Physiology and pharmacology of pain
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Transcript of Physiology and pharmacology of pain
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Physiology and Pharmacology of Pain
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“But pain is a perfect misery The worst of evils
Excessive overturnsAll patience”
John Milton In Paradise Lost
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Objectives
• Definition of pain• Nociceptors : Location, types• Types of pain • Pathway of Pain • Opioid analgesics – Mechanism of action – Morphine – Other opioid analgesics
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Pain
• Unpleasant sensory and emotional experience associated with actual or potential damage
• Pain is redefined as a perception instead of a sensation because it is always a psychological state. – Latin word "peona " meaning punishment
• Pain is always subjective • It is differently experienced by each individual.
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Nociception
– Coined by Sherrington – Latin: noxa means injury – it means the ´perception of noxious stimuli´
• Mechanism by which noxious peripheral stimuli are transmitted to the central nervous system to elicit a mechanical response .
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Pain - Receptors• Specialized naked nerve endings found in almost every
tissue of the body.• Activated by stimuli (mechanical, thermal, chemical)• Distinguished from other receptors by– their higher threshold, and – they are normally activated only by stimuli of noxious
intensity-sufficient to cause some degree of tissue damage.
• Aδ: Myelinated • C: Unmyelinated
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Characteristic features of Aδ & C fibres
Feature Aδ fibre C fibre Number Less More Myelination Myelinated Unmyelinated Diameter 2-5 µm 0.4-1.2 µmConduction velocity
12-30 m/s 0.5 -2 m/s
Specific stimulus
Most sensitive to pressure
Most sensitive for chemical agents
Impulse conduction
Fast component of pain
Slow component of pain
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Location of nociceptors
• Superficial skin layers • Deeper tissues – Periosteum, joints,
arterial wall, liver capsule, pleura
• Other deeper tissues – Sparse pain nerve
endings – But wide spread tissue
damage results in pain
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Types of Nociceptors
• Somatic – Free nerve endings of Aδ & C fibres – Unimodal, polymodal, silent
• Visceral – Wide spread inflammation, ischemia, mesentric
streching , spasm or dilation of hollow viscera produces pain
– Probably strech receptors
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Pain stimuli
• Mechanical / thermal stimuli – Fast pain: Sharp well localized , pricking type
• Chemical stimuli – Slow pain: poorly localized, dull, throbbing – K+, ADP, ATP– Bradykinin, histamine– Serotonin, Prostaglandins – Substance P, CGRP
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Clinical types of pain
• Somatic • Visceral • Referred pain – Convergence & facilitation theory
• Projected pain • Radiating Pain • Hyperalgesia
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Pathway of pain sensation
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Modulation of pain
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Gate control system
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Supra spinalpain supression
system
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Analgesics
• Drugs which relieve pain due to multiple causes with out causing loss of consciousness
• Drugs which relieve pain due to single causes or specific pain syndromes (ergotamine, carbamazepine, nitrates) are not classified as analgesics
• Corticosterroids also not classified as analgesics
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Analgesics
• Opioid analgesics – Morphine and morphine like drugs
• Non steroidal anti-inflammatory drugs – Paracetamol, diclofenac, ibuprofen etc
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Mechanism of action of Opioids
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Opioid Receptors
• Opioid receptors found in the brain, spinal cord and peripheral nervous system
• Mu (μ1 and μ2 )• Kappa (k1 & k3)• Delta (δ)• Nociceptin/Orphanin (N/OFQ)
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Opioid Receptors
• Inhibitory action; coupled to Go & Gi
Structure of the opioid receptor
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Mu-Receptor: Two Types
μ1
– Located outside spinal
cord– Higher affinity for
morphine– Supraspinal analgesia– Selectively blocked by
naloxone
μ2
– Located throughout CNS– Responsible for• spinal analgesia,• Respiratory
depression, • constipation• physical dependence,
and euphoria
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Kappa Receptor
• Only modest analgesia(spinal κ1 and supraspinal κ3)
• Little or no respiratory depression• Little or no dependence• Dysphoric effects• Miosis • Reduced GI motility
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Delta Receptor
• High affinity for Leu/Met enkephalins endogenous ligands.
• The δ mediated analgesia is mainly spinal• Affective component of supraspinal analgesia
appears to involve δ receptors as these receptors are present in limbic areas—also responsible for dependence and reinforcing actions.
• The proconvulsant action is more prominent in δ agonists.
