* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Outline Ch 31 File
Survey
Document related concepts
Race and health wikipedia , lookup
Eradication of infectious diseases wikipedia , lookup
Focal infection theory wikipedia , lookup
Epidemiology wikipedia , lookup
Diseases of poverty wikipedia , lookup
Compartmental models in epidemiology wikipedia , lookup
Autotopagnosia wikipedia , lookup
Preventive healthcare wikipedia , lookup
Marburg virus disease wikipedia , lookup
Public health genomics wikipedia , lookup
Hygiene hypothesis wikipedia , lookup
Disinfectant wikipedia , lookup
Transcript
13:1 Understanding the Principles of Infection Control Understanding is essential to all health care workers Provide a basic knowledge of how disease is transmitted Main emphasis on prevention of disease Microorganisms or Microbes Small living organisms Not visible to the naked eye Microscope must be used to see them Found everywhere in the environment 13:1 Understanding the Principles of Infection Control Understanding is essential to all health care workers Provide a basic knowledge of how disease is transmitted Main emphasis on prevention of disease Microorganisms or Microbes Small living organisms Not visible to the naked eye Microscope must be used to see them Found everywhere in the environment Found on and in the human body Many are part of normal flora of body May be beneficial Found on and in the human body Many are part of normal flora of body May be beneficial Microorganisms or Microbes (continued) Called nonpathogens when not harmful to the body Some cause infections and disease Called pathogens (germs) when able to harm the body Sometimes nonpathogenic microorganisms can become pathogenic Bacteria Protozoa Fungi Rickettsiae Viruses Bacteria Simple, one-celled organisms Multiply rapidly Classified by shape and arrangement Bacteria – Cocci Round or spherical in shape Diplococci Streptococci Staphylococci Examples of diseases Bacteria – Bacilli Rod-shaped Occur singly, in pairs, or in chains May have flagella Ability to form spores Examples of diseases Bacteria – Spirilla Spiral or corkscrew shape Includes comma-shaped vibrio and corkscrew spirochete Diseases include syphilis and cholera Antibiotics Antibiotics are used to kill bacteria Some strains of bacteria have become antibiotic-resistant When antibiotic-resistant, the antibiotic is no longer effective against the bacteria Protozoa One-celled, animal-like organism Found in decayed materials and contaminated water May have flagella for movement Some are pathogenic Examples of diseases Fungi Simple, plant-like organisms Live on dead organic matter Yeast and molds Can be pathogenic Examples of diseases Antibiotics do not kill Antifungal medications Rickettsiae Parasitic microorganisms Cannot live outside the cells of another living organism Transmitted to humans by the bites of insects (e.g., fleas, lice, ticks, mites) Examples of diseases Antibiotics are effective against many of them Viruses Smallest microorganisms Must use electron microscope to see Must be inside another living cell to reproduce Spread by blood and body secretions Very difficult to kill Cause many diseases Virus – Hepatitis B Also called serum hepatitis Caused by HBV Transmitted by blood serum and body secretions Affects the liver Vaccine available for protection Vaccine is expensive Virus – Hepatitis B (continued) Vaccine given in a series of three injections By law, employers must provide vaccine at no cost to employees with occupational exposure to blood or other body secretions If employee refuses, a written statement must be signed documenting refusal Hepatitis C Caused by HVC Transmitted by blood and blood-containing body fluids Many infected individuals are asymptomatic Others have mild symptoms Can cause severe liver damage Hepatitis C (continued) Currently, no vaccine ready for use Vaccine is in development stage Extremely difficult to destroy HVC Can survive several days in dried blood Health care workers must follow precautions to protect against virus Acquired Immune Deficiency Syndrome (AIDS) Caused by the Human Immunodeficiency Virus (HIV ) Suppresses the immune system Individual becomes susceptible to cancers and infections that would not affect a healthy person No cure presently and no vaccine Important to take precautions to prevent Growth of Microorganisms Most prefer warm environments Most prefer darkness Need source of food and moisture Need for oxygen varies Human body is ideal supplier of all the requirements How Pathogens Cause Infection and Disease Some produce poisons called toxins Some cause an allergic reaction Others attach and destroy the living cells they invade Classifications of Diseases and Infections Endogenous