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We spend $6 billion on athletic shoes a year. The National Cancer Institute spent $2.4 billion in 1997 trying to find a cure for cancer.

Caring for Lab Animals

Animals used for research depend on their human caretakers for their day-to-day needs. To produce quality research in animals that can be applied to humans, we must have animals that are healthy and happy—in other words, they must receive food, water and social stimulation appropriate for their species.

Within an animal facility, environmental conditions such as temperature, humidity, light, noise, and air exchange are regulated and evaluated for proper level and consistency. The animal’s environment affects the animals’ health, and therefore potentially affects the outcome of a study in which they are used as models. Control of environmental variables ensures that laboratory animals are provided with the stable living conditions necessary for well-designed experimental research projects. A consistent environment in rooms and cages is important in research facilities. For animals housed outdoors, protection from heat, cold, and other environmental extremes must be provided.

Two terms commonly used to describe animal housing are conventional and barrier. In conventional rooms, no special precautions are taken to prevent the introduction of disease into the colony. You house your pets in a conventional facility—your house. You feed them, groom them, and vaccinate them against common diseases, but you don’t keep them in a special room or pen to isolate them from the rest of their environment. Most of the larger laboratory animals, such as dogs, cats, pigs, and sheep, are housed in conventional cages and rooms.

Barrier housing involves special cages and procedures, like sterilizing the bedding and passing the room air through special filters. A barrier can be a cage, a room, or even an entire facility. The object is to guard against infection or, if the protocol involves the study of diseases that infect humans or other animals, to keep the disease-causing organism from getting out.

Since many animals spend most of their lives in cages, these enclosures are an important aspect of the laboratory animal environment. Cages must provide the animals with comfort and safety. The animals must be able to move freely within them and have access to clean food and water. Placing too many animals in a cage or using cages that are too small causes stress in the animals. Such stress can affect the animals physiologically and behaviorally, and can alter research data.

The term “bedding” refers to any substance used as an absorbent in waste collection pans beneath wire floors of a cage as well as the actual bedding material that comes into direct contact with the animals. Bedding is part of a laboratory animal’s environment, and thus must meet certain criteria. It must not contain nutrients or be treated with deodorizers, disinfectants, or other chemicals, as these could affect the animals and ultimately the research. Changing to a different bedding material in the middle of an experiment could also affect the experiment’s results. Bedding must not create levels of dust that irritate the animal’s lungs and eyes; additionally, contact bedding must be free of sharp, splintery edges or other defects that could injure animals and make nest-building difficult.

There is no ideal bedding material for all species in all applications. Ground corn cob, wood shavings, compressed paper and straw (for large animals) are the most common types of bedding.

Cage and Equipment Sanitation
In a laboratory animal facility there are generally four definable and achievable levels of sanitation:

  1. Cleaning: The complete removal of all visible soil from a surface.
  2. Sanitization: The process by which the number of bacteria and other organisms living on inanimate objects is reduced enough to prevent disease. Sanitization does not necessarily totally eliminate all microorganisms, but is aimed at reducing total numbers of organisms.
  3. Disinfection: A more intense form of sanitation which is designed to reduce to a harmless level the number of a specific type of organism, specifically pathogenic organisms (but not necessarily spores), on an object.
  4. Sterilization: The process of rendering an object totally free of all living organisms, including spores.

The Animal Welfare Act regulations set minimum cleaning standards for cages, feeders and water bottles used for many laboratory animal species. Regular sanitization of racks, feeders, watering devices, and other pieces of equipment keeps them clean and contamination-free.

Environmental Enrichment
Environmental enrichment is an attempt to reduce stress in laboratory animals by allowing them to do the same sorts of things they would do if they were living in the wild. The Guide refers to environmental enrichment as behavioral management, and divides this management into three categories:

  • Structural environment consists of components of the primary enclosure, such as resting boards or perches.
  • Social environment consists of contact with other members of the same species, either direct or by sight, sound, or smell.
  • Activity includes exercise, exploration, and social interaction with handlers.

Enrichment can be as simple as providing frogs in a tank with a piece of plastic pipe in which to hide, or providing paper material for mice to build a nest. Housing compatible animals of the same species together in the same enclosure is considered a very desirable method of providing the opportunity for species-typical behavior, such as grooming and mating, in species that normally live in groups.

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Donít people choose careers in medical research using animals because it is an easy way to receive funding dollars and make high salaries?
No. Most researchers could make more money in other careers. People choose to go into research because they want to find answers to complicated questions. Animal research is often a vital step in finding the answers. more...