Pharmacology in Nursing PDF

Summary

This document provides an overview of pharmacology, focusing on drug classifications, mechanisms of action, and drug actions. The text covers various aspects of drugs, including side effects and adverse effects, and drug toxicity.

Full Transcript

 Pharmacology in nursing

pharmacology 2) side effect
-Is the study of drugs and its origin - Can be both therapeutic and harmful
- alter functions of living organisms - also referred as the secondary effect
- unintended effect
- do not hinder the main effect of the drug
Basic concepts of pharmacology
- mild effect

3) adverse effect
Drugs - Generally harmful and undesirable
- Are chemicals that alter physiochemical processes in - Can hinder the treatment and lead to more
body cells complications
- Can stimulate or inhibit normal cellular functions - severe side effect
- More severe and life threatening

Drug classification
Drug toxicity
1) chemical structures - the molecular arrangement of atoms - drug resulting from over dosage
2) mechanism of action (MOA) - refers to the interaction - Can damage the kidney
3) mode of action (MoA) - functional or anatomical change

*Mechanism of action, mode of action & indication* Drug allergy
-Immunologic reaction to a drug
drug information - also referred as "medication information" or drug - requires skintest to prevent allergy
informatics" range from discovery - 30 minutes waiting time

Drug tolerance
*3 types of drug names* - exist in person with unusually law physiologic
response to a drug
1) Generic or nonproprietary name
- Name approved by the medical or pharmaceutical associations
in the original country *Drug regulation and mandates*
- Adapted by all countries
1) FDA
2) brand name or trade name - food and drug administration of the Philippines
- name given by the manufacturer of the drug -To license, regulate and monitor to the flow of food,
drugs, cosmetics etc.
3) chemical name - to ensure the health for the public
- Name that describes the atomic or chemical structure
2) Republic Act No. 3720
*Drug action* - created the group FDA
-To ensure the safety and purity of foods
1) therapeutic effect
- also referred as the "desired effect"
- primary effect intended 3) Republic Act No. 8203
- Known as the special law on counterfeit drugs
-Unregistered imported drug product
4) Republic Act No. 7394 Liquid medication:
- Known as "consumer act of the Philippines" ✓ mix before pouring
- To protect the interest of the consumer ✓ place medication cup on flat surface, eye level
- protection against deceptive practices ✓ desired level the batter using of the meniscus

5.) Republic Act No. 9165 Transdermal patch:
-comprehensive dangerous drugs act of 2002 Site: trunk or lower abdomen
- created for the efficient and effective law enforcement ✓ hairless
✓ not excessive movements or wrinkling
* illegal drugs in the Philippines * Avoid: cuts, burns, abrasions, etc.

I) methamphethamine hydrochloride (shabu) Ophthalmic medications:
2) marijuana - clean the eyelid and the lashes from inner to
after canthus
*Principles of drug administration*
Ears:
Common route: oral Adults and above 3
Contraindications: Vomiting -Pull the pin upward and backward
Gastric suction
Unconscious client Child (below 3)
Inability to swallow - pull the pinna downward and backward

Unsafe actions: * remain side-lying for 5 minutes
- Do not crush enteric coded or gel-coated tablets
- Do not try to open sealed capsules
- Do not crush long-acting tablets
- Do not crush contents- with beads or pellets
-Do not give sublingual formulating orally
- Do not give oral medications sublingually

Safe actions:
- scored tablets may split
- chewable medications can be crushed safely
-If capsule can open easily, it can be mixed with food or liquid
- sublingual formulation can still be given of the client is NPO

Oral medication

Tablets or capsules:
✓ difficulty in swallowing
✓ crush and mix with small amount of water

Avoid crushing:
Sustained-action
Enteric coated
Buccal and sublingual tablets
 Pharmacokinetics phase

*Factors affecting Rate of dissolution*
How does your body process medicine? 1) form of drug - liquid absorb faster than capsules/tablets
2) gastric ph (acidic vs. Alkaline)
1) pharmaceutics phase - a solid form dissolves 3) normal gastric pH- 1.5 to 3.5
until it became a liquid form 4) age

2) pharmacokinetic phase
- absorption (first pass effect) Enteric coated drugs - resist disintegration in gastric acid
- Distribution (protein binding) - Should not be crushed
- Metabolism (onset, peak duration)
- Excretion (half life)
Pharmacokinetics phase
3) pharmacodynamic phase - process of drug movement throughout the body
- receptors are agonist and antagonist
4 process of drug movement
When drug is taken by mouth, it undergoes 3 phases: 1) absorption - lining of small intestine absorbs the drugs
2) distributions - drugs absorb by blood vessels
1) pharmaceutic/dissolution 3.) metabolism - absorb by the liver (biotransformation)
2) pharmacokinetics 4) excretion - excrete by kidney via elimination
3) pharmacodynamics

