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Download Inflammation & the Immune Response Unit VIII
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Inflammation & the Immune Response Keith Rischer, RN, MA, CEN, CCRN Objectives for this content Inflammatory response #1-3 Infection/sepsis/chain of infection #4-10 Physiologic immune response #11-16 Three Lines of Defense Anatomical Barriers Acute Inflammatory Response Immune System Anatomical Barriers: First Line of Defense Skin Mucous membranes Normal bacterial flora Clostridium difficile Yeast infections Normal Body Defenses Skin multilayer barrier, shed outer layer, contains fatty acids that kills some bacteria Lungs contain cilia in upper respiratory tract, macrophages Urinary Tract flush action of urine washes away bacteria Perry and Potter pg. 647 Ch 34 Table 34-3 Inflammatory Response Inflammatory Response Occurs in response to injury Localized Immediate Beneficial Appropriate level of response Non Specific Causes of Inflammation Physical Trauma Lacerations Burns Chemical- Bites Allergic response Micro-organisms Bacteria Inflammatory Response REDNESS SWELLING PAIN HEAT LOSS OF FUNCTION Purpose of inflammation Neutralizes and Dilutes Toxins Removes necrotic materials Provides an environment for healing Add “itis” to affected body part 4 Phases of Inflammation Vascular Think blood vessels Cellular Think Formation of Exudate Fluid WBC’s & neutrophils Healing regeneration of tissue or repair Vascular Phase: Blood Vessels Injury occurs Mediators intervene Vasodilation occurs Capillaries become more permeable Swelling and movement of fluid occurs Cellular Phase – Think WBC’s Injury occurs Chemotaxis begins White blood cells rush in to help Neutrophils Monocytes Macrophages Chemical Mediators Coordinators of the inflammatory response Histamine Prostagladins Cytokines Laboratory tests Erythrocyte sedimentation rate (ESR or sed rate) <20 mm/hr CRP – C reactive protein non specific test identifying the presence of inflammation <1.0 mg/dl Nursing Diagnosis Acute pain related to tissue trauma Impaired physical mobility related to discomfort Nursing Interventions Care will vary with causative agent and physical condition of the patient What are some nursing actions you might implement or anticipate How will you as the nurse evaluate the outcome Expected Outcomes… Healing of the wound or injury Prevent minor infections from becoming overwhelming to the body UTI vs. urosepsis Goals and outcomes will vary with each patient Remember that your outcomes will drive your interventions/cares Systemic Manifestations of Acute Inflammation Fever/chills Cytokines Benefits Increased killing of microorganisms Increased phagocytosis by neutrophils Increased activity of interferon Leukocytosis Neutrophils “left shift”…band cells Medications: NSAIDS Ibuprofen, Toradol Mechanism Inhibits Nursing Give of action prostaglandin synthesis implications w/food Elderly-high risk GI bleed Prolongs bleeding times 1 day Assess renal function-creatinine w/chronic use Medications: NSAIDS Salicylates – Aspirin Mechanism of action Inhibits production of prostaglandins Decreases platelet aggregation Nursing Give implications w/food Prolongs bleeding times 4-7 days Medications: Anti-histamines Benadryl, Ranitidine (Zantec), Famotidine (Pepcid) Mechanism of action – Block histamine at the receptor site – Decreases gastric acid secretion Nursing implications – With meals – Drowsiness/dizziness Medications: Corticosteroids Prednisone Mechanism of action Decrease inflammation by stabilizing neutrophils and lysosomes Inhibit prostaglandin synthesis Inhibits chemotactic cytokines Decreases mast cell stimulation Nursing implications Meals Chronic use complications – Risk of infection – Hyperglycemia – SE Normal Course of an Infection Incubation period Prodromal stage Full stage of illness Convalescence Infectious agents/pathogens Bacteria Virus Fungi Protozoa Bacteria Single cell Human cells vs. bacteria count in body Gram +/- Virus Most common affliction of humans Has no metabolism of it’s own Is incapable of replicating outside a living cell Takes over the metabolic machinery of host cells to survive and replicate What influences Pathogen survival? Food/Glucose Water Oxygen – aerobic/anaerobic Temperature pH light Reservoir A place where a pathogen can survive but may or may not multiply What is the most common reservoir? What is a carrier? Portal of exit For the pathogen to cause an infection it must exit the reservoir How can this happen? Mode of Transmission Direct or indirect What is the major mode of transmission in the health care setting? List the 4 categories of transmission Portal of entry Susceptible Host What factors increase our susceptibility to infection? Age Stress Nutritional status Current medical therapies Chemo Steroids Presence of disease Leukocytes Normal Blood Count of all WBC: 4,000-11,000/ul Neutrophils Monocytes Lymphocytes B cells: mediate the humoral immune response T cells: Mediate cellular immunity Elderly considerations Laboratory Studies CBC Hgb (12-16 g/dl) Hct (33-51%) Platelets (140-440 thou/cu mm) WBC (4.5-11.0 thou/cu mm) Differential Never-neutrophils (42-72%) Let-lymphocytes (20-44%) Monkeys-monocytes (<11.1%) Eat-eosinophils (<7.1%) Bananas-basophils (<3.0%) Cultures, gram stains and sensitivities Wound and skin cultures, body fluids, blood cultures Gram stains Sensitivities Anti-infective Drugs Determine if hypersensitive to medication Check for interactions with other drugs Educational needs of client Determining effectiveness Antibiotic Therapy Anti-fungal Cephalosporins Amoxicillin, Ampicillin Sulfonamides Cephalexin (Keflex) Penicillins Fluconazole, Nystatin Bactrim Tetracyclines Doxycycline Antibiotic Resistance Bacteria adapt in ways which make an antibiotic less effective or ineffective MRSA – Methicillin resistant staphylococcus aureus VRE – Vancomycin resistant enteroccus Vancomycin Anti-infective class other Effective against gram+ pathogens Used in potentially life-threatening infections when other drugs are not effective Action: binds to bacterial cell wall and cell death results Poorly absorbed in GI tract, may be given IV NCLEX Concepts of Emphasis 1. Define inflammation 2. Is inflammation always present with infection? 