Course Content
Laboratory Design and Layout
In this topic. we will; 1.Discuss the importance of laboratory design and layout. 2.Describe standards for a good science laboratory. 3.Describe the essential features of a prep room and a laboratory store. 4.Describe the basic laboratory services
0/6
Laboratory Safety and Housekeeping
Objectives To highlight the importance of laboratory housekeeping practices and how its proper integration into laboratory management can: 1.Create order and good organization 2.Increase safety 3.Increase efficiency 4.In this chapter, we will discuss 5.The importance of laboratory housekeeping 6.Ways of enhancing good laboratory housekeeping practices
0/3
Personal Protective Equipments
OBJECTIVES The objective of this topic is to highlight the importance of protective equipment’s and how its proper integration into laboratory management can to reduce: 1.Injury and deaths to laboratory users 2.Contamination of laboratory reagents and specimens  In this chapter, we will 1.Discuss the importance of laboratory protective equipment. 2.Describe the various types of laboratory protective equipment 3.Describe how to use laboratory protective equipment’s. 4.Describe how to care for laboratory protective equipment’s
0/3
Laboratory Hazards
OBJECTIVES The objective of this chapter is to highlight the importance of laboratory hazards, how to identify and get rid (or minimize) of them from the laboratory. In this chapter, we will 1.Describe the various types of laboratory hazards and. 2.Describe causes of laboratory hazards 3.Describe the general ways to avoid laboratory hazards.
0/9
First Aid
OBJECTIVES The objective of this chapter is to prepare you as a first aider, psychologically and emotionally, as well as by giving practical advice on what you should and should not do in a laboratory emergency. After studying the material in this chapter, you will be able to: 1.Define first aid 2.Recognize the reasons why first aid is given 3.Manage an emergency situation safely 4.Assess the sick or injured persons. 5.Identify general directions for giving first aid
0/13
Laboratory Apparatus
This topic focuses on the importance of handling, care and cleaning of laboratory wares. In this chapter, we will 1.Classify the various laboratory wares. 2.Discuss use of various laboratory wares 3.Describe various cleaning methods for various laboratory stains 4.Describe the various laboratory cleaning agents
0/2
Laboratory Cleaning
OBJECTIVES The objective of this topic is to learn the importance of ensuring general and overall cleanness of laboratory items and surfaces. In this chapter, we will: 1.Discuss the various types of dirt and stains. 2.Discuss the general methods of cleaning laboratory apparatus and surfaces. 3.Describe various types cleaning agents used for cleaning laboratory items. 4.Outline preparation of laboratory cleaning agents. 5.Discuss various methods used in sterilization and disinfections of laboratory items.
0/7
Sterilization Techniques
Sterilization, also called biological cleaning is a bit more involving than chemical cleaning. This is because it involves total killing of microorganism’s present on the apparatus. There are two methods used in sterilization. 1.Physical methods 2.Chemical methods
0/5
Laboratory Waste Management
OBJECTIVES This chapter presents methods for the management and ultimate disposal of laboratory waste that may present as hazards. The objectives of these chapter are b.To identify types of laboratory wastes c.To identify sources of laboratory wastes d.To describe methods of managing laboratory wastes
0/3
Laboratory Chemicals and Reagents
OBJECTIVES The objectives of this chapter are to learn the importance of proper handling, preparation, storage and disposal of laboratory chemicals and reagents. In this chapter, we will 1.Discuss the various categories of laboratory reagents. 2.Discuss the general storage guidelines for laboratory chemicals. 3.Describe in details the various methods of handling, storage, and disposal of laboratory chemicals. 4.Discuss how to segregate non compatible laboratory chemicals. 5.Discuss the basic terms and concepts of preparing Solutions. 6.Describe how to prepare various laboratory reagents and solutions
0/6
Laboratory Solution Preparation
OBJECTIVES The objectives of these topic are: 1.To define terms used in solution preparation 2.To prepare various concentrations of solutions 3.To prepare bench reagents
0/3
Laboratory Equipments
OBJECTIVES The objective of this chapter are to give a better understanding of the technical requirements regarding installation, use and maintenance of various types of equipment which play an important role in performing laboratory tests. In this chapter, we will 1.Identify the various types of laboratory equipment’s 2.Discuss the use of the equipments. 3. Describe the components of the equipments. 4.Discuss the operational mechanisms of the equipments 5.Outline the general care and maintenance for the equipments
0/13
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
0/12
Cryogenic Technology
Cryogens are substances (liquids or fluids) usually at very extreme low temperatures (below –150 °C, –238 °F or 123 K). Cryogenic technology can be defined as the study of the production of low temperature fluids, measurements at low temperatures, and behavior of these materials at low temperature and how to produce them. It is also concerned with the application of low temperature processes and techniques
0/7
Glass Blowing Technology
OBJECTIVES In this chapter, we will 1.Define the term glassblowing 2.Discuss importance of glassblowing in the laboratory 3.Describe composition and properties of glass used for glassblowing 4.Describe various tools used for glassblowing 5.Describe glass blowing techniques used in making simple glass apparatus 6.Discuss various conditions encountered in glass blowing 7.Discuss how to correct conditions encountered in glass blowing
0/9
Vacuum Technology