When drug is taken by injection, it under goes 2 phases: *Absorption*
- movement of the drug into the bloodstream after administration
1) pharmacokinetics - 80% of the drugs are taken by mouth
2) pharmacodynamics - moves from site of administration to circulatory system

Two types of absorption
*2 phases of pharmaceutics phase* Physiological - blood flow to absorbing site
- area of absorption
1) disintegration - breakdown into smaller parts - Time of arrival and contact time
2) dissolution - further breakdown into smaller parts on GI
- Absorption, dissolve into liquid Physic-chemical- solubility
- chemical stability
Pharmaceutics phase ( dissolution) -Lipid to water partition
- The 1st phase of drug action - degree of ionization
- GI tract, drugs need to be in solution so they can be absorbed
- It disintegrate into small particles to dissolve Movement of drug from GIT to body fluids involves 3 process:

1) passive transport
Excipients Two types of passive transport:
- This are the tablet that are not 100% drugs A) diffusion -moves from one area of higher concentration to a

- It allows the drug to take as particular size and shape lower concentration
B.) facilitated diffusion- requires carrier such as enzymes or
protein to move the drug
- Does not require energy
2) pinocytosis *Drug excretion*
- Process by which cells carry a drug across - removal of the drug from the body
their membrane - drug is changed into inactive form
*Kidney- main organ for elimination
3) active transport - requires energy
- occurs specific sites in the small intestine
Pharmacodynamic phase

*Drug distribution* - study of the effect of drugs on the body
- A process by which drug becomes available to body fluids and tissues - Drugs mimic the actions of the body's own
- movement of the drug from the circulation to body tissues chemical messenger
Factors affect distribution Dose-response relationship
1) protein binding - drugs are distributed in the plasma 1) drug affinity
2) size of the organ 2) drug efficacy
3) blood flow 3) drug potency
4) solubility
*Drug metabolism Drug affinity
-Also known as “Biotransformation" - how avidly a drug binds its receptor
- the drug chemically changes into a form that can be excreted - drug's desire to connect to an open receptor
* liver produce cytochrome P450 enzyme (deactivates/metabolites drug) - refers to how much attraction here is between a
drug and receptor

Drug half-life - the amount of drug being eliminated
Short half-life - 4 to 8 hrs given several times a day Drug efficacy
Long half-life-less than 12hrs given 2 times or 1 times a day - refers to the drug's ability to activate the receptor
drug excretion - removal of the drug from the body - Maximum response achievable from dosed agent
- done by kidney via urine - maximal effect that a drug produces concentration dose
* kidney - main organ for drug elimination - Maximal effect is the increasing a drugs dosage
no longer increases therapeutic dosage
Free/ unbound - does not bind on protein
-Water soluble drugs Drug potency (Dose)
- filtered in the kidney - potency refers to the amount of drug needed to
elicit a drug response
Normal urine pH - 4.6 to 8 - Lower dose with same effectiveness
*Acidic urine promotes elimination of weak base drugs -Less is more
* alkaline urine promotes elimination of weak acid drugs

Parameters of drug action
Factors affecting biotransformation
therapeutic index (TI) - describes the relationship
1.)genetic- some people metabolite rapidly, some are not between the therapeutic dose of a drug (ED50)
2) physiologic: -The toxic dose of a drug (TD50)
liver disease -The higher the TI, the drug is more safe give
Infants - decreased rate of metabolism - drug with lower TI, need to be monitored for
Elderlies - decreased liver size adverse effect
Environment- cigarette may affect the rate of some drugs
Stressful environment- prolonged illness
 Therapeutic index ratio
TD50
TI = ———-
ED50

Narrow therapeutic index drugs
Carefully Watch drugs possessing law therapeutic index

Carbamazepine
Warfarin
Digoxin
Phenytoin
Lithium /levothyroxine
Theophylline
Immunosuppressants

Wide therapeutic index drugs
Ibuprofen
Acetaminophen
Antihistamines
Most antibiotics
Beta blockers
Multivitamins
Proton pump inhibitors

Parameters of drug action
Onset - time for a drug to reach the minimum effectiveness
after administration
Formula: T0-T1

Peak - it reaches its highest concentration
Formula: T0-T2

Duration of action- length of time the drug exerts effect
Formula: T1-T3
Respiratory agents 3.) expectorant
- reducing the viscosity of
pulmonary secretion
Respiratory tract - increase fluid intake while taking
this medications
Upper respiratory tract. 4) antitussive
- nasal cavity - large group of narcotic or non
-Pharynx narcotic drug
- Larynx - suppress the cough reflex

