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Introduction to Viral Diseases of Fish
Ruth Ellen Klinger and Ruth Francis-Floyd  

What Is a Virus?
Viruses are very small infectious agents that multiply only within the living cells of an animal or plant host. Other microorganisms, such as bacteria or fungi, have organelles for their own metabolism, but viruses do not. They must utilize the machinery of the infected host cell for growth and reproduction.

A virus has two parts. The internal part is the virion, or virus particle which is composed of nucleic acid, the same material that makes up genes. The virion is enclosed in an external protein coat called a capsid. Viruses are broadly categorized by the type of nucleic acid they contain; the two basic types of nucleic acid are RNA (ribonucleic acid) and DNA (deoxyribo-nucleic acid). Virologists also classify viruses by their shape, for example, "icosahedral" viruses have 20 sides, and "helical" particles are rod shaped.


Detection of Viral Diseases
Because they are so small, viruses are often difficult to detect. Parasites, bacteria, or fungi are easier to detect than viruses, so diagnosticians first check to see if these other organisms are the cause of a specific disease before considering the possibility that a virus is responsible. Three techniques are used for initial identification of a virus. First, electron microscopy (EM) is used to visualize virus particles within tissue cells. Second, an effort is made to grow the virus in the laboratory using established cell-lines, which are living cells grown in vitro, literally "in a glass," outside of a living organism by feeding them special nutrients. This technique is referred to as cell culture, and cells from specific fish are used for growth of specific viral agents. Finally, identification of the virus is confirmed using serology, in which serum (part of the blood) from animals known to be infected with the virus is tested for its ability to "recognize" the suspected virus; this confirms that the virus in the animal's body is the same as the virus that has been isolated in the laboratory.

Viruses are often both species-specific and tissue-specific. This means that they may only grow in certain types of cells from certain animals. This can make it difficult to isolate viral agents from many fish because there may not be a commercially available cell-line for an individual fish species. Many cell-lines which are commercially available originate from coldwater fish such as salmonids, and may be less suitable for warmwater species. It is impossible to develop serology as a tool until after the virus has been isolated in the laboratory using a suitable cell line. For these reasons, viral agents of many fish are often suspected based on visualization of viral particles in tissues taken from sick fish using EM. The problem with this tool, when used alone, is that it is possible for viral particles to be present in tissue without causing harm, or disease. Therefore, identification of viral particles in tissues of sick fish does not prove that the observed virus is the cause of the disease in progress.


Management and Control of Viral Diseases
Viral diseases cannot be controlled with medication because they use the host's own cells for reproduction and survival. It is therefore prudent to provide "good nursing care" for fish suspected of having a viral infection so that their own natural defense mechanisms can work to eliminate infected cells. This involves maintaining excellent water quality, feeding fish a high quality diet, maintaining clean facilities, and keeping sick or potentially infected stock separate from all other animals.

Equipment, boots, and hands should be washed with a disinfectant after either handling or being close to potentially infected stock. Chlorine bleach is an excellent virucidal agent and can be used to disinfect equipment. Concentrations of 10 mg/l for one hour will kill most infectious particles (See IFAS Extension Fact Sheet VM-87). When using bleach, however, it is imperative to keep in mind that it is extremely toxic to fish. Residual chemical or strong fumes are lethal to fish. An alternative to bleach is quaternary ammonium compounds. They are effective virucidal agents and can be used to disinfect equipment; they also are suitable for use as a foot bath. Although quaternary ammonium compounds are not as toxic to fish as chlorine, all items must be thoroughly rinsed before being placed in contact with live fish.

Before introducing new fish into established breeding populations, a three- to four-week quarantine period should be observed. It is not realistic to design the quarantine period to prevent introduction of viruses because so little is known about viral diseases of fish. Instead the quarantine period should be designed to prevent the introduction of bacterial and parasitic diseases. Methods to accurately identify specific viral diseases of fish are lacking. There is no means of screening fish which may be carrying suspected viral diseases, no way of determining whether or not they may serve as a source of infection to other fish, or how long they may remain infectious. Development of quarantine strategies that are effective against viruses will require answers to each of these questions before reasonable prevention or avoidance recommendations can be made.

For many infectious diseases of fish there is a temperature range where the level of sickness and death in a population is most severe. For example, channel catfish virus disease generally causes most severe losses when water temperatures reach or exceed 25C (77F). Under experimental conditions, mortality rate decreased dramatically when water temperature was lowered from 28C (82F) to 19C (66F). For species which are reared in temperature-controlled environments, manipulation of environmental temperature as a means of minimizing the impact of viral disease is worth pursuing.


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