Course Content
Microscopes and Microscopy
MICROSCOPES AND MICROSCOPY OBJECTIVES By the end of this topic, the trainee should be able to: 1.Name various types of microscopes. 2.State the function of parts of a microscope. 3.Describe the use of compound light microscopes describe care and maintenance of compound microscopes. 4.Describe preparation of microscope slides
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The Cell
OBJECTIVES By the end of this topic, the trainee should be able to: 1.Define and explain meaning of terms. 2.State types of cells. 3.Describe the cell structure under the light microscope. 4.State the functions of cell organelles. 5.Describe the process of mitosis and meiosis. 6.Describe physiological processes of cells. 7.describe the techniques of cell isolation. 8.Describe the procedure of temporary cell preparation.
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Microorganisms
OBJECTIVES By the end of this topic , the trainee should be able to: 1.Classify the major groups of microorganisms. 2.State the general characteristics of each group. 3.Explain their mode of nutrition and reproduction. 4.Describe culture media. 5.Describe culturing techniques for bacteria. 6.Describe methods for determining bacteria population. 7.Describe sterilization and disinfection techniques.
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Immunological Techniques
OBJECTIVES By the end of this topic, the trainee should be able to: 1.Define terms. 2.Describe types of immunity. 3.Describe types of immune cells. 4.Describe the lymphoid organs and tissues. 5.Describe serological and immunological techniques.
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Herbarium Techniques
OBJECTIVES By the end of this topic , the trainee should be able to: 1.Explain terms 2.Describe importance of collecting and preserving herbarium specimens 3.Describe sources of herbarium specimens 4.Describe collection of herbarium specimens 5.Describe preservation of herbarium specimens 6.Describe display of herbarium specimens
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Museum Techniques
OBJECTIVES By the end of this topic, the trainee should be able to: 1.Explain terms. 2.Describe importance of collecting and preserving museum specimens. 3.Describe sources of museum specimens. 4.Describe collection of museum specimens. 5.Describe preservation of museum specimens. 6.Describe display of museum specimens
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Vivarium Techniques
OBJECTIVES By the end of this topic, the trainee should be able to: 1.Explain terms. 2.Describe importance of vivarium. 3.Describe essential features of a vivarium. 4.Describe construction of a vivarium. 5.Describe maintenance of a vivarium.
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Aquarium Techniques
OBJECTIVES By the end of this topic, the trainee should be able to: 1.Explain terms. 2.Describe importance of aquariums. 3.Describe essential features of an aquarium tank. 4.Describe construction of an aquarium tank. 5.Describe maintenance of an aquarium tank.
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Laboratory Animals
OBJECTIVES The objective of this chapter is to give a better understanding of the technical requirements regarding handling, care and maintained of various laboratory animals In this chapter, we will; 1. Identify the various types of laboratory animals. 2.Discuss the general care and handling of laboratory animals. 3. Describe the various methods of restraining and humane killing laboratory animals 4.Discuss care of specific disease free (SPF)and Gnotobiotic animals
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Introduction to Ecology
OBJECTIVE By the end of this module, the trainee should be able to: 1.Explain terms. 2.Describe biotic and abiotic factors. 3.Explain adaptation of organisms to terrestrial and aquatic environment. 4.Describe the energy flow in ecosystem. 5.Explain estimation of population in ecosystem. 6.Describe influence of human activities on environment. 7.Describe basic biogeochemical cycles.
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Plant Anatomy and Physiology
OBJECTIVES By the end of this topic, the trainee should be able to: 1.Describe of plant parts and tissues. 2.Describe functions of various plant tissues. 3.Describe processes in plants .
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Biology Techniques For Science Laboratory Technicians
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Inoculation and Inoculation Methods for Lab Animals 

Inoculation of laboratory animals involves introducing infectious agents, such as bacteria, viruses, or parasites, into the animals for research purposes, including the study of diseases, vaccine development, or testing the efficacy of treatments. The methods of inoculating lab animals can vary depending on the nature of the infectious agent and the desired outcomes. Here are some common methods of inoculating laboratory animals:

  1. Injection:

  • Intraperitoneal (IP) Injection: The infectious agent is injected into the peritoneal cavity, which is the space surrounding the abdominal organs. This method allows for direct access to the bloodstream and widespread dissemination of the agent.
  • Intravenous (IV) Injection: The infectious agent is injected directly into a vein. This method ensures rapid and systemic distribution of the agent throughout the body.
  • Subcutaneous (SC) Injection: The infectious agent is injected under the skin. This method allows for slower release and local infection of the surrounding tissues.
  • Intradermal (ID) Injection: The infectious agent is injected into the layers of the skin. This method is commonly used for testing the immune response to specific antigens.

2. Inhalation:

    • Inhalation Exposure: Animals are exposed to infectious agents in the form of aerosols or airborne particles. This method simulates natural routes of infection for respiratory pathogens.

    3. Oral Administration:

    • Oral Inoculation: The infectious agent is administered orally, usually by gavage or through the drinking water or feed. This method is commonly used for studying gastrointestinal infections.

    4. Intranasal:

    • Intranasal Instillation: The infectious agent is introduced into the nasal cavity by applying drops or spraying it into the nostrils. This method allows for localized infection of the respiratory tract.

    5. Inoculation via Vector:

    • Vector-Borne Inoculation: Some infectious agents, such as parasites or viruses transmitted by vectors like mosquitoes or ticks, can be introduced into animals by allowing the vector to feed on the animal.

    6. Surgical Implantation:

    • Surgical Implantation: Infectious agents or infected tissue can be directly implanted into animals through surgical procedures. This method is used for specific research purposes and requires appropriate aseptic techniques.

    It is important to follow ethical guidelines, institutional protocols, and regulatory requirements when inoculating laboratory animals. Animal welfare should be a top priority, and steps should be taken to minimize pain, distress, and infection risks.

    Factors to consider when dosing Lab Animals 

    Dosing laboratory animals with substances, such as drugs or experimental compounds, is a critical aspect of many research studies. Proper dosing ensures accurate and reproducible results while minimizing potential harm to the animals. Here are some key considerations for dosing laboratory animals:

    1. Species and Strain:

    • Different species and strains of animals may have variations in metabolism, drug sensitivity, and physiology. It is important to consider these factors when determining the appropriate dosing regimen.

    2. Body Weight:

    • Dosing of laboratory animals is often based on body weight. The weight of the animal helps determine the appropriate dosage to achieve the desired concentration of the substance being administered.

    3. Route of Administration:

    • The route of administration can vary depending on the substance and the goals of the study. Common routes include oral (gavage or drinking water), intravenous (IV), intraperitoneal (IP), subcutaneous (SC), intramuscular (IM), or topical. Each route has its own considerations and potential effects on absorption and bioavailability.

    3. Dose Calculation:

    Doses can be calculated based on different parameters, such as milligrams per kilogram of body weight (mg/kg), milligrams per square meter of body surface area (mg/m²), or a fixed dose per animal. The choice of dose calculation method depends on the substance being administered and the purpose of the study.

    4. Dose Volume and Concentration:

    • The volume and concentration of the substance being administered should be determined to achieve the desired dose. It is important to consider the solubility, stability, and toxicity of the substance when determining the appropriate concentration and volume for administration.

    5. Frequency and Duration:

    • The frequency and duration of dosing depend on the study protocol and the desired effects of the substance. Some studies may require single or intermittent doses, while others may involve repeated or chronic dosing over a specific time period.

    6. Monitoring and Adjustment:

    Regular monitoring of animals during the dosing period is essential to ensure their well-being and to detect any adverse effects. Monitoring may include body weight measurements, clinical observations, and sample collection for analysis. If necessary, dosing adjustments may be made based on the observed response or toxicity.

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