Exogenous Nosocomial Opportunistic Endogenous Originates within the body Examples: metabolic disorders, congenital abnormalities, tumors, and infections caused by microorganisms within the body Exogenous Originates outside the body Examples: radiation, chemical agents, trauma, electric shock, and temperature extremes Nosocomial Acquired in a health care facility Usually present in the facility and carried by health care workers to the patient Many are antibiotic-resistant Can cause serious and even life-threatening infections Nosocomial (continued) Common examples are staphylococcus, pseudomonas, enterococci Infection control programs are used to prevent and deal with nosocomial infections Opportunistic Infections that occur when the body’s defenses are down Usually do not occur in normal immune system Examples: Kaposi’s sarcoma (rare type of cancer) and Pneumocystis carinii pneumonia in individuals with AIDS Chain of Infection Must be present for disease to occur and spread from one individual to another – Causative agent – Reservoir – Portal of exit – Mode of transmission – Portal of entry – Susceptible host Causative Agent Pathogen must be present Examples include bacteria or virus Reservoir Place where causative agent can live Examples: human body, animals, and the environment Portal of Exit Way for causative agent to escape from the reservoir Examples: urine, feces, saliva, blood, tears, mucous discharge, sexual secretions, and draining wounds Mode of Transmission Must be transmitted to another reservoir or host where it can live Direct contact: person-to-person, spread by physical or sexual contact Indirect contact: from contaminated substances to the person Portal of Entry Way to enter a new reservoir or host Examples: breaks in the skin or mucous membranes, respiratory tract, digestive tract, genitourinary tract, and circulatory system Susceptible Host Individual who can contract the disease Usually the person can fight off the causative agent and not contract the disease Common Body Defenses Mucous membranes Cilia Coughing and sneezing HCL in the stomach Tears Common Body Defenses (continued) Fever Inflammation response – leukocytes Immune response – antibodies and cell secretion Increased Susceptibility When large numbers of pathogens invade the body When body defenses are weak Ending the Chain of Infection Eliminate any step in the chain and infection is stopped Follow practices to interrupt or break the chain Remember, pathogens are everywhere Prevention is a continuous process Aseptic Techniques Major way to break the chain of infection Asepsis: absence of disease-producing microorganisms or pathogens Contaminated: any object or area that may contain pathogens Major aim: maintaining cleanliness and eliminating or preventing contamination Common Aseptic Techniques Handwashing Good personal hygiene Disposable gloves Proper cleaning of instruments and equipment Thorough cleaning of environment Levels of Aseptic Control Antisepsis Disinfection Sterilization Antisepsis Prevent or inhibit the growth of pathogenic organisms Usually not effective against spores and viruses Can usually be used on the skin Examples: alcohol and betadine Disinfection Destroys or kills pathogenic organisms Not always effective against spores and viruses Chemical disinfectants are used Can irritate or damage the skin, so mainly used on objects, not people Examples: bleach solutions and zephirin Sterilization Destroys all microorganisms Steam under pressure, gas, radiation, and chemicals Autoclave is the most common equipment used Summary Important for health care workers to know and use proper aseptic techniques Prevents spread and transmission of disease 13:2 Washing Hands Major aspect of standard precautions Most important aseptic technique Hands are perfect media for the spread of pathogens Purpose of Handwashing Prevent and control spread of pathogens Protect the health care worker from disease and illness When to Wash Hands When arrive at facility Immediately before leaving facility Before and after every patient contact Anytime the hands become contaminated during a procedure Before applying gloves Immediately after removing gloves When to Wash Hands (continued) Before and after handling any specimen After contact with any soiled or contaminated item After picking up any item off the floor After personal use of the bathroom After you cough, sneeze, or use a tissue Before and after any contact with mouth or mucous membranes Principles of Handwashing Use soap as a cleansing agent Use warm water Use friction Clean all surfaces Point fingertips down while washing hands Use dry paper towels to turn faucet on and off Clean nails 13:3 Observing Standard Precautions Blood and