Lower respiratory tract * Nonnarcotic - suppress the cough reflex by
-Trachea numbing the stretch receptors
- primary bronchi
- lungs * Narcotic - suppress the cough reflex by
direct action in the medulla
Upper respiratory tract infection (URTI)
- common cold
- acute rhinitis Lower respiratory tract infection
-Sinusitis
- acute pharyngitis *Common disorder: Bronchial asthma

Drugs for upper respiratory disorder Asthma - heightened airway reactivity
-Results to harrowing and swelling of
1) antihistamines (H1 blockers) the airway

Histamine - allergic reaction Status asthmaticus - acute, severe
- results of dilatation of capillaries asthma attack
- Decreased BP - unresponsive to usual treatment
-Increased gastric secretion
- Constriction of the bronchi and uterus Drugs for lower respiratory disorder

H1 receptors - Found in lungs Bronchodilators - dilate the bronchioles
- results in bronchoconstriction 1) sympathomimetic
2) methylxanthines
H2 receptors - found in stomach 3.) Anticholinergic'S
- Results in increase gastric
acid secretion Sympathomimetics
Anticholinergic properties results in decreased - Beta, 2-adrenergic agonists
secretions blocks H2 receptor Beta 2 agonists
Salmeterol
Metaproterenol
Action of antihistamines - blocks HI receptors to Albuterol
decrease allergic response
Ritodrine
Terbutaline
2) decongestants (sympathomimetic amines)
- eliminates or reduces congestion
or swelling
 B2 agonists Nursing interventions:
- assess respiratory status
-Assess liver function tests
Short acting Long acting - Does not treat acute asthma attacks

Terbutaline Salmeterol
Preventers - reduce swelling &
Salbutamol Formoterol inflammation in the airways

SABA- asthma attack, emergency or rescue meds
LABA- maintenance, prevention Controllers - are long-acting beta-
adrena receptor (LABA)
2) xanthine derivatives (methylxanthines)
Common drugs: aminophylline - oral or IV
-Theophylline Relievers - are short-acting beta 2
adrena receptor (SABA)
Side effects: - used as "needed" to relieve asthma attacks
Cardiac stimulation
gastro intestinal distress
Tremors

Nursing implications:
Avoid food and beverage
Monitor blood levels for toxicity
Therapeutic blood level is 10 to 20 ug/ml
Greater than 20 ug/ml = nausea - 1st sign
Greater than 35 ug/ml= tremors- late sign

3.) Anticholinergic'S
- blocks ach-muscarinic receptors
- bronchodilation
- often in inhalation forms

Anti-inflammatory
1.)Glucocorticoids - corticosteroids
2.) Leukatriene receptor antagonist

Glucocorticoids
Action: anti-inflammatory effect
- decrease inflammatory substances
- reduce mucus plugs and edema

Nursing interventions:
- use bronchodilator before corticosteroid

Leukatriene Receptor antagonist
- new class of drugs for asthma
- most beneficial in treating asthma
- combination of both bronchodilators and
anti-inflammatory effects
 Nervous system agents
2) anorexiants
Composed of : Action: suppress the appetite by acting on
A) Central nervous system hypothalamus
1) Brain USE: Weight reduction when
2) spinal cord accompanied medical complications

B) peripheral nervous system 3) analeptics
1) somatic nervous system Action: stimulates the CNS by acting on
- voluntary the cerebral cortex &medulla
- skeletal muscles and sensory information Use: respiratory stimulation to
primary use
2) autonomic nervous system
- involuntary Major side effects:
- cardiac and smooth muscles -Dysrhythmias -abnormality activity of the heart or brain
- glandular secretions - heart attacks
* Sympathetic -fight fight system - tachycardia
* Parasympathetic - Energy conservation -Tachypnea
- Seizures and tolerance/abuse
Central nervous systems medication
Nursing implication:
A) CNS stimulants - monitor the dietary intake of caffeine
*Stimulants- substance that quickens the CNS by - watch the withdrawal symptoms
increasing the rate of neuronal discharge - avoid other foods & drinks that
contain stimulants
Classification: CNS stimulants
Amphetamines CNS depressants
Anorexiants Sedative-hypnotics
Analeptics Anesthetics
Analgesics
1) amphetamines & Amphetamine Anticonvulsants
Anxiolytics
Action: stimulate the release of norepinephrine Antidepressants
- Cause increased alertness
1) sedative-hypnotics
Narcolepsy - characterized by sudden sleep attack Sedative - agent that produces a state
Endogenous obesity- dysfunction of the endocrine of calmness
- amphetamines suppress the appetite Hypnotic - agent given at bedtime to
Attention deficit hyperactivity disorder (ADHD) - induce sleep
amphetamine increases attention span while
decreasing the hyperactivity Categories of sedative- hypnotics
Mental depression - elevate the mood A) barbiturates
Action: produce levels of CNS
Nursing applications: depression by decreasing synaptic
-Diet & exercise program membranes
- Check with pharmacist about all OTC medications Use: sedative and hypnotic
- Do not stop the drug if not necessary Preoperatively & as anesthetic
-Do not make up missed dose - Anticonvulsant
- avoid other stimulants while on these drugs
- avoid taking the last dose after 4 to 6PM to
prevent insomnia
 B) benzodiazepines
Action: increase in GABA inhibitor
- Calming effect

