1. Introduction to Pharmacology in Nursing
2. Nurses need to have knowledge about the actions and effects of medications
To safely and accurately administer medications nurses need to have an understanding of pharmacologic principles
3. Pharmacologic Principles
4. Drug Names Chemical name
Describes the drug’s chemical composition and molecular structure
Generic name (nonproprietary name)
Name given by the United States Adopted �Name Council
Trade name (proprietary name)
The drug has a registered trademark; use of the name restricted by the drug’s patent owner �(usually the manufacturer) Each drug has three given names.
The chemical name describes the drug’s chemical makeup and its structure.
The generic name, commonly seen in practice, is the name the drug has been given by the US Adopted Name Council.
The trade name is the name by which most people know the drug. This name is given by the patent owner of the drug and has a registered trademark. Each drug has three given names.
The chemical name describes the drug’s chemical makeup and its structure.
The generic name, commonly seen in practice, is the name the drug has been given by the US Adopted Name Council.
The trade name is the name by which most people know the drug. This name is given by the patent owner of the drug and has a registered trademark.
5. Drug Names (cont'd) Chemical name
(+/-)-2-(p-isobutylphenyl) propionic acid�
Generic name
ibuprofen�
Trade name
Motrin®, Advil® Here’s an example of a drug’s three names.Here’s an example of a drug’s three names.
6. Figure 2-1 The chemical, generic, and trade names for the common analgesic ibuprofen are listed next to the chemical structure of the drug.
7. Pharmacological Concepts: Classification Classification- Nurses learn to categorize meds with similar characteristics by their class
Medication classification indicates the effect of the med on the body system, the symptom the med relieves, or the med’s desired effect (e.g. oral hypoglycemics)
8. Pharmacological Concepts: Classification A medication may also be part of more than one class
Aspirin is an analgesic, antipyretic, anti-inflammatory, and anti-platelet
9. Pharmacological �Concepts: �Medication �Forms Medications are available in a variety of forms and preparations
The form of the med will determine its route of administration
Composition of med is designed to enhance its absorption & metabolism
Many meds are available in several forms
10. Medication Forms Tablet
Capsule
Elixir
Enteric-coated
Suppository
Suspension
Transdermal patch
13. Pharmacologic Principles Pharmaceutics
Pharmacokinetics
Pharmacodynamics
Pharmacotherapeutics
Pharmacognosy There are five pharmacologic principles. We’ll discuss each one separately.There are five pharmacologic principles. We’ll discuss each one separately.
14. Pharmaceutics The study of how various drug forms influence pharmacokinetic and pharmacodynamic activities Pharmaceutics is the study of how various forms of a drug influence its pharmacokinetic and pharmacodynamic activities in the client’s body.
It examines the difference between injectable medications, oral formulations such as capsules and tablets, and control-release medications.Pharmaceutics is the study of how various forms of a drug influence its pharmacokinetic and pharmacodynamic activities in the client’s body.
It examines the difference between injectable medications, oral formulations such as capsules and tablets, and control-release medications.
15. Pharmacokinetics • The study of what the body does to the drug
Absorption
Distribution
Metabolism
Excretion It’s important to understand the difference between pharmacokinetics (drug movement) and pharmacodynamics (drug action).
Pharmacokinetics involves how a drug is absorbed, distributed in the body, metabolized, and excreted.It’s important to understand the difference between pharmacokinetics (drug movement) and pharmacodynamics (drug action).
Pharmacokinetics involves how a drug is absorbed, distributed in the body, metabolized, and excreted.
16. Pharmacodynamics • The study of what the drug does to the body
The mechanism of drug actions in living tissues Pharmacodynamics examines how a drug effects living tissues within an organism.
This is why we say to you, you have to know the action of the drug in the body what it does.Pharmacodynamics examines how a drug effects living tissues within an organism.
This is why we say to you, you have to know the action of the drug in the body what it does.
18. Pharmacotherapeutics The use of drugs and the clinical indications for drugs to prevent and treat diseases Pharmacotherapeutics examines how and when drugs are used to prevent or treat specific diseases.
It defines drug actions – what changes occur in cells as a result of the presence of the drug?Pharmacotherapeutics examines how and when drugs are used to prevent or treat specific diseases.
It defines drug actions – what changes occur in cells as a result of the presence of the drug?
19. Pharmacognosy The study of natural (plant and animal) drug sources Many drugs have their origin in natural sources. The study of this phenomenon is called pharmacognosy.Many drugs have their origin in natural sources. The study of this phenomenon is called pharmacognosy.
20. Pharmacokinetics: Absorption The rate at which a drug leaves its site of administration, and the extent to which absorption occurs
Bioavailability
Bioequivalent Let’s talk about the phases of pharmacokinetics. The first phase is absorption.
Absorption rate is the rate at which a drug leaves the site of its administration.
Bioavailability measures the extent to which the drug is absorbed.
When two drugs have the same bioavailability and same concentration of active ingredient, they are said to be bioequivalent. An example of this is brand name vs. generic medications.
Let’s talk about the phases of pharmacokinetics. The first phase is absorption.
Absorption rate is the rate at which a drug leaves the site of its administration.
Bioavailability measures the extent to which the drug is absorbed.
When two drugs have the same bioavailability and same concentration of active ingredient, they are said to be bioequivalent. An example of this is brand name vs. generic medications.
21. Factors That Affect Absorption Administration route of the drug
Ability of Med to Dissolve
Food or fluids administered with the drug
Body Surface Area
Status of the absorptive surface
Rate of blood flow to the small intestine
Lipid Solubility of Med
Status of GI motility Many factors affect absorption – r
Route of administration
Food and fluids
Dosage formulation
Status of absorptive surface (GI mucosa, skin)
Rate of blood flow to small intestine
Stomach acidity (higher acidity breaks drugs down faster)
Status of GI motility (how fast does the drug move through the body)Many factors affect absorption – r
Route of administration
Food and fluids
Dosage formulation
Status of absorptive surface (GI mucosa, skin)
Rate of blood flow to small intestine
Stomach acidity (higher acidity breaks drugs down faster)
Status of GI motility (how fast does the drug move through the body)
22. Routes of Administration A drug’s route of administration affects the rate and extent of absorption of that drug
Enteral (GI tract)
Parenteral
Topical Enteral administration of a drug requires the drug be broken down in the GI tract and moved through the system.
Parenteral administration involves injecting the medication into the body.
Topical application requires the medication be absorbed through the skin.Enteral administration of a drug requires the drug be broken down in the GI tract and moved through the system.
Parenteral administration involves injecting the medication into the body.
Topical application requires the medication be absorbed through the skin.
23. Enteral Route Drug is absorbed into the systemic circulation through the oral or gastric mucosa, the small intestine, or rectum
Oral
Sublingual
Buccal
Rectal
24. First-Pass Effect The metabolism of a drug and its passage from the liver into the circulation
A drug given via the oral route may be extensively metabolized by the liver before reaching the systemic circulation (high first-pass effect)
The same drug—given IV—bypasses the liver, preventing the first-pass effect from taking place, and more drug reaches the circulation A medication given orally must first pass through the liver before reaching the circulation.