3. What are some patient examples that would limit or impair their inflammatory response? 4. What are the five physical manifestations of the inflammatory response? 5. Name each distinct phase of the inflammatory response and unique characteristics of each? 6. What are other causes of inflammation besides microorganisms? 7. What are some common diseases of chronic inflammation? 8. What are the medications that treat the inflammatory response? Sepsis Patho Infection (susceptible host) Inflammation-systemic SIRS Capillary permeability Vasodilation Progressive Sepsis/SIRS Septic shock Multiple Organ Dysfunction Syndrome (MODS) Article Case Study 70 yr female from NH CC: weakness, diarrhea x3 weeks Assessment: PMH: IDDM, HTN, CVA, COPD, UTI’s VS: T-97…101.8 P-109 R20-24 BP-93/41 91-98% a/o x3 Labs: WBC-26.5 Gluc 258 Article Case Study-Day 2 T-96.6 P-125 R-24 BP 80/43 Oriented to self only u/o 180cc over 8 hours Became more lethargic later in day T-96.5 P-100 R-24 BP 70/30 Labs WBC 41.9 Lactate 2.2 Article Case Study-Day 3 T-96.5 P-100 R 14-32 BP 70/50 Labs WBC 41.9 Creatinine 4.3 Vasoactive gtts Intubated Died day 7 Key Nursing Assessments Fever/chills Hypothermia Altered LOC/confusion Break in skin integrity Foley catheter Wound or incision Tachycardia HR >100 What if elderly or on beta blockers? Key Nursing Assessments Tachypnea RR >20 Hypotension SBP <90 SBP drop of >20-30mm/Hg Decreasing urine output…<30cc/hr Labs WBC Neutrophils Creatinine Nursing Diagnosis statements w/infection/sepsis? Ineffective breathing pattern Decreased cardiac output Ineffective tissue perfusion…manifested by: Altered mental status Behaviorial changes (restlessness) Renal…creatinine Acute confusion NCLEX Concepts of Emphasis 1. 2. 3. 4. Why is the older adult at risk for infection and cancer development? Inflammation and immunity are provided primarily through what body cells? Differentiate the 5 types of leukocytes and what each type does to protect the body from micro-organisms Which leukocyte is elevated in bacterial infection? 1. 5. 6. 7. Why… What body cell is able to recognize and destroy nonself cells? What vital sign changes are seen in sepsis? What assessment findings are seen in sepsis? Immune Response Passive Acquired Immunity Present at birth Short lived Body needs to develop own Active Acquired Immunity After birth Active Long-term Exposure to microorganisms immunizations What comprises the immune system? Bone Marrow WBC Lymph system Thymus Misc: Gland Tonsils, Spleen, Mucosa, Appendix Lymphocytes WBC that allow the body to remember and recognize previous invaders. Two types B lymphocytes T lymphocytes. NK or natural killer cells Specific Defenses Humoral (circulating) immunity Reside in B lymphocytes Mediated by antibodies (immunoglobulin) produced in B cell Produce antibodies when activated Cell-mediated defenses T –cells released when exposure to an antigen occurs 70-80% total lymphocytes Antigens An antigen is a substance that elicits an immune response Mostly comprised of protein A foreign substance that invades the body is called an antigen All cells have antigen unique to that individual allowing the body to recognize itself Humoral (antibody) Immunity Antibody mediated immunity Antibodies are produced by B cells Antibodies can bind to antigens Immunoglobulins (IgG, IgA, IgM, IgD, IgE) Cell Mediated T-cells able to recognize infected cells Cytotoxic Natural killer cell Cytokines Soluble, hormone-like protein produced by white blood cells act as a messengers between cells Stimulate or inhibit the growth and activity of various immune cells Can be beneficial or harmful Antipyretics Acetaminophen Ibuprofen Aspirin Immunopathology Alterations in Immunity and Inflammation Hypersensitivity Autoimmunity Hypersensitivity Immediate Allergy Anaphylaxis Delayed Poison Ivy Mantoux Test Hypersensitivity Nursing Assessment Think ABC’s How fast is the allergic response? How serious? What to ask the patient? Is this an allergic response or drug side effect? Name that response… Baby is crying continually and pulling at her ear. Mom is frantic. Young man- ate shellfish and then went to play tennis. Now is having difficulty breathing. Young woman went hiking in the woods last week & now has hives present and is scratching. 12 year old girl crying and shaking, holding her very swollen arm/elbow - injured playing baseball Autoimmunity Recognizes self antigens as foreign Produces antibodies against own tissue Examples Lupus Rheumatoid Arthritis How do immunizations work? The exposure (usually injection) to a small amt of virus triggers an immune response Help body prepare antibodies Type of immunity Active artificial NCLEX Concepts of Emphasis 1. 2. 3. 4. 5. 6. What are the similarities and differences between cellular and humoral immunity? How do vaccinations work? To be fully immune requires which three essential components of the inflammation/immune response? What is the mechanism of Prednisone and the nursing considerations when giving? What is the difference between an allergic reaction and side effect of a medication? What is the similarities & differences between hypersensitivity and anaphylactic reaction? Bronchospasm associated with hypersensitivity reaction is the result of: A. histamine release B. pulmonary ventilation C. dilation of the alveoli D. inadequate antibody production Which symptom indicates a possible allergic reaction? A. fever B. diaphoresis C. rash D. chills