2) Anesthetics
Anesthesia - loss of sensation

Classification of anesthetics

A) General
- agents cause reversible loss of consciousness

B.) regional Nursing considerations:
-loss of pain sensation
Avoid discontinuation after
C) local prolonged use
- blocks pain where the drug is administered not given if BP is decreased
Xanax
Barbiturates - commonly used in iv anesthetic Increase in 3D'S ( drowsiness, dizziness
Benzodiazepine - cause antegorade amnesia and decrease in bp)
Ketamine hydrochloride - Used for short Enhance action of GABA
surgical procedures teach to rise slowly from supine
Propofol- can cause respiratory depression yes, alcohol I caffeine should be avoided
3) anticonvulsants Antidepressants and mood stabilizers
-Substance that prevents or stop the severity of
epileptic disorder A) tricyclic antidepressants (TCAs)
Action': increases neurotransmitter
GABA( gamma - Aminobutyric acid ) concentration
- is the main inhibitory neurotransmitter
Nursing implication:
Glutamate - major excitatory neurotransmitter - 1 to 3 weeks before drug will take effect

Nursing considerations: B) monoamine oxidase inhibitors (MAOIs)
Action: inhibit Mao enzymes
CNS: dizziness - 2nd line antidepressants
eat food with drug
Antacids decrease C) selective serotonin reuptake inhibitors
Support group for epileptics (SSRIs)
Alert tag indicating drug Action: antidepressant response the is from
Report adverse effect serotonin uptake

Anxiolytics / antianxiety drugs
Action: enhance the effect of GABA
Gastrointestinal agents 4) osmotic laxatives
Action: water retention or osmotic effect
Vomiting (emesis) where soft bulky stool
- the forceful expulsion of gastric contents
via mouth Drugs used to treat peptic ulcer
- activated by dopamine Ulcer - disruption of mucosal integrity
- stimulated by odor, smell, taste, gastric of the stomach
mucosal irritation - leads to excavation due to active
inflammation
1) antihistamines
Action: act primarily on vomiting center Pharmacologic treatment;
Acid-suppressing dugs
2.) Anticholinergic'S mucosal protective agents
Action: act primarily on vomiting center
3) dopamine-antagonists
Action: block dopamine 2 receptors in 1) antacids
the CTZ vomiting center Action: neutralization of secreted acid
Side effects:
4) serotonin (5-HT3) Receptor antagonists - rebound acidity
Action: black serotonin receptors in the CTZ - Constipation if aluminum products
-Effective in suppressing nausea caused by are used
cancer chemotherapy - diarrhea if magnesium products
are used
Drugs used to treat diarrhea - Fluid retention if sodium bicarbonate
are used
Diarrhea -Milk-alkali syndrome if calcium
- passage of abnormally liquid or unformed stools salts are used
- fecal output is greater than 200grams per day on
low-fiber diet Nursing interventions:
- administer the drug from other oral
Laxatives medications, hour before or 2hours after

Constipation 2)H2 receptor antagonists
- persistent, difficult defecation Action: selectively black histamine
H2 receptor
Types of laxatives Cimetidine-anti androgenic effects

1) bulk forming - natural, fibrous substances 3) proton-pump inhibitors(PPIs)
Action: fluid in the intestinal contents Action: inhibits the hydrogen

2) surfactant laxatives- also known as” Nursing implications:
emollients” or "lubricant laxatives" - should be taken before meals
Action: lowers surface tension & promote - monitor patient response to drug
water accumulation
Mucosal protective agents
3.) stimulant/ contact laxatives Sucralfate
Action: stimulates the nerve plexus in the - absorbs pepsin and decreases its
intestinal wall concentration