If a drug is given IV, the liver is bypassed and more drug reaches circulation/ more of the drug is bioavailable.A medication given orally must first pass through the liver before reaching the circulation.
If a drug is given IV, the liver is bypassed and more drug reaches circulation/ more of the drug is bioavailable.
27. Parenteral Route Intravenous (fastest delivery into the blood circulation)
Intramuscular
Subcutaneous
Intradermal
Intrathecal
Intraarticular Parenteral (or injectable) routes include:
Intravenous – into the vein
Intramuscular – into the muscle
Subcutaneous – into the subcutaneous layer of the skin
Intradermal – into the dermal layer of the skin
Intrathecal – into the subarachnoid space (used for anesthesia)
Intraarticular – into a jointParenteral (or injectable) routes include:
Intravenous – into the vein
Intramuscular – into the muscle
Subcutaneous – into the subcutaneous layer of the skin
Intradermal – into the dermal layer of the skin
Intrathecal – into the subarachnoid space (used for anesthesia)
Intraarticular – into a joint
28. Topical Route Skin (including transdermal patches)
Eyes
Ears
Nose
Lungs (inhalation)
Vagina
29. Distribution The transport of a drug in the body by the bloodstream to its site of action
Protein-binding
Water soluble vs. fat soluble
Blood-brain barrier
Areas of rapid distribution: heart, liver, � kidneys, brain
Areas of slow distribution: muscle, skin, fat Protein-binding allows only a limited amount of the drug to be available for use. The rest is bound to protein. Clients with low albumin levels will have higher levels of circulating drugs, and are at risk for drug toxicity.
Since the body is largely made up of water, drugs that are highly water soluble will have higher concentrations in the blood. Fat soluble drugs are attracted to the low water content of tissue and will have a low concentration in the blood.
The blood-brain barrier prevents distribution of certain drugs into the brain (ie. dopamine).
Organs with an extensive blood supply, such as the heart, liver, kidneys and brain, will distribute drugs rapidly. Those with decreased blood supply, such as muscle, skin, and fat, will distribute drugs more slowly.Protein-binding allows only a limited amount of the drug to be available for use. The rest is bound to protein. Clients with low albumin levels will have higher levels of circulating drugs, and are at risk for drug toxicity.
Since the body is largely made up of water, drugs that are highly water soluble will have higher concentrations in the blood. Fat soluble drugs are attracted to the low water content of tissue and will have a low concentration in the blood.
The blood-brain barrier prevents distribution of certain drugs into the brain (ie. dopamine).
Organs with an extensive blood supply, such as the heart, liver, kidneys and brain, will distribute drugs rapidly. Those with decreased blood supply, such as muscle, skin, and fat, will distribute drugs more slowly.
31. Metabolism�(Also Known As Biotransformation) The biologic transformation of a drug into �an inactive metabolite, a more soluble compound, or a more potent metabolite
Liver (main organ)
Kidneys
Lungs
Plasma
Intestinal mucosa
32. Metabolism/Biotransformation (cont'd) Delayed drug metabolism results in:
Accumulation of drugs
Prolonged action of the drugs
Stimulating drug metabolism causes:
Diminished pharmacologic effects Delayed drug metabolism causes a build-up of drugs in the system and creates a prolonged action.
If drug metabolism is stimulated, the drug is used up more quickly and has a decreased effect.Delayed drug metabolism causes a build-up of drugs in the system and creates a prolonged action.
If drug metabolism is stimulated, the drug is used up more quickly and has a decreased effect.
33. Excretion The elimination of drugs from the body
Kidneys (main organ)
Liver
Bowel
Biliary excretion
Enterohepatic circulation Most drugs are eliminated from the body in the urine.
The liver also contributes to drug excretion.
With biliary excretion, drugs are taken up by the liver, released into bile, and eliminated in the feces.
With enterohepatic recirculation, drugs in the bile are reabsorbed into the bloodstream, returned to the liver, and secreted a second time into the bile.Most drugs are eliminated from the body in the urine.
The liver also contributes to drug excretion.
With biliary excretion, drugs are taken up by the liver, released into bile, and eliminated in the feces.
With enterohepatic recirculation, drugs in the bile are reabsorbed into the bloodstream, returned to the liver, and secreted a second time into the bile.
34. 1. You are caring for a client who has diabetes complicated by kidney disease. You will need to make a detailed assessment when administering medications because this client may experience problems with:
A. Absorption
B. Biotransformation
C. Distribution
D. Excretion Answer: DAnswer: D
35. Pharmacodynamics Study of the mechanism of drug actions in living tissue
Drug-induced alterations to normal physiologic function
Positive change-Therapeutic effect-Goal of therapy
36. Mechanism of Action Ways in which a drug can produce a therapeutic effect
The effects that a particular drug has depends on the cells or organ targeted by the drug
Once the drug hits its “site of action” it can modify the rate at which a cell or tissue functions
37. Mechanism of Action Receptor Interaction
Enzyme Interaction
Non-Specific Interaction
38. Receptor Interaction Drug structure is essential
Involves the selective joining of drug molecule with a reactive site on the cell surface that elicits a biological effect
Receptor is the reactive site on a cell or tissue
Once the substance binds to and interacts with the receptor, a pharmacologic response is produced
39. Receptor Interaction Affinity- degree to which a drug binds with a receptor
The drug with the best “fit” or affinity will elicit the best response
Drug can mimic body’s endogenous substances that normally bind to receptor site
Drugs that bind to receptors interact with receptors in different ways to either block or elicit a response
40. Receptor Interaction Agonist-Drug binds to receptor-there is a response (Adrenergic Agents)
Antagonist-drug binds to receptor-no response-prevents binding of agonists (Alpha & Beta Blockers)
42. Enzyme Interaction Enzymes are substances that catalyze nearly every biochemical reaction in a cell
Drugs can interact with enzyme systems to alter a response
Inhibits action of enzymes-enzyme is “fooled” into binding to drug instead of target cell
Protects target cell from enzyme’s action (ACE Inhibitors)
43. Non-Specific Interaction Not involving a receptor site or alteration in enzyme function
Main site of action is cell membrane or cellular process
Drugs will physically interfere or chemically alter cell process
Final product is altered causing defect or cell death
Cancer drugs, Antibiotics
45. Correct answer: 1
Explanation: The first-pass effect is the metabolism of a drug before it is systemically available, and it reduces the bioavailablity of the drug. Therefore, oral doses need to be higher than IV doses because of the first-pass effect.Correct answer: 1
Explanation: The first-pass effect is the metabolism of a drug before it is systemically available, and it reduces the bioavailablity of the drug. Therefore, oral doses need to be higher than IV doses because of the first-pass effect.