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Spinal sites of opioid action.
reduce transmitter releasefrom presynaptic terminals of nociceptive
primary afferents
hyperpolarizesecond-order pain transmission neurons by increasing
K+ conductance, evoking an inhibitorypostsynaptic potential
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The descending control system, showing the main sites of action of opioids on pain transmission
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Analgesic features of Morphine
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Efficacy
• Morphine is a strong analgesic. • Higher doses can mitigate even severe pain• Degree of analgesia increasing with dose. • Simultaneous action at spinal and supraspinal
sites greatly amplifies the analgesic action.
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Selectivity
• Suppression of pain perception is selective• No affect on other sensations • proportionate generalized CNS depression
(contrast general anaesthetics).
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Type of pain
• Dull, poorly localized visceral pain is relieved better than sharply defined somatic pain
• Nociceptive pain arising from stimulation of peripheral pain receptors is relieved better than neuritic pain due to inflammation or damage of neural structures
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Mood and subjective effects
• Morphine has a calming effect.• The associated reactions to intense pain – apprehension, – fear, – autonomic effects are also depressed.
• Perception of pain and reaction to it are both altered so that pain is no longer as unpleasant or distressing, i.e. patient tolerates pain better.
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• Other effects include – feeling of detachment, – Lack of initiative, – limbs feel heavy and body warm,– mental clouding and inability to concentrate.
• In normal people, in the absence of pain or apprehension, these are generally appreciated as unpleasant
Mood and subjective effects
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• Patients in pain or anxiety and addicts – specially perceive it as pleasurable– Refer it as 'high'.
• Rapid IV injection by addicts - givesthem a 'kick' or 'rush' which is intense,pleasurable—akin to orgasm.
• Thus one has to learn to perceive the euphoric effect of morphine.
Mood and subjective effects
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Mood and subjective effects
In normal personsDependence and
Addiction
In patients - Pain reliefNo addiction
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Other pharmacological actions
Gastrointestinal system :– Increase in tone ,– reduced motility , – contraction of sphincters ,– decrease of G.I. secretions– leading to constipation .( , k , receptors ).
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Other effects
Respiratory centre • Morphine depresses respiratory centre in a
dose dependent manner • Rate and tidal volume are both decreased• Death in poisoning is due to respiratory failure • Neurogenic, hypercapnoeic and later hypoxic
drives are suppressed in succession
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• C.V.S. :– Vasodilatation due to direct decrease of tone of
blood vessels – Shift of blood from pulmonary to systemic circuit– histamine release and– depression of vasomotor centre
• Urinary bladder– Detrusor contraction leading to urgency .– Sphincter contraction leading to retention of urine
Other effects
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• Bronchoconstriction – due to histamine release by morphine .
• Uterus may be relaxed .• Mild hyperglycemia due to central
sympathetic stimulation .• It has weak anticholinesterase action .
Other effects
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• Endocrine – Growth hormone and prolactin and ADH levels
are increased .– FSH ,LH and ACTH levels are decreased .
Other effects
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Pharmacokinetic features
• Oral absorption is unreliable• Metabolized by glucuronide conjugation. • Morphine-6-glucuronide is an active
metabolite (more potent than morphine)• freely crosses placenta• t1/2of morphine averages 2-3 hours• Effect of a parenteral dose lasts 4-6 hours
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ADVERSE EFFECTS
• The toxic effects of morphine are an extension of their pharmacological effects
• Idiosyncrasy and allergy – Urticaria, itch,swelling of lips. – A local reaction at injection site
may occur due to histamine release.• Allergy is uncommon and anaphylactoid
reaction is rare.
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• Apnoea This may occur in new born whenmorphine is given to mother during labour.
• The BBB of foetus is undeveloped, morphine attains higher concentration in foetal brain
• Naloxone 10 µg/kg injected in chord is the treatment of choice.
ADVERSE EFFECTS
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Tolerance
Onset • Tolerance to morphine develops rapidly and
can be detected within 12 – 14 hours of morphine administration
• within 3 days the equianalgesic dose is increased 5 fold .
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Tolerance - effects
• Tolerance extends to most actions of morphine– analgesia , – euphoria ,– respiratory depression
• not to the constipation miosis and convulsions• Cross tolerance occurs between drugs acting at
the same receptor , but not drugs acting on different receptor
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Tolerance - Mechanism
• The tolerance is not pharmacokinetic but due to the true cellular adaptive response
• Two proposed mechanisms– upregulation of cAMP system– Downregulation of μ receptors
• Recent research suggests tolerance results due to uncoupling between μ receptor and G proteins
• Leading to reversal of second messenger (cAMP) and ion channel system
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• Recently the NMDA antagonists and nitric oxide synthase inhibitors have been found to block morphine tolerance and dependence in animals.