OBJECTIVES In this chapter, we will 1.Define the term vacuum and degrees of vacuum 2.Discuss types of vacuum system 3.Describe how vacuum is created 4.Describe various types of vacuum pumps 5.Describe instruments for measuring vacuums 6.Discuss leaks and leaks detection in vacuum systems 7.Discuss materials used in vacuum system construction 8.Discuss vacuum cleaning techniques 9.Discuss applications of vacuums
0/11
Photographic Technology
Photography simply means writing, drawing or printing with light. Light is therefore most fundamental in photography because without it then no photographs will be produced. Light is a form of energy, it’s a source of all colors and its composed of different wavelengths, those that are of importance in photography are those that fall within the visible region of the electromagnetic spectra because they can be perceived by the human eye. These are composed of different colors e.g. red, blue green yellow orange etc.
0/15
Laboratory Inventory Management
OBJECTIVES The objective of this chapter is to give a better understanding of good inventory management practices . In this chapter, we will: 1.Describe the importance of good laboratory stock management practices 2.Define the various terms used in inventory management 3.Discuss ways to monitor, control and record laboratory stock
0/9
Laboratory Inspection
The laboratory inspection is the safety audit of the conditions and operations that occur on a daily basis in a specific laboratory. Laboratory inspections are conducted at least annually to ensure safety and compliance with all applicable lab safety regulations and guidelines. These inspections are also intended to provide a formal opportunity for laboratory personnel to ask questions regarding any aspect of lab safety in order to improve overall compliance. Laboratory inspectors need to have a greater understanding of safe laboratory operations. The lab inspector needs a higher level of laboratory safety training to be able to recognize problem areas and be able to ask questions and eliminate the hazards.
0/6
Laboratory Management
The objectives of this topic are to; 1.Describe what management is. 2.Explain the primary functions of management. 3.Describe the primary types of managers and the roles they play.
0/1
Principles of Laboratory Management
OBJECTIVES The objectives of this topic are to; 1.Describe what management is. 2.Explain the primary functions of management. 3.Describe the primary types of managers and the roles they play.
0/5
Schools and Theories of Management
The objectives of this topic are 1. To understand the way in which management thought has evolved in the West since 1900; 2. To appreciate how these 'theories' may be applied today; 3. To compare and contrast the various theories presented
0/7
Management Functions
OBJECTIVES 1. To describe the process of management's five functions: planning, organizing, staffing. leading, and controlling.
0/6
Delegation
Delegation is the process by which managers assign a portion of their total workload to others. It includes assigning formal authority and responsibility for completion of specific activities.
0/4
Line and Staff Relationship
The line and staff relationship is a form of organizational structure that exists in many companies. It refers to the relationship between line departments (also known as line units) and staff departments (also known as staff units).
0/1
Centralization and Decentralization
This refers to the extent to which decision-making power and authority is dispersed to lower levels. It also refers to the degree of delegation of duties, power and authority to lower levels of an organization.
0/1
Span of Control
Span of control management refers to the number of subordinates who report directly to a given superior.
0/1
Leadership
Leadership is an important aspect of management and the ability to lead is one of the keys to being an effective manager. Leadership is the art or process of influencing people so that they will strive willingly and enthusiastically toward achievement of group goals. Effective leaders must be able to influence the thoughts and behavior of others towards the accomplishment of some goals or goal.
0/3
Motivation
One of the most important functions of management is to create willingness amongst the employees to perform in the best of their abilities. Therefore the role of a leader is to arouse interest in performance of employees in their jobs through motivating them to act in the desired direction.
0/3
Effective Communication
Effective communication is a process of exchanging ideas, thoughts, knowledge and information such that the purpose or intention is fulfilled in the best possible manner.
0/5
Management Styles
OBJECTIVES The objectives of these topic are 1.Define the various types of management styles. 2.To discuss pros and cons of management styles. 3. Explain how we can determine which style to use in a variety of situations.
0/4
Labor Laws and Industrial Relationships
Labor laws refers to rules and regulations are put in place to govern the working relationship and protect the rights of employers and workers by clearly stipulating the obligations and responsibilities of each party to the employment. They are enforced by the Kenyan government agencies to ensure that there is harmony in the workplace
0/8
Woodwork Workshop Practice
Woodwork, also known as woodworking, is the craft or skill of creating objects or structures from wood using various tools and techniques. Woodwork encompasses a wide range of activities, from simple woodworking projects to complex furniture making and carpentry. It combines both practical skills and creativity to transform raw wood into functional or decorative items.
0/8
Metalwork Workshop Practice
Metalwork refers to the craft or skill of working with metal to create objects, structures, or components. It involves various processes, techniques, and tools to shape, manipulate, and join metal materials.
0/5
Plastics
Plastics are a group of synthetic materials made from polymers, which are large molecules composed of repeating subunits called monomers. Plastics have a wide range of applications due to their versatility, durability, lightweight nature, and ability to be molded into various shapes.
0/5
Laboratory Practice and Management
About Lesson