46. Correct answer: 4
Explanation: Parenteral routes result into the fastest absorption and therefore also the fastest effects. Correct answer: 4
Explanation: Parenteral routes result into the fastest absorption and therefore also the fastest effects.
47. Type of Medication Action Therapeutic Effect
Side Effects
Adverse Effects
Toxic Effect
Idiosyncratic Reactions
Allergic Reaction
Medication Interactions
Iatrogenic Response
48. Therapeutic Effect The expected or predictable physiological response a medication causes
A single med can have several therapeutic effects (Aspirin)
It is important for the nurse to know why med is being prescribed
49. Side Effects Unintended secondary effects a medication predictably will cause
May be harmless or serious
If side effects are serious enough to negate the beneficial effect of meds therapeutic action, it may be D/C’d
People may stop taking medications because of the side effects
50. Adverse Effects Undesirable response of a medication
Unexpected effects of drug not related to therapeutic effect
Must be reported to FDA
Can be a side effect or a harmful effect
Can be categorized as pharmacologic, idiosyncratic, hypersensitivity, or drug interaction
51. Adverse Effects Adverse Drug Events
Adverse Drug Reactions (ADR)
52. Toxic Effect May develop after prolonged intake or when a med accumulates in the blood because of impaired metabolism or excretion, or excessive amount taken
Toxic levels of opioids can cause resp.depression
Antidotes available to reverse effects
53. Idiosyncratic Reactions Unpredictable effects-overreacts or under reacts to a medication or has a reaction different from normal
Genetically determined abnormal response
Idiosyncratic drug reactions are usually caused by abnormal levels of drug-metabolizing enzymes (deficiency or overabundance)
54. Allergic Reaction Unpredictable response to a medication
Makes up greater than 10% of all medication reactions
Client may become sensitized immunologically to the initial dose, repeated administration causes an allergic response to the med, chemical preservative or a metabolite
55. Allergic Reaction Medication acts as an antigen triggering the release of the body’s antibodies
May be mild or severe
Among the different classes of meds, antibiotics cause the highest incidence of allergic reaction
Severe reaction-Anaphylactic reaction
Mild reaction-hives, rash, pruritis
59. 2. A postoperative client is receiving morphine sulfate via a PCA. The nurse assesses that the client’s respirations are depressed. The effects of the morphine sulfate can be classified as:
A. Allergic
B. Idiosyncratic
C. Therapeutic
D. Toxic Answer: DAnswer: D
60. Other Drug Reactions Teratogenic-Structural effect in unborn fetus (thalidomide)
Carcinogenic-Causes cancer
Mutagenic- Changes genetic composition (radiation, chemicals)
61. Drug Interactions Occurs when one med modifies the action of another
Common in people taking several medications at once
One med may potentiate or diminish the action of another or alter the way it is absorbed, metabolized or eliminated
Warfarin and Amiodarone
62. Iatrogenic Responses Unintentional adverse effects that occur during therapy
Treatment-Induced Dermatologic-rash, hives, acne
Renal Damage-Aminoglycoside antibiotics, NSAIDS, contrast medium
Blood Dyscrasias- Destruction of blood cells (Chemotherapy)
Hepatic Toxicity-Elevated liver enzymes (hepatitis-like symptoms)
63. Synergistic Effect Effect of 2 meds combined is greater than the meds given separately
Alcohol & Antihistamines, antidepressants, barbiturates, narcotics
Not always undesirable, physician may combine meds to create an interaction that will have beneficial effects (Vasodilators & diuretics to control high BP)
64. Medication Dose Responses Except when administered IV, meds take time to enter bloodstream
The quantity & distribution of med in different body compartments change constantly
Goal is to keep constant blood level within a safe therapeutic range
Repeated doses are required to achieve a constant therapeutic concentration of a med because a portion of med is always being excreted
65. Medication Dose Responses Serum Half-Life:Time it takes for excretion processes to lower the serum medication concentration by ˝
Regular fixed doses must be given to maintain therapeutic concentration
Dosage schedules set by institutions (TID, q8h, HS, AC, STAT, PRN)
Peak & Trough levels
Therapeutic drug monitoring
66. Half-life The time it takes for one half of the original amount of a drug in the body to be removed
A measure of the rate at which drugs are removed from the body A drug’s half-life is used to determine how often a drug must be administered in order to maintain its therapeutic level.
Half-life measures the rate at which a drug is removed from the body. It measures the time it takes for half of the original drug concentration to be removed.A drug’s half-life is used to determine how often a drug must be administered in order to maintain its therapeutic level.
Half-life measures the rate at which a drug is removed from the body. It measures the time it takes for half of the original drug concentration to be removed.
67. Onset, Peak, and Duration Onset
The time it takes for the drug to elicit a �therapeutic response
Peak
The time it takes for a drug to reach its maximum therapeutic response
Duration
The time a drug concentration is sufficient to elicit a therapeutic response It is important for the nurse to know the onset, peak, and duration of each drug.
The onset is the time it takes for the drug to start working.
The peak is the time the drug is at its most effective.
The duration is the time that the drug lasts in the body.It is important for the nurse to know the onset, peak, and duration of each drug.
The onset is the time it takes for the drug to start working.
The peak is the time the drug is at its most effective.
The duration is the time that the drug lasts in the body.
68. Pharmacotherapeutics: Types of Therapies Acute therapy
Maintenance therapy
Supplemental therapy
Palliative therapy
Supportive therapy
Prophylactic therapy
Empiric therapy Acute therapy drugs are used to sustain life or treat disease
Maintenance therapy drugs are used to prevent the progression of chronic diseases, such as hypertension
Supplemental drugs supply substances not available to the body, such as insulin for diabetic clients
Drugs used for palliative therapy are used to maintain comfort
Supportive drug therapy helps maintain body functions
Prophylactic drugs help prevent illness and have scientific evidence to support their use
Empiric drugs are used based on past experience with their actions rather than scientific evidenceAcute therapy drugs are used to sustain life or treat disease
Maintenance therapy drugs are used to prevent the progression of chronic diseases, such as hypertension
Supplemental drugs supply substances not available to the body, such as insulin for diabetic clients
Drugs used for palliative therapy are used to maintain comfort
Supportive drug therapy helps maintain body functions
Prophylactic drugs help prevent illness and have scientific evidence to support their use
Empiric drugs are used based on past experience with their actions rather than scientific evidence
69. Monitoring The effectiveness of the drug therapy must be evaluated
One must be familiar with the drug’s:
Intended therapeutic action (beneficial)
Unintended but potential side effects (predictable, adverse reactions)
70. Monitoring (cont'd) • Therapeutic index
– The ratio between a drug’s therapeutic benefits and its toxic effects A drug’s therapeutic index determines the safety of the drug.
If a drug has a low therapeutic index, it has a high risk for toxicity.
