Virulent Newcastle disease (VND), formerly exotic Newcastle disease,[1] is a contagious viral aviandisease affecting many domestic and wild bird species; it is transmissible to humans.[2] Though it can infect humans, most cases are non-symptomatic; rarely it can cause a mild fever and influenza-like symptoms and/or conjunctivitis in humans. Its effects are most notable in domestic poultry due to their high susceptibility and the potential for severe impacts of an epizootic on the poultry industries. It is endemic to many countries. No treatment for VND is known, but the use of prophylactic vaccines[3] and sanitary measures reduces the likelihood of outbreaks.
The disease is caused by Newcastle disease virus (NDV), an avulavirus. Strains of Newcastle disease virus have been used to treat cancer in humans, since the virus appears to preferentially infect and kill cancerous cells. Strains of Newcastle disease virus have also been used to create viral vector vaccine candidates against Ebola and Covid-19.[4][5]
History
Newcastle disease was first identified in Java, Indonesia, in 1926, and in Newcastle upon Tyne, England, in 1927. However, it may have been prevalent as early as 1898, when a disease wiped out all the domestic fowl in northwest Scotland.[6]
The policy of slaughter ceased in England and Wales on 31 March 1963, except for the peracute form of Newcastle disease and for fowl plague. In Scotland the slaughter policy continued for all types of fowl pest.[7]
Interest in the use of NDV as an anticancer agent has arisen from the ability of NDV to selectively kill human tumour cells with limited toxicity to normal cells.[8][9]
The causal agent, Newcastle disease virus (NDV), is a variant of avian orthoavulavirus 1, a negative-sense, single-stranded RNAvirus. NDV belongs to the subfamily Avulavirinae, which infect birds. Transmission occurs by exposure to faecal and other excretions from infected birds, and through contact with contaminated food, water, equipment, and clothing.
Strains
NDV strains can be categorised as velogenic (highly virulent), mesogenic (intermediate virulence), or lentogenic (nonvirulent). Velogenic strains produce severe nervous and respiratory signs, spread rapidly, and cause up to 90% mortality. Mesogenic strains cause coughing, affect egg quality and production, and result in up to 10% mortality. Lentogenic strains produce mild signs with negligible mortality.
Transmission
NDV is spread primarily through direct contact between healthy birds and the bodily discharges of infected birds. The disease is transmitted through infected birds' droppings and secretions from the nose, mouth, and eyes. NDV spreads rapidly among birds kept in confinement, such as commercially raised chickens.
High concentrations of the NDV are found in birds' bodily discharges; therefore, the disease can be spread easily by mechanical means. Virus-bearing material can be picked up on shoes and clothing and carried from an infected flock to a healthy one.
NDV can survive for several weeks in a warm and humid environment on birds' feathers, manure, and other materials. It can survive indefinitely in frozen material. However, the virus is destroyed rapidly by dehydration and by the ultraviolet rays in sunlight.
Smuggled pet birds, especially Amazon parrots from Latin America, pose a great risk of introducing NDV into the US. Amazon parrots are carriers of the disease, but do not show symptoms, and are capable of shedding NDV for more than 400 days.
Clinical findings
Clinical signs
Signs of infection with NDV vary greatly depending on factors such as the strain of virus and the health, age and species of the host.
The incubation period for the disease ranges from 2 to 15 days.[13] An infected bird may exhibit several signs, including respiratory signs (gasping, coughing), nervous signs (depression, inappetence, muscular tremors, drooping wings, twisting of head and neck, circling, complete paralysis), swelling of the tissues around the eyes and neck, greenish, watery diarrhoea, misshapen, rough- or thin-shelled eggs and reduced egg production.
In acute cases, the death is very sudden, and, in the beginning of the outbreak, the remaining birds do not seem to be sick. In flocks with good immunity, however, the signs (respiratory and digestive) are mild and progressive, and are followed after seven days by nervous symptoms, especially twisted heads.[citation needed]
PM lesions on proventriculus, gizzard, and duodenum
Postmortem lesions
Petechiae in the proventriculus and on the submucosae of the gizzard are typical; also, severe enteritis of the duodenum occurs. The lesions are scarce in hyperacute cases (first day of outbreak).
For routine isolation of NDV from chickens, turkeys, and other birds, samples are obtained by swabbing the trachea and the cloaca. Cotton swabs can be used. The virus can also be isolated from the lungs, brain, spleen, liver, and kidneys.
Handling
Prior to shipping, samples should be stored at 4 °C (refrigerator). Samples must be shipped in a padded envelope or box. Samples may be sent by regular mail, but overnight is recommended.[14]
Prevention
Any animals showing symptoms of Newcastle disease should be isolated immediately. New birds should also be vaccinated before being introduced to a flock. An inactivated viral vaccine is available, as well as various combination vaccines.[3][15][16] A thermotolerant vaccine is available for controlling Newcastle disease in underdeveloped countries.[17] Schiappacasse et al 2020 demonstrates successful, complete inactivation of the virus in a space using a nonthermal plasma generator.[18]
History of NDV in cancer research
Though the oncolytic effect of NDV was already documented in the 1950s, later advances in research into using viruses in cancer therapy came with the advent of reverse genetics technologies.[19] Later on it was Csatary LK and his colleagues to document anti-cancer effects in patients with brain gliomas.[20][21]
One of the main issues using NDV would be the host/patient immune response against the virus itself, which prior to the time of the reverse genetics technology, decreased the potential applicability of NDV as a cancer treatment.[19][22]
As of 2018[update] there had been several clinical studies into the use of NDV for cancer treatment, but the research quality was low and the outcomes inconclusive.[23]
^Csatary LK, Moss RW, et al. (Jan–Feb 1999). "Beneficial treatment of patients with advanced cancer using a Newcastle disease virus vaccine (MTH-68/H)". Anticancer Research. 19 (1B): 635–8. PMID10216468.
^Csatary LK, Bakács T (5 May 1999). "Use of Newcastle disease virus vaccine (MTH-68/H) in a patient with high-grade glioblastoma". JAMA. 281 (17): 1588–9. doi:10.1001/jama.281.17.1588-a. PMID10235150.