Views: 18

CARE, HANDLING AND SEXING LAB ANIMALS

Mice

Mice are omnivore’s animals, which feed on green vegetables, grains and pellet supplements. They eat most of their daily ration in the dark. Their incisors and molars wear down and regrow with use.  It is important to check that each mouse has the required teeth in good order or else they risk under-nutrition or malnutrition.

They mature and mate when at the age of between 6-8 weeks old. At this time, they should be kept in threes (trios) per cage i.e. one male: two females. Avoid inbreeding as these may result in drop in average litter size

Their estrous circle last between 4-5 days with a gestation period of 19-21 days. They give birth to a litter size of 7-8 and have a litter frequency of 5 times yearly. The young ones should be weaned at 21 days.

Sexing is done by observing the distance between the anus and genitals. This distance is usually greater in the male than in females.

Avoid handling a postpartum female or her litter for several days after birth. Handling and transporting at this time could cause the mother to reject her young or eat them. This risk can be reduced by:

  • Wearing plastic gloves, to eliminate human scent.
  • Place the dam in a separate cage while the litter is handled.
  • Rub the pups with bedding material from the home cage.

Taking a mouse by the tail is a common way of lifting the animal. However, this could be stressful and creates antagonism toward the handler. While the mouse is inside the cage, take the base of the tail between your thumb and index finger, then pick the animal up by the tail. Support the animal’s weight on your arm or the cage floor; never allow the animal to dangle.

Other methods for routine handling are to:

  • Cup the mouse in your open hand, but note: the mouse will try to escape (and will sometimes succeed).
  • Handle while inside a home cage tunnel.
  • Collect the mouse using the tunnel and transfer to your open hand.

To restrain the mouse, place the animal on a rough surface such as a cage lid. Hold the loose neck skin between your thumb and index finger, and then lift the mouse securing the tail between the fourth or fifth finger and palm of the same hand. Your other hand is free for injections or other procedures. To pick up newborn or mice less than two weeks old, take the loose neck/shoulder skin into thumb and index finger or cup the pup in your open hand.