The nurse is responsible for monitoring drug levels (ie. digoxin, theophylline, lithium)A drug’s therapeutic index determines the safety of the drug.
If a drug has a low therapeutic index, it has a high risk for toxicity.
The nurse is responsible for monitoring drug levels (ie. digoxin, theophylline, lithium)
71. Monitoring (cont'd) • Tolerance
– A decreasing response to repetitive drug doses Drug tolerance causes a client to need increasing dosages of a drug in order to achieve the same effect
Tolerance is frequently seen with long-term use of narcotics for chronic pain management
Drug tolerance causes a client to need increasing dosages of a drug in order to achieve the same effect
Tolerance is frequently seen with long-term use of narcotics for chronic pain management
72. Monitoring (cont'd) • Dependence
– A physiologic or psychological need for a drug Clients who are drug dependent need a given drug to avoid experiencing the physical symptoms of withdrawalClients who are drug dependent need a given drug to avoid experiencing the physical symptoms of withdrawal
73. Monitoring (cont'd) Interactions may occur with other drugs or food
Drug interactions: the alteration of action of � a drug by:
Other prescribed drugs
Over-the-counter medications
Herbal therapies Orange juice- synthriodOrange juice- synthriod
74. Monitoring (cont'd) • Drug interactions
– Additive effect
– Synergistic effect
– Antagonistic effect
– Incompatibility Drugs are said to have an additive effect when they have similar actions. Lower doses are needed when the drugs are given together.
Synergistic drugs create a greater effect when combined than each one alone.
Drugs are antagonistic when their combined effect is less than each of them alone.
Drugs are incompatible when combining them causes chemical deterioration of one or bothDrugs are said to have an additive effect when they have similar actions. Lower doses are needed when the drugs are given together.
Synergistic drugs create a greater effect when combined than each one alone.
Drugs are antagonistic when their combined effect is less than each of them alone.
Drugs are incompatible when combining them causes chemical deterioration of one or both
75. Monitoring (cont'd) Medication misadventures
Adverse drug events
Adverse drug reactions
Medication errors Adverse drug events refer to any undesirable occurrence involving medications.
Adverse drug reactions are unexpected, undesirable drug reactions occurring at therapeutic levels.
Medication errors are preventable situations. One of the five rights is compromised.
Adverse drug events refer to any undesirable occurrence involving medications.
Adverse drug reactions are unexpected, undesirable drug reactions occurring at therapeutic levels.
Medication errors are preventable situations. One of the five rights is compromised.
76. Monitoring (cont'd) Some adverse drug reactions are classified as side effects
Expected, well-known reactions that result in little or no change in patient management
Predictable frequency
The effect’s intensity and occurrence are related to the size of the dose
77. Adverse Drug Reaction An adverse outcome of drug therapy in which a patient is harmed in some way
Pharmacologic reactions
Idiosyncratic reactions
Hypersensitivity reactions
Drug interactions An adverse pharmacologic reaction occurs when a drug goes too far. For example, an antihypertensive drug lowers blood pressure to the point of unconsciousness.
An idiosyncratic adverse reaction is an unexpected reaction in an individual client.
A hypersensitivity reaction is a reaction of the immune system. It can range from a mild reaction to anaphylaxis.
Drug interactions occur when the presence of two or more drugs in the body produce an unwanted effect.An adverse pharmacologic reaction occurs when a drug goes too far. For example, an antihypertensive drug lowers blood pressure to the point of unconsciousness.
An idiosyncratic adverse reaction is an unexpected reaction in an individual client.
A hypersensitivity reaction is a reaction of the immune system. It can range from a mild reaction to anaphylaxis.
Drug interactions occur when the presence of two or more drugs in the body produce an unwanted effect.
78. Other Drug-Related Effects Teratogenic
Mutagenic
Carcinogenic Teratogenic effects cause structural defects in a fetus. The nurse should check the pregnancy category of a medication to ensure that it is not a teratogen.
Mutagenic drugs cause permanent changes in the genetic structure. Such changes can be caused by exposure to radiation or heavy metals.
Carcinogenic drugs are known to cause cancer. Teratogenic effects cause structural defects in a fetus. The nurse should check the pregnancy category of a medication to ensure that it is not a teratogen.
Mutagenic drugs cause permanent changes in the genetic structure. Such changes can be caused by exposure to radiation or heavy metals.
Carcinogenic drugs are known to cause cancer.
79. Toxicology The study of poisons and unwanted responses to therapeutic agents
Clinical toxicology provides information on the care of the poisoned client.
The nurse the must prioritize the care of the poisoned client:
- preserve vital functions
- prevent absorption or increase rate of elimination
* ipecac
* activated charcoal
* catharticsClinical toxicology provides information on the care of the poisoned client.
The nurse the must prioritize the care of the poisoned client:
- preserve vital functions
- prevent absorption or increase rate of elimination
* ipecac
* activated charcoal
* cathartics
81. The Nursing Process (cont'd) Assessment
Nursing diagnosis
Planning (with outcome criteria)
Implementation
Evaluation Let’s review how the nursing process applies to the pharmacology of nursing.Let’s review how the nursing process applies to the pharmacology of nursing.
82. The Nursing Process An organizational framework for the practice of nursing
Orderly, systematic
Central to all nursing care
Encompasses all steps taken by the nurse in caring for a patient
Flexibility is important The nursing process applies is a well established, research supported framework that applies to all that we do in nursing. This includes medication administration.
Our approach to pharmacology in nursing must be systematic and orderly in order to avoid potential errors.
It is a 5 steps process that is flexible and adaptable it includes ???? What are the 5 steps: assessment, diagnosis, planning, implementation and evaluation.
Do you see how this applies to pharmacology and medication administration. The nursing process applies is a well established, research supported framework that applies to all that we do in nursing. This includes medication administration.
Our approach to pharmacology in nursing must be systematic and orderly in order to avoid potential errors.
It is a 5 steps process that is flexible and adaptable it includes ???? What are the 5 steps: assessment, diagnosis, planning, implementation and evaluation.
Do you see how this applies to pharmacology and medication administration.
83. The Nursing Process (cont'd) Assessment
Data collection
Subjective, objective
Data collected on the patient, drug, environment
Medication history
Nursing assessment
Physical assessment
Data analysis Subjective data is collected from the client, family, and significant others regarding the medications used by the client. Objective data is collected by examining the client’s current medications and by physical examination.
Completion of a thorough medication history is essential, and should include: 1. Drug use, 2. Home or herbal remedies, 3. Substance use, 4. Illegal drug use, 5. OTC medications, 6. Hormone use,
The nursing assessment should include a thorough Health history, Family history, Unusual drug responses, and Related growth and development issues.
The subsequent physical assessment should provide evidence of the conditions for which the client’s medications have been ordered.
The nurse must be sure that all drug orders contain the client’s name, date of the order, medication name, dosage, route, and prescriber’s signature. PRN orders must also include the reason for the medication’s use.