• Thus, analgesic action of morphine can be dissociated from tolerance and dependence which contribute to its abuse by– NMDA receptor antagonists – Agents that recouple μ receptor and G proteins
Tolerance - Mechanism
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Dependence
Dependence comprises two components• Physical dependence - associated with the
withdrawal syndrome, lasting for a few days• Psychological dependence - associated with
craving, lasting for months or years.
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Withdrawal symptoms
• Withdrawal of the drug causes significant distress to cause a drug seeking behavior manifested by– sweating ,lacrimation, dehydration,fear – anxiety , restlessness , mydriasis , tremor , colic – hypertension , tachycardia and weight loss .
• Weak long acting receptor agonist methadone used to relieve withdrawal syndrome.
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Psychological dependence
• Opioids facilitate DA transmission in mesolimbic /mesocortical pathways and activate endogenous reward pathways in brain.
• Important in intiating and mantaining drug seeking behaviour
• Psychological dependence rarely occurs in patients being given opioids as analgesics
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Acute morphine poisoning
• 50 mg morphine i.m. produces serious toxicity.
• lethal dose : 250 mg.
• Manifestations are extension of pharm. action.
• Stupor, flaccidity, shallow breathing, cyanosis, miosis, ↓BP & shock. Convulsions, pulmonary edema,coma occur at terminal stages
• Death is due to respiratory failure.
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Treatment
• Respiratory support• Maintenance of BP• Gastric lavage with pot. Permanganate• Naloxone 0.4-0.8 mg i.v. repeated every 2-3
min till respiration picks up. Repeat every 1- 4 hrs later on, according to response.
• preferred specific antagonist : does not have any agonistic action and resp. depression
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Precautions and C/I
• Infants and the elderly• Patients with respiratory insufficiency • Bronchial asthma• Head injury • Hypotensive states and hypovolemia • Undiagnosed acute abdominal pain• Elderly male• Hypothyroidism, liver and kidney disease• Unstable personalities
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Drug interactions
• Drugs which poteniate morphine– Phenothiazines, TCA, MAO inhibitors,
– Amphetamine and Neostigmine
• Morphine retards absorption of many orally administered drugs by delaying gastric emptying..
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Dose
• 10-50 mg oral, • 10-15 mg i.m. or s.c. or• 2-6 mg i.v.• 2-3 mg epidural/intrathecal; • children 0.1-0.2 mg/kg
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Therapeutic uses
• Morphine / parenteral congeners indicated as analgesic in – traumatic, visceral, ischaemic (myocardial
infarction),
– postoperative, burns, cancer pain. • Relieves anxiety and apprehension in serious
and frightening disease accompanied by pain: myocardial infarction,
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Acute left ventricular failure (cardiac asthma)
• Morphine rapid i.v. affords dramatic relief by– ↓ preload and peripheral pooling of blood.– shift blood from pulmonary to systemic circuit– relieves pulmonary congestion and edema.– Allays air hunger by depressing respiratory centre.– Cuts down sympathetic stimulation by calming
the patient, reduces cardiac work.
Therapeutic uses
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Epidural and intrathecal injection of Morphine
• It is being used for – analgesia in abdominal, lower limb and pelvic surgeries
– labour, postoperative, cancer and other intractable pain.
– Preanaesthetic medication
• produces segmental analgesia for 12 hour without affecting sensory, motor or autonomic modalities.
• Resp. depression occurs after delay due to ascent through subarachnoid space to the resp. centre.
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Codiene (Methyl Morphine)
• low-efficacy opioid a prodrug (t1/2 3 h).• lacks efficacy for severe pain • most of its actions 1/10th those of morphine.• Large doses cause excitement.• Dependence much less than with morphine.• principal use: mild to moderate pain & cough• 60 mg coeine = 600 mg aspirin
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Pethidine
• Pethidine differs from morphine in that it:• does not usefully suppress cough• less likely to constipate• less likely to cause urinary retention & prolong
childbirth• little hypnotic effect• shorter duration of analgesia (2-3 h).• Dose: 50-100mg SC or IM
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Methadone
• principal feature of methadone is long duration, analgesia may last for 24 h.
• If used for chronic pain in palliative care (12-hourly) an opioid of short t ½ should be provided for breakthrough pain rather than an extra dose of methadone.
• Also used in opioid withdrawal• Dose: 2.5 mg to 10 mg oral or IM
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Fentanyl
• Pethidine congener 80-100 times potent than morphine in analgesia and resp. depression
• High lipid solubility peak effect in 5 min • Duration of action 30-40 min • Injectable form exclusively used in anaesthesia • Transdermal patch available used in cancer or
other types of chronic pain • Dose: 25-75 µg /hr acts for 72 hours
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Patient controlled analgesia (PCA)
• An attractive technique of postoperative pain control
• patient himself regulates the rate of i.v. fentanyl infusion according to intensity of pain felt.