Rats

Rats take about 10-12 weeks to mature, this is their mating age. Their estrous circle last for between   4-5 days and have a gestation period of between 21-23 days .During this time it is advisable to isolate pregnant rats and provide with nesting materials.

Rats give birth to between 7-8 litters and can give birth up to 7-9 times yearly .These young ones should be left in densely populated cages for at least one week after weaning

 To handle rats, pick them up by grasping them by the base of the tail, close to the body but do not suspend the rat by its tail or its upper body for a prolonged period. Support its body weight quickly, either on the cage top or on the arm of your lab coat.

Sexing is done by checking   morphology and position of their genital organs

Rabbits

Rabbits mate at the age of between 6-9 months.  They have no definite cycle. When the doe (female) is on heat, vulva and vagina become red, swollen and moist.

It is advisable to introduce the doe (female) into the buck’s (male ) cage and not vis versa then transfer the doe to larger cage with nesting materials after  24hrs.

 They have a gestation period of between 28-31 days. During this period, it is advisable to isolate pregnant rabbits and to provide with nesting materials. They give birth to up to four litters and for up to 4 times yearly.

The rabbit is picked up from cage with the ears by one hand in a firm grip and another hand is placed under the hindquarters to support the weight and then lifted gently. After removing from cage, the animal is placed in a non-slippery place, as it otherwise feels insecure and becomes frightened.

One hand is placed across the back of the animal with the thumb behind the shoulders and the other fingers well forward on the opposite side. The animal is lifted gently supporting its weight with other hand placing the palm uppermost under the hindquarters.

Guinea Pigs

Guinea pigs mate at the age of between 12-20 months. Their estrous circle can last for 16 days. Males should be placed in the cage with 5-10 females during mating.

Their gestation period takes  between 59- 72 days .During this time  Pregnant females should be isolated and placed in separate cages with nesting materials ,and fed with carrots, cabbages etc. apart from pellets.

 They give birth to up to three young ones and up to 3 times yearly

 Isolate pregnant rats and provide with nesting materials

Hamsters

Mating should be done at the age of between 7-9 weeks and should be done on the table under supervision to avoid female injuring the male genital after copulation. Their estrous circle last between 4-5 days

 They have a gestation period   of between   16 –17 days and give birth to six young ones in one birth (Litter size) their litter frequency is to up to 3-4 times yearly. Weaning should be done after 3-4 weeks.

 They should be kept in metal cages because they gnaw plastic cages. But should be provided with wood to gnaw otherwise their incisors will over grow hence making it difficult to feed

Xenopus Frog (African Clawed Toad)

They are easy to maintain in the laboratory and breeding can be induced at any time of the year, but they do not breed until they are 2 years old. They are maintained in aquariums made from old plastic or metal tanks with minimum size of 50X40X15 cm for stock and 30x20x20 cm for breeding. The tanks should be carried with transparent sheet and reinforced with wire

Adult stock can be maintained at ambient temperatures so long as it does not fall below 10oc but for breeding and raring the larvae, the temperatures should be raised and maintained at 23oc using an aquarium heater

Adult toads should be feed on earthworms and fine chopped liver at least twice a week and the water should be exchanged afterwards. The toads should be marked by clipping one or two claws.

Xenopus toads can be induced to breed by injecting them with pregynyl hormone, which will cause them to begin to sprawn. If sprawning does not occur, then temperatures in the aquarium need to be raised to 28 oc. After sprawning, the adults should be removed and the eggs distributed between containers so that at least each egg is in contact with the surrounding water and no eggs are left in the surrounding solid mass. Aeration of the tank is done by means of aquarium pump fitted to a diffuser block, these must be done gently

The newly hatched tadpoles may be feed on dried nettle powders. Metamorphosis occurs approximately after seven weeks, during these period, the larvae may be fed on microforms, daphnia etc. but after wards they can be feed on liver

Locust

Locust is also relatively easy to maintain in the laboratory as permanent stock. Cages should be made of glass-fronted containers of approximately 15 x15x 20 inches with a false floor of perforated zinc. The cages should be heated by means of electric bulbs one below the false floor and one above the floor i.e. in the locust compartment. The floor should be arranged such that containers of sand for egg laying may be placed underneath. The minimum size of the egg containers should be 4inches deep and 1.25 inches diameter

 It is essential to provide each cage with twiggy branches or a cylinder of large mesh wire netting to provide perching space to reduce chances for deformed adults i.e.  Unless the instars can hang freely when molting, most of them will deform  

Locust can tolerate a wide range of temperature but should be within the range of 28- 34oc. Excess humidity should be discouraged because these can favor diseases. Excess humidity can be noticed if condensation appears on the cages or if feces are soft or hard.