Subjective data is collected from the client, family, and significant others regarding the medications used by the client. Objective data is collected by examining the client’s current medications and by physical examination.
Completion of a thorough medication history is essential, and should include: 1. Drug use, 2. Home or herbal remedies, 3. Substance use, 4. Illegal drug use, 5. OTC medications, 6. Hormone use,
The nursing assessment should include a thorough Health history, Family history, Unusual drug responses, and Related growth and development issues.
The subsequent physical assessment should provide evidence of the conditions for which the client’s medications have been ordered.
The nurse must be sure that all drug orders contain the client’s name, date of the order, medication name, dosage, route, and prescriber’s signature. PRN orders must also include the reason for the medication’s use.
84. The Nursing Process (cont'd) Nursing diagnosis
Judgment or conclusion about the need/problem (actual or at risk for) of the patient
Based upon an accurate assessment
NANDA format Remember when writing nursing diagnoses that they start with the human response, and then relate it to the causative factor.
What are some nursing diagnosis that you can think of that apply to medication admin. : knowledge deficit, risk for injury, noncompliance.
Remember when writing nursing diagnoses that they start with the human response, and then relate it to the causative factor.
What are some nursing diagnosis that you can think of that apply to medication admin. : knowledge deficit, risk for injury, noncompliance.
85. The Nursing Process (cont'd) Planning
Identification of goals and outcome criteria
Prioritization
Time frame Identification of goals must be based on the assessment done by the nurse.
Prioritization of client goals is the major purpose of planning.
You want to include the family and the patient in this process.
Identification of goals must be based on the assessment done by the nurse.
Prioritization of client goals is the major purpose of planning.
You want to include the family and the patient in this process.
86. The Nursing Process (cont'd) Goals
Objective, measurable, realistic
Time frame specified
Outcome criteria
Specific standard(s) of measure
Patient oriented In the planning phase, goals and outcomes must be observable, measurable and time-limited.
Remember to keep time frames realistic.
Utilizing specific standards of measure ensures that everyone who assesses the client measures in the same way.
Patient-oriented goals ensure that the client participates in the interventions that will help in the achievement of those goals.
In the planning phase, goals and outcomes must be observable, measurable and time-limited.
Remember to keep time frames realistic.
Utilizing specific standards of measure ensures that everyone who assesses the client measures in the same way.
Patient-oriented goals ensure that the client participates in the interventions that will help in the achievement of those goals.
87. The Nursing Process (cont'd) Implementation
Initiation and completion of the nursing care plan �as defined by the nursing diagnoses and outcome criteria
Follow the “five rights” of medication administration Development of the client’s plan of care helps maintain continuity of care. It is essential that the nurse understand why the client is taking the medications they are, and information on each of those medications.
Adherence to the “five rights” of medication administration ensures that medications are administered in a safe manner. This helps reduce the likelihood of medication errors.Development of the client’s plan of care helps maintain continuity of care. It is essential that the nurse understand why the client is taking the medications they are, and information on each of those medications.
Adherence to the “five rights” of medication administration ensures that medications are administered in a safe manner. This helps reduce the likelihood of medication errors.
88. The “Five Rights” Right drug
Right dose
Right time
Right route
Right patient Nurses learn the basic five rights of medication administration early on in their education. It is important that we not forget them as we progress in our learning.
What step did the nurses for get or leave out when they made that heparin mistake with the twin babies………………….
Many sources cite a sixth right of medication administration – right documentation. This is part of what we call constant system analysis.Nurses learn the basic five rights of medication administration early on in their education. It is important that we not forget them as we progress in our learning.
What step did the nurses for get or leave out when they made that heparin mistake with the twin babies………………….
Many sources cite a sixth right of medication administration – right documentation. This is part of what we call constant system analysis.
89. Another “Right”—Constant System Analysis A “double-check”
The entire “system” of medication administration
Ordering, dispensing, preparing, administering, documenting
Involves the physician, nurse, nursing unit, pharmacy department, and patient education Constant system analysis is an ongoing process that has but one goal – elimination of medication errors.
System analysis begins when the provider orders the medication. It continues when the pharmacist dispenses the medication, and culminates when the nurse prepares, administers and documents administration of the drug.
System analysis includes client education, as well. It is important for the nurse to remember to utilize each medication administration time as an opportunity for teaching.Constant system analysis is an ongoing process that has but one goal – elimination of medication errors.
System analysis begins when the provider orders the medication. It continues when the pharmacist dispenses the medication, and culminates when the nurse prepares, administers and documents administration of the drug.
System analysis includes client education, as well. It is important for the nurse to remember to utilize each medication administration time as an opportunity for teaching.
90. Other “Rights” Proper drug storage
Proper documentation
Accurate dosage calculation
Accurate dosage preparation
Careful checking of transcription of orders
Patient safety The nurse must understand the importance of proper drug storage in order to maintain medications at their optimum potency. Some drugs must be refrigerated, some kept away from direct light, and some (narcotics) must be secured under double lock.
Documentation of medication administration should only be completed after the client has taken the medication. If the nurse documents the medication as given and then the client refuses the medication, it is essentially a medication error.
Calculation of drug dosages is the responsibility of the nurse. We will review the procedures for drug calculation a bit later.
Dosage preparation involves pouring the medication or drawing it up in a syringe for administration. Some medications must be crushed and mixed with food or liquid for clients with difficulty swallowing.
Transcription is an area that has a high potential for error. Most facilities are moving from handwritten orders to computer generated ones to reduce the error rate. Each of these interventions has patient safety as its goal.The nurse must understand the importance of proper drug storage in order to maintain medications at their optimum potency. Some drugs must be refrigerated, some kept away from direct light, and some (narcotics) must be secured under double lock.
Documentation of medication administration should only be completed after the client has taken the medication. If the nurse documents the medication as given and then the client refuses the medication, it is essentially a medication error.
Calculation of drug dosages is the responsibility of the nurse. We will review the procedures for drug calculation a bit later.
Dosage preparation involves pouring the medication or drawing it up in a syringe for administration. Some medications must be crushed and mixed with food or liquid for clients with difficulty swallowing.
Transcription is an area that has a high potential for error. Most facilities are moving from handwritten orders to computer generated ones to reduce the error rate. Each of these interventions has patient safety as its goal.
91. Other “Rights” (cont'd) Close consideration of special situations
Prevention and reporting of medication errors
Patient teaching
Monitoring for therapeutic effects, side effects, toxic effects
Refusal of medication
92. Evaluation • Ongoing part of the nursing process
Determining the status of the goals and �outcomes of care
Monitoring the patient’s response to drug therapy
Expected and unexpected responses During the evaluation phase of the process, the nurse must determine how much progress the client has made toward the previously determined goals.
The nurse needs to ask:
Is the medication doing what it was ordered to do?
Is it doing it as well as expected?
Are there any unexpected effects?