body fluids are the main ways pathogens are spread Major pathogens: HBV, HBC, HIV Extreme care must be taken at all times when an area, object, or person is contaminated with blood or body fluids Bloodborne Pathogen Standards Established in 1991 by OSHA Must be followed by all health care workers Civil penalties if not implemented and followed Regulation Requirements Written Exposure Control Plan Identify all employees with occupational exposure Provide hepatitis B vaccines free of charge Provide personal protective equipment (PPE) Regulation Requirements (continued) Provide adequate handwashing facilities and supplies Ensure worksite is maintained in a clean, sanitary condition Follow measures for immediate decontamination of surfaces when contaminated Regulation Requirements (continued) Dispose of infectious waste correctly Enforce rules of limited activities in any potentially contaminated area Provide appropriate containers for contaminated sharps and other contaminated items (color coded and labeled) Regulation Requirements (continued) Post signs at the entrance to work areas with occupational exposure to biohazardous materials Provide a confidential medical evaluation and follow-up for any employee who has an exposure incident Provide training to employees Needlestick Safety and Prevention Act Passed by Congress in 2000 Centers for Disease Control and Prevention (CDC) estimated 600,000 to 800,000 needle sticks occur each year OSHA revised Bloodborne Pathogen Standard to requirements of this act Employer Requirements Identify and use effective and safer medical devices Incorporate changes in annual update of Exposure Control Plan Solicit input from nonmanagerial employees who are responsible for direct patient care Employer Requirements (continued) Maintain a sharps injury log Ensure that every employee uses standard precautions at all times Standard Precautions Rules developed by the CDC Every body fluid must be considered potential source of infection All patients must be considered potential source of infection When to Use Standard Precautions Any situation where you might come in contact with – Blood or any fluid that contains blood – Body fluids, secretions, and excretions – Mucous membranes – Nonintact skin – Tissue or cell specimens Gloves Gloves must be changed after contact with each patient When removing gloves, do not contaminate your skin Hands must be washed immediately after removal of gloves Gloves must not be reused When to Wear Gloves Whenever contact with body fluids, secretions, or excretions When handling or cleaning contaminated items or surfaces Performing any invasive procedure Performing venipuncture or blood tests Gowns Worn during procedures that may cause splashing or spraying Helps prevent contamination of clothing or uniforms Contaminated gowns must be handled per policy Hands must be washed immediately after removing gown Masks and Protective Eyewear or Face Shields Worn during procedures that may cause splashing or spraying Prevents exposure of the mucous membranes of the mouth, nose, and eyes Masks are used once and discarded – change every 30 minutes following correct procedure and immediate handwashing Masks and Protective Eyewear or Face Shields (continued) Protective eyewear and face shields protect front, top, bottom, and sides of eyes If not disposable, must be cleaned and disinfected before reuse Sharp Objects Use extreme caution to avoid cuts or punctures When possible, use safe needles or needleless system Follow policies regarding handling needles Use sharps containers Follow laws regarding disposal of sharps Spills and Splashes Wipe up immediately Wear gloves when wiping up Use disposable cleaning clothes Use disinfectant with 10% bleach solution Clean all contaminated surfaces For large spills, can use absorbent powder Resuscitation Devices Use to avoid the need for mouth-to-mouth resuscitation, whenever possible Place in convenient location that is readily accessible Waste and Soiled Linen Wear gloves Follow agency policy Use biohazard bags appropriately Reporting Cuts and Injuries Report any cut or injury, needle stick, or splashing of blood or body fluids immediately Follow agency policy Summary Standard precautions must be followed at all times by all health care workers Observing these precautions can help break the chain of infection Allow health care workers to protect themselves, their patients, and all other individuals 13:4 Sterilizing with an Autoclave Equipment that uses steam under pressure or gas Most effective method of sterilization Available in various sizes and types Preparation of equipment or supplies Wrapping items for autoclaving Sterilizing with an Autoclave (continued) Autoclave indicators Loading