Locust should be provided with grass and sometimes wheat bran to feed on in cage. Do not overfeed them because this makes cleaning difficult

Eggs are laid in frothy pods  in holes excavated in  moist sand each pod contain between 30-300 eggs .The sand must be soft and sterilized in ovens and should always be sterilized after every period.  It should have good moisture content and should be 4inches deep beneath the floor of the cage. Do not use porous containers as they lose water easily .after checking for the presence of pods, cover them to avoid excessive evaporation and set to incubate at 28- 32 oc where they will hatch after 11-17 days

  1. Some people are allergic to locust therefore avoid overexposure to them

Earthworms

Earthworms are obtained by watering the ground with KMnO4 (aq) and allowing it to spread. These will attract earthworms. Collect the worms that come to the surface and rinse them before placing them in a wormery. The wormery is made to act in the form of a typical soil profile

 Drosophila

Drosophila are small flies, typically pale yellow to reddish brown to black, with red eyes. Many species have distinct black patterns on the wings. The plumose (feathery) arista, bristling of the head and thorax, and wing venation are characters used to diagnose the family. Most are small, about 2–4 millimeters long are larger than a housefly.

Male and female drosophila differ in many ways: Only males have a sex comb, a fringe of black bristles on the forelegs. The tip of the abdomen is elongate, somewhat pointed in females, and more rounded in males. The abdomen of the female has seven segments, whereas that of the male has only five segments.

Drosophila melanogaster is a popular experimental animal because it is easily cultured in mass out of the wild, has a short generation time, and mutant animals are readily obtainable. Drosophila species are widely used in studies of genetics, embryogenesis, and other areas. Drosophila are grown in media which is prepared by adding about 6g of agar to 35g  black treacle and 75g of oat meal to 560cm3 of distilled water  and boiling while stirring. Nipagin is added which inhibit mold growth. This quantity is distributed into about 60 specimen bottles and allowed to cool.

When the culture media have set, add few drops of baker’s yeast suspension, plug the container with cotton wool as soon as steam escapes. A piece of folded filter paper or non-medicated paper be placed in the container before the introduction of the flies. Optimum temperature for experimental mating is 25oc, prolonged exposure at 10oc  or below will kill the flies and a temperature of 28-30oc will result in sterile progeny.

Parasitic mites and molds are the major problems but they can be completely controlled by regular sub culturing if the flies are kept at 25oc because at this temperature, the life cycle of the flies is shorter than that of the pest

 Insect Larvae

Take about 1kg meat and tie it using a string to hang on a tree branch for about 1 week until it rot, insects will feed on it and will deposit their eggs in it, which shall hatch into larvae

 Amoeba

Amoeba is cultured in shallow glass containers containing about 2 cm deep culture solutions e.g. chackleys media, which is prepared as a stock solution and diluted for use. It contains  

NaCl =16g

NaHCO3 = 0.8g

KCl =0.4g

NaHPO4=0.2g

NB: Never use deionized water because it contains phenol, which is harmful. In addition, extreme cleanness should be emphasized

For use, take 5cm3 of stock solution and dilute to 1dm3 with distilled water. Distribute the medium to culture dishes and about four boiled wheat grains in each dish and allows bacteria and molds to grow and finally colpedium, which will become food for Amoeba. Now inoculate with Amoeba

Paramecium

Add 30g of boiled wheat grain to about one liter of chackeys media and inoculate with Bacillus subtilis then inoculate with paramecium 24 hours latter

Join the conversation

You cannot copy content of this page