Should the medication be changed, or continued as ordered?During the evaluation phase of the process, the nurse must determine how much progress the client has made toward the previously determined goals.
The nurse needs to ask:
Is the medication doing what it was ordered to do?
Is it doing it as well as expected?
Are there any unexpected effects?
Should the medication be changed, or continued as ordered?
93. Correct answer: 2
Explanation: The Medication Administration Record is the legal documentation that the professional nurse uses to sign off medications that are given, so it should be checked first. Correct answer: 2
Explanation: The Medication Administration Record is the legal documentation that the professional nurse uses to sign off medications that are given, so it should be checked first.
94. Correct answer: 4
Explanation: The dosage for the IV route would not be the same as for the PO route. Holding the medications may cause drug levels to drop and result in seizure activity, and giving the medications PO without consent may alter the test results. The nurse must never assume the route of medication administration and should consult the physician for clarification of the orders.Correct answer: 4
Explanation: The dosage for the IV route would not be the same as for the PO route. Holding the medications may cause drug levels to drop and result in seizure activity, and giving the medications PO without consent may alter the test results. The nurse must never assume the route of medication administration and should consult the physician for clarification of the orders.
95. Life Span Considerations
96. Life Span Considerations Pregnancy
Breast-feeding
Neonatal
Pediatric
Geriatric
97. Pregnancy First trimester is the period of greatest danger for drug-induced developmental defects
Drugs diffuse across the placenta
FDA pregnancy safety categories
98. Table 3-1 Pregnancy safety categories
99. Breast-feeding Breast-fed infants are at risk for exposure to drugs consumed by the mother
Consider risk-to-benefit ratio
100. Table 3-2 Classification of young patients
101. Pediatric Considerations: Pharmacokinetics Absorption
Gastric pH less acidic
Gastric emptying is slowed
Topical absorption faster through the skin
Intramuscular absorption faster and irregular
102. Pediatric Considerations: Pharmacokinetics (cont'd) Distribution
TBW 70% to 80% in full-term infants, 85% in premature newborns, 64% in children 1 to 12 years of age
Greater TBW means fat content is lower
Decreased level of protein binding
Immature blood-brain barrier Total body water is high in full term infants. It decreases as a person ages.
Water soluble drugs, therefore, are available in greater concentrations.
There is a decreased level of protein binding because of the decreased production by the immature liver. This results in greater concentrations of medications in the body.
An immature blood-brain barrier allows more drugs to enter the brain.
For all these reasons, drug doses need to be lower for children.
Total body water is high in full term infants. It decreases as a person ages.
Water soluble drugs, therefore, are available in greater concentrations.
There is a decreased level of protein binding because of the decreased production by the immature liver. This results in greater concentrations of medications in the body.
An immature blood-brain barrier allows more drugs to enter the brain.
For all these reasons, drug doses need to be lower for children.
103. Pediatric Considerations: Pharmacokinetics (cont'd) Metabolism
Liver immature, does not produce enough microsomal enzymes
Older children may have increased metabolism, requiring higher doses
Other factors There are other factors that play a part in the metabolism of drugs in the pediatric population.
The production of enzymes by the liver is less than in an adult.
Genetic factors determine individual metabolic rates.
Maternal exposure to substances that alter fetal development can affect the child’s ability to metabolize medications.There are other factors that play a part in the metabolism of drugs in the pediatric population.
The production of enzymes by the liver is less than in an adult.
Genetic factors determine individual metabolic rates.
Maternal exposure to substances that alter fetal development can affect the child’s ability to metabolize medications.
104. Pediatric Considerations: Pharmacokinetics (cont'd) Excretion
Kidney immaturity affects glomerular filtration rate and tubular secretion
Decreased perfusion rate of the kidneys Kidneys in children have not developed the full filtration ability of the mature kidney.
Decreased perfusion rate leads to decreased renal function, decreased ability of the kidney to concentrate urine, and decreased excretion of drugs.Kidneys in children have not developed the full filtration ability of the mature kidney.
Decreased perfusion rate leads to decreased renal function, decreased ability of the kidney to concentrate urine, and decreased excretion of drugs.
105. Summary of Pediatric Considerations Skin is thin and permeable
Stomach lacks acid to kill bacteria
Lungs lack mucus barriers
Body temperatures poorly regulated and dehydration occurs easily
Liver and kidneys are immature, impairing drug metabolism and excretion
106. Methods of Dosage Calculation for Pediatric Patients Body weight dosage calculations
Body surface area method
There are several methods of calculating drug dosages for children.
Dosages can be calculated by body weight or by body surface area.
There are several methods of calculating drug dosages for children.
Dosages can be calculated by body weight or by body surface area.
107. Geriatric Considerations Geriatric: older than age 65
Healthy People 2010: older than age 55
Use of OTC medications
Polypharmacy The geriatric population uses the largest amount of medications of any population group.
It is especially important for the nurse to review the OTC medications an older client uses, as they may interfere with prescription drugs ordered.
Polypharmacy exists when two or more meds cause an interaction or adverse reaction, are used for the same purpose, or have no apparent clinical rationale for use
Poly pharmacy is causes by:
- Lack of information
- Self-treatment
- Multiple physicians
- Use of folk remedies
- Lack of communication with physicians
- Overprescribing
- Multiple chronic diseases needing meds
The geriatric population uses the largest amount of medications of any population group.
It is especially important for the nurse to review the OTC medications an older client uses, as they may interfere with prescription drugs ordered.
