the jet age Aust. Vet. J. 76, 476–477.
Pegasus joins the jet ageCrossref | GoogleScholarGoogle Scholar | 9700401PubMed |

[23]  Yarwood, A.T. (1989) Walers: Australian Horses Abroad. p. 43. Melbourne University Press.

[24]  Seddon, H.D. (1953) Glanders. In Diseases of Domestic Animals in Australia. Part 5. Volume 1. Bacterial Diseases. Department of Health, Commonwealth of Australia.

[25]  Biosecurity Australia (2010) Import risk analysis report for horses from approved countries. Biosecurity Australia, Canberra.

[26]  Department of Agriculture, Fisheries and Forestry (2013) Import risk analysis report for horses from approved countries: final policy review. Department of Agriculture, Fisheries and Forestry, Canberra.

[27]  Animal Health Australia (2018) Glanders: In Response Policy Briefs (Version 3.6) Australian Veterinary Emergency Plan (AUSVETPLAN), Edition 3. pp. 36–37. National Biosecurity Committee, Canberra, ACT.


Biography

Dr Patricia Ellis is a veterinarian with global horse industry regulatory and clinical experience. Her interests include safe international movement of horses, import risk analysis, biosecurity and emergency animal disease management.