the autoclave Time period for sterilization Care of items after autoclaving Dry heat sterilization Follow directions on specific autoclave Follow agency policy for sterile supplies 13:5 Using Chemicals for Disinfection May not kill spores and viruses Disinfect, but do not sterilize Used to disinfect instruments that do not penetrate body Preparation of items Chemical solutions used Using Chemicals for Disinfection (continued) Read manufacturer’s instructions Antirust tablets or solutions added at times Requirements for chemical disinfection Chemical must completely cover items Care of chemical solutions 13:6 Cleaning with an Ultrasonic Unit Uses sound waves for cleaning Method of aseptic control Only ultrasonic solutions should be used in unit Permanent tank of ultrasonic unit Items cleaned in ultrasonic unit Cleaning with an Ultrasonic Unit (continued) Care of glass beakers Care of the permanent tank Read manufacturer’s instructions before using any ultrasonic unit Summary Different methods provide different levels of aseptic control Method used depends on equipment available and level of aseptic control required Read manufacturer’s instructions Clean, rinse, and dry all equipment before processing Handle items carefully after processing 13:7 Using Sterile Techniques Many procedures require use of sterile techniques to protect a patient from infection Surgical asepsis keeps an object or area free from living organisms Sterile: free from all organisms Contaminated: organisms and pathogens present Using Sterile Techniques (continued) Important to differentiate between sterile and contaminated areas or items while using sterile technique Correct techniques must be strictly followed to maintain sterility and prevent contamination Using Sterile Techniques (continued) Clean working area required Handling of sterile supplies Sterile field: area used for placement of sterile supplies Rules of working within sterile area Removing Articles from Sterile Wraps Drop technique Mitten technique Transfer forceps Wet Surfaces Organisms and pathogens travel quickly through wet surfaces If sterile item gets wet, contamination has occurred Use extreme care while pouring solutions into sterile bowls Sterile Gloves Worn while performing sterile technique Make sure tray is open and all sterile items are ready before putting sterile gloves on your hands Are sterile on the outside and contaminated on the inside Observe correct technique when putting on sterile gloves Sterile Gloves (continued) When gloves are on, hold hands away from body and above waist Handle only sterile objects when wearing sterile gloves Change gloves any time contamination occurs Sterile Dressings Obtain proper authorization Use an infectious waste bag Wear disposable gloves for removing a dressing Note type, color, and amount of drainage on dressing Put on sterile gloves to cleanse area and apply new dressing Sterile Dressings (continued) Cleanse wound or incision with correct technique Apply inner and outer dressing, taking care to maintain sterility of dressings Remove sterile gloves properly and dispose of properly Sterile Dressings (continued) Apply tape correctly to hold dressing in place If contamination occurs at any time during the procedure, start over Commercially prepared sterile supplies are widely available 13:8 Maintaining Transmission-Based Isolation Precautions Some diseases are communicable – caused by organisms that can be transmitted easily These precautions are in addition to the Standard Precautions Maintaining Transmission-Based Isolation Precautions (continued) Help prevent spread of disease to others Protects patient, family, and health care workers Type used depends on the causative organism of the disease How Communicable Diseases Spread Direct contact with a patient Contact with dirty linen, equipment, and supplies Contact with blood, body fluids, secretions, and excretions Terms Defined Contaminated or dirty: items that contain disease-producing organisms; must not be touched unless protected Clean: items that do not contain the organisms; protect these areas from contamination Classifications of Precautions Standard precautions Airborne precautions Droplet precautions Contact precautions Protective or Reverse Isolation Method used to protect certain patients from organisms present in the environment Used mainly for immunocompromised patients Precautions vary depending on patient’s condition Summary Exact procedures for maintaining transmission-based isolation will vary from one facility to another Variations caused by different factors Know and follow procedures at your facility Basic principles remain the same in any facility and are directed toward preventing the spread of disease