Polypharmacy exists when two or more meds cause an interaction or adverse reaction, are used for the same purpose, or have no apparent clinical rationale for use
Poly pharmacy is causes by:
- Lack of information
- Self-treatment
- Multiple physicians
- Use of folk remedies
- Lack of communication with physicians
- Overprescribing
- Multiple chronic diseases needing meds
108. Table 3-4 Physiologic changes in the geriatric patient
109. Geriatric Considerations: Pharmacokinetics Absorption
Gastric pH less acidic
Slowed gastric emptying
Movement through GI tract slower
Reduced blood flow to the GI tract
Reduced absorptive surface area due to flattened intestinal villi
110. Geriatric Considerations: Pharmacokinetics (cont'd) Distribution
TBW percentages lower
Fat content increased
Decreased production of proteins by the liver, resulting in decreased protein binding of drugs
111. Geriatric Considerations: Pharmacokinetics (cont'd) Metabolism
Aging liver produces less microsomal enzymes, affecting drug metabolism
Reduced blood flow to the liver
112. Geriatric Considerations: Pharmacokinetics (cont'd) Excretion
Decreased glomerular filtration rate
Decreased number of intact nephrons
113. Geriatric Considerations: Problematic Medications Analgesics
Anticoagulants
Anticholinergics
Antihypertensives
Digoxin
Sedatives and hypnotics
Thiazide diuretics Analgesics – commonly cause confusion, constipation, urinary retention, nausea, vomiting, respiratory depression, decreased LOC, and falls
Anticoagulants – major/minor bleeding, many drug interactions, dietary interactions
Anticholinergics – blurred vision, dry mouth, constipation, confusion, urinary retention, tachycardia
Antihypertensives – nausea, hypotension, diarrhea, bradycardia, heart failure, impotence
Digoxin – visual disorders, dysrhythmias, hallucinations, weight loss
Sedatives/Hypnotics – confusion, daytime sedation, ataxia, lethargy, forgetfulness, risk for falls
Thiazide diuretics – electrolyte imbalance, rash, fatigue, leg cramps, dehydrationAnalgesics – commonly cause confusion, constipation, urinary retention, nausea, vomiting, respiratory depression, decreased LOC, and falls
Anticoagulants – major/minor bleeding, many drug interactions, dietary interactions
Anticholinergics – blurred vision, dry mouth, constipation, confusion, urinary retention, tachycardia
Antihypertensives – nausea, hypotension, diarrhea, bradycardia, heart failure, impotence
Digoxin – visual disorders, dysrhythmias, hallucinations, weight loss
Sedatives/Hypnotics – confusion, daytime sedation, ataxia, lethargy, forgetfulness, risk for falls
Thiazide diuretics – electrolyte imbalance, rash, fatigue, leg cramps, dehydration
114. Legal, Ethical, and Cultural�Considerations
115. U.S. Drug Legislation 1906: Federal Food and Drug Act
1912: Sherley Amendment (to the Federal Food and Drug Act of 1906)
1914: Harrison Narcotic Act
1938: Federal Food, Drug, and Cosmetic Act (revision of 1906 Act) 1906 – Federal Food & Drug Act – required manufacturers to list dangerous/addictive substances on the label; recognized US Pharmacopeia & National Formulary as printed standard reference for drugs
1912 – Sherley Amendment – prohibited fraudulent claims for drug products
1914 – Harrison Narcotic Act – established the term narcotic; regulated manufacture and sale of habit-forming drugs
1938 – Federal Food, Drug, & Cosmetic Act – manufacturers required to provide safety information with FDA review; established the process for new drug application process1906 – Federal Food & Drug Act – required manufacturers to list dangerous/addictive substances on the label; recognized US Pharmacopeia & National Formulary as printed standard reference for drugs
1912 – Sherley Amendment – prohibited fraudulent claims for drug products
1914 – Harrison Narcotic Act – established the term narcotic; regulated manufacture and sale of habit-forming drugs
1938 – Federal Food, Drug, & Cosmetic Act – manufacturers required to provide safety information with FDA review; established the process for new drug application process
116. U.S. Drug Legislation (cont'd) 1951: Durham-Humphrey Amendment (to the 1938 act)
1962: Kefauver-Harris Amendment (to the 1938 act)
1970: Controlled Substance Act 1951 – Durham-Humphrey Amendment – required prescriptions to carry the legend “Caution – Federal law prohibits dispensing without a prescription”
1962 – Kefauver-Harris Amendment – manufacturers required to demonstrate both therapeutic efficacy and safety
1970 – Controlled Substance Act – established schedules for controlled substances; promoted drug addiction education, research and treatment
1951 – Durham-Humphrey Amendment – required prescriptions to carry the legend “Caution – Federal law prohibits dispensing without a prescription”
1962 – Kefauver-Harris Amendment – manufacturers required to demonstrate both therapeutic efficacy and safety
1970 – Controlled Substance Act – established schedules for controlled substances; promoted drug addiction education, research and treatment
117. U.S. Drug Legislation (cont'd) 1983: Orphan Drug Act
1991: Accelerated drug approval 1983 – Orphan Drug Act – enabled the FDA to promote research and marketing of orphan drugs used to treat rare diseases
1991 – Accelerated drug approval – enabled faster approval process by the FDA for drugs used to treat life-threatening illnesses (AZT for AIDS)1983 – Orphan Drug Act – enabled the FDA to promote research and marketing of orphan drugs used to treat rare diseases
1991 – Accelerated drug approval – enabled faster approval process by the FDA for drugs used to treat life-threatening illnesses (AZT for AIDS)
120. New Drug Development Investigational new drug (IND) application
Informed consent
Investigational drug studies
Expedited drug approval
Investigation new drug application – completed after animal testing
Informed consent – must be obtained for all human test subjects
Investigational drug studies – can be completed only after FDA approval
Expedited drug approval – a shortened process used for life-saving drugs; the medications must show early promise in Phases I & IIInvestigation new drug application – completed after animal testing
Informed consent – must be obtained for all human test subjects
Investigational drug studies – can be completed only after FDA approval
Expedited drug approval – a shortened process used for life-saving drugs; the medications must show early promise in Phases I & II
121. U.S. FDA Drug Approval Process Preclinical investigational drug studies
Clinical phases of investigational drug studies
Phase I
Phase II
Phase III
Phase IV
In Phase I studies, a small number of healthy subjects are used.
Phase II studies use a small number of volunteer subjects who have the illness.
In Phase III studies, a large number of subjects is used and they are tracked by researchers.
Phase IV studies occur post-marketing (about 2 years after release). The drug may be recalled if it is problematic.In Phase I studies, a small number of healthy subjects are used.
Phase II studies use a small number of volunteer subjects who have the illness.
In Phase III studies, a large number of subjects is used and they are tracked by researchers.
Phase IV studies occur post-marketing (about 2 years after release). The drug may be recalled if it is problematic.
122. Ethical Nursing Practice American Nurses Association (ANA) Code of Ethics for Nurses
123. Cultural Considerations Assess the influence of a patient’s cultural beliefs, values, and customs
Drug polymorphism
Compliance level with therapy
Environmental considerations
Genetic factors
Varying responses to specific agents The nurse must consider how strong an influence a client’s culture has on their use of medications.
Drug polymorphism considers the effect of a client’s age, gender, size, body composition, and other characteristics on the pharmacokinetics of a drug.
How does the client’s culture influence compliance?
Are there factors in the environment that might affect a client’s drug use?
There may be genetic factors present that affect how a drug is used by the body.
African- Americans respond better to diuretics than beta blockers or ACE inhibitors. Calcium channel blockers work best, and usually need to be used in combination with other drugs.
Asians & Hispanics respond better to lower dosages of antidepressants and other antipsychotics and antianxiety drugs.The nurse must consider how strong an influence a client’s culture has on their use of medications.
Drug polymorphism considers the effect of a client’s age, gender, size, body composition, and other characteristics on the pharmacokinetics of a drug.
How does the client’s culture influence compliance?
Are there factors in the environment that might affect a client’s drug use?
There may be genetic factors present that affect how a drug is used by the body.
African- Americans respond better to diuretics than beta blockers or ACE inhibitors. Calcium channel blockers work best, and usually need to be used in combination with other drugs.
Asians & Hispanics respond better to lower dosages of antidepressants and other antipsychotics and antianxiety drugs.