• Transdermal fentanyl is a suitable option for chronic cancer and other terminal illness pain
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Dextropropoxyphene
• Less analgesic, antitussive, and less dependence
• Its analgesic usefulness equal to codeine. • Commonly combined with paracetamol • Dextropropoxyphene interacts with warfarin,
enhancing its anticoagulant effect.• Dose= 60-120 mg
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Tramadol
• Relieves pain by opioid as well as other mechanisms
• 100 mg IV Tramadol = 100 mg IM morphine• Dose: 50-100 mg TDS • Less respiratory depression, sedation,
constipation, urinary retention, ↑intrabiliary pressure & dependence than morphine
• As effective as pethidine for postoperative pain and as morphine for moderate chronic pain.
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Pentazocine
• Weak µ antagonist action and marked κ agonist action
• Analgesia is primarily spinal (K1)• can cause a withdrawal syndrome in addicts• Dose= 30-60 mg IM OR 50 -100 mg oral • shorter duration of pain relief 4-6 hrs, • less dependence, sedation & resp. depression• Use: post operative, moderately severe burns
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Butorphanol
• K analgesic like pentazocine but more potent • Psychomimetic effects less marked • Neither substitute nor antagonize morphine • Dose: 1-4 mg IM / IV • Use:– Post operative – Short lasting painful conditions (renal colic)
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Buprenorphine
• High-efficacy partial agonist of µ receptor and an antagonist of the K-receptor.
• Less liability to induce dependence and respiratory depression than pure agonists
• Duration of action = 6-8hrs • Dose: 0.3-0.6 mg IM, SC, 0.2 -0.4 mg SL• Use: cancer, MI, Post Operative, morphine
dependence Contraindiacted In labour pain
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NON STEROIDAL ANTIINFLAMMATORY DRUGS
DR.AYESHA
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A- Nonselective COX inhibitors (conventional NSAIDs)
• Salicylates: Aspirin, Diflunisal.• Pyrazolone derivatives: Phenylbutazone,
Oxyphenbutazone.• Indole derivatives: Indomethacin, Sulindac.• Propionic acid derivatives: Ibuprofen, Naproxen,
ketoprofen, Flurbiprofen.• Anthranilic acid derivative: Mephenamic acid.• Aryl-acetic acid derivatives: Diclofenac. • Oxicam derivatives: Piroxicarn, Tenoxicam.• Pyrrole-pyrrole derivative: Ketorolac.
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B- Preferential COX-2 inhibitors Nimesulide, Meloxicam, NabumetoneC- Selective COX-2 inhibitors Celecoxib, Rofecoxib, ValdecoxibD- Analgesic- antipyretics with poor
antiinflammatory action Paraaminophenol derivative: Paracetamol
(Acetaminophen). Pyrazolone derivatives: Metamizol (Dipyrone),
Propiphenazone. Benzoxazocine derivative: Nefopam.
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Benefits due to PG Synthesis inhibition
• Analgesia: prevention of pain nerve ending sensitization
• Antipyretic• Anti-inflammatory• Antithrombotic• Closure of ductus arteriosus
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Toxicities due to PG synthesis inhibition
• Gastric mucosal damage • Bleeding: inhibition of platelet function • Limitation of renal blood flow : Na and water
retention • Delay/prolongation of labour • Asthma and anaphylactoid reactions in
susceptible individuals
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Adverse effects of NSAIDsGastrointestinal- • Gastric irritation, erosions, peptic ulceration, gastric bleeding/perforation, esophagttisRenal• Na and water retention, chronic renal failure,
interstitial nephritis, papillary necrosis (rare)Hepatic• Raised transaminases, hepatic failure (rare)
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CNS• Head ache, mental confusion. Behavioural
disturbances, Seizure precipitation. Haematological• Bleeding, thrombocytopenia, haemolytic
anaemia, agranulocytosisOthers• Asthma exacerbation, nasal polyposis skin
rashes, pruritis, angioedema.
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USES
• Analgesic- headache, backache, myalgia, joint pain, dysmenorrhoea;
• Antipyretic-fever of any origin; paracetamol being safer.
• Acute rheumatic fever- the first drug to be used
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• Rheumatoid arthritis - Aspirin in a dose of 3-5 g/day is effective in most cases; produces relief of pain, swelling and morning stiffness.
• Osteoarthritis - It affords symptomatic relief
only; paracetamol is the first choice analgesic
• Post myocardial infarction and post strokepatients By inhibiting platelet aggregation itlowers the incidence