124. Cultural Assessment Health beliefs and practices
Past uses of medicine
Folk remedies
Home remedies
Use of nonprescription drugs and herbal remedies
OTC treatments
125. Cultural Assessment (cont'd) Usual response to treatment
Responsiveness to medical treatment
Religious practices and beliefs
Dietary habits
126. Medication Errors:�Preventing and Responding
127. Medication Misadventures Medication errors (MEs)
Adverse drug events (ADEs)
Adverse drug reactions (ADRs)
Medication errors have been examined by the Institute of Medicine in their publication “To Err Is Human”. Medication errors have been examined by the Institute of Medicine in their publication “To Err Is Human”.
128. Medication Misadventures (cont'd) By definition, all ADRs are also ADEs
But all ADEs are not ADRs
Two types of ADRs
Allergic reactions
Idiosyncratic reactions
Adverse drug reactions include allergic reactions and idiosyncratic reactions.
Allergic reactions are usually predictable, while idiosyncratic reactions are usually unpredictable.Adverse drug reactions include allergic reactions and idiosyncratic reactions.
Allergic reactions are usually predictable, while idiosyncratic reactions are usually unpredictable.
129. Medication Errors Preventable
Common cause of adverse health care outcomes
Effects can range from no significant effect to directly causing disability or death 68% of medication errors are preventable!
They cost the US on average of 60 billion dollars
7000 patients died last year as a result68% of medication errors are preventable!
They cost the US on average of 60 billion dollars
7000 patients died last year as a result
130. Box 5-1 Common classes of medications involved in serious errors
131. Preventing Medication Errors Minimize verbal or telephone orders
Repeat order to prescriber
Spell drug name aloud
Speak slowly and clearly
List indication next to each order
Avoid medical shorthand, including abbreviations and acronyms
132. Preventing Medication Errors (cont'd) Never assume anything about items not specified in a drug order (i.e., route)
Do not hesitate to question a medication order for any reason when in doubt
Do not try to decipher illegibly written orders; contact prescriber for clarification
133. Preventing Medication Errors (cont'd) NEVER use “trailing zeros” with medication orders
Do not use 1.0 mg; use 1 mg
1.0 mg could be misread as 10 mg, resulting in a tenfold dose increase
134. Preventing Medication Errors (cont'd) ALWAYS use a “leading zero” for decimal dosages
Do not use .25 mg; use 0.25 mg
.25 mg may be misread as 25 mg
“.25” is sometimes called a “naked decimal”
135. Preventing Medication Errors (cont'd) Check medication order and what is available while using the “5 rights”
Take time to learn special administration techniques of certain dosage forms
136. Preventing Medication Errors (cont'd) Always listen to and honor any concerns expressed by patients regarding medications
Check patient allergies and identification
Medication Reconciliation
137. Medication Errors Possible consequences to nurses
Reporting and responding to MEs
ADE monitoring programs
USPMERP (United States Pharmacopeia Medication Errors Reporting Program)
MedWatch, sponsored by the FDA
Institute for Safe Medication Practices (ISMP)
Notification of patient regarding MEs
138. 3. Nurses are legally required to document medications that are administered to clients. The nurse is mandated to document:
A. Medication before administering it
B. Medication after administering it
C. Rationale for administering the medication
D. Prescriber’s rationale for prescribing the medication Answer: BAnswer: B
139. 4. If a nurse experiences a problem reading a physician’s medication order, the most appropriate action will be to:
A. Call the physician to verify the order.
B. Call the pharmacist to verify the order.
C. Consult with other nursing staff to verify the order.
D. Withhold the medication until the physician makes rounds. Answer: AAnswer: A
140. Medication Administration
142. Preparing for Drug Administration Check the “5 rights”
Standard Precautions: Wash your hands!
Double-check if unsure about anything
Check for drug allergies
Prepare drugs for one patient at a time
Check three times
143. Preparing for Drug Administration (cont'd) Check expiration dates
Check the patient’s identification
Give medications on time
Explain medications to the patient
Open the medications at the bedside
Document the medications given before going to the next patient
144. Drug Routes & First Pass Effects First Pass Routes- Oral, Rectal
Non-First Pass Routes- Aural, Buccal, Inhaled, Intraarterial, Intramuscular, Intranasal, Intraocular, Vaginal, Intravenous, Subcutaneous, Sublingual, Transdermal
145. Oral Route Easiest, most commonly used
Slower onset of action
More prolonged effect
Preferred by clients
Sublingual Administration
Buccal Administration
147. Enteral Drugs Giving oral medications
Giving sublingual or buccal medications
Liquid medications
Giving oral medications to infants
Administering drugs through a nasogastric or gastrostomy tube
Rectal administration
148. Parenteral Route Injecting a medication into body tissues
Subcutaneous (SQ)
Intramuscular (IM)
Intravenous (IV)
Intradermal (ID)
Advanced techniques
149. Parenteral Drugs Never recap a used needle!
May recap an unused needle with the “scoop method”
Prevention of needlesticks
Filter needles Filter needles should be used when drawing up reconstituted medications in order to prevent precipitate from entering syringe.Filter needles should be used when drawing up reconstituted medications in order to prevent precipitate from entering syringe.
150. Parenteral Drugs (cont'd) Removing medications from ampules
Removing medications from vials
Disposal of used needles and syringes
151. Injections Needle angles for various injections
Intramuscular (IM)
Subcutaneous (SC or SQ)
Intradermal (ID)
Z-track method for IM injections
Air-lock technique
152. Injection Techniques Intradermal injections
Subcutaneous injections
Insulin administration
Heparin administration
156. Injection Techniques (cont'd) Intramuscular injections
Ventrogluteal site (preferred)
Vastus lateralis site
Dorsogluteal site
Deltoid site
158. Preparing Intravenous Medications Needleless systems
Compatibility issues
Expiration dates
Mixing intravenous piggyback (IVPB) medications
Labeling intravenous (IV) infusion bags when adding medications
161. Intravenous Medications Adding medications to a primary infusion bag
IVPB medications (secondary line)
IV push medications (bolus)
Through an IV lock
Through an existing IV infusion
164. Intravenous Medications (cont'd) Volume-controlled administration set
Using electronic infusion pumps
Patient-controlled analgesia (PCA) pumps
166. Topical Drugs Eye medications
Drops
Ointments
Ear drops
Adults
Infant or child younger than 3 years of age Adult ear drops – pull pinna up and back
Children younger than 3 – pull pinna down and backAdult ear drops – pull pinna up and back
Children younger than 3 – pull pinna down and back
168. Topical Drugs (cont'd) Nasal drugs
Drops
Spray
Inhaled drugs
Metered-dose inhalers
Small-volume nebulizers
170. Topical Drugs (cont'd) Administering medications to the skin
Lotions, creams, ointments, powders
Transdermal patches
Vaginal medications
Creams, foams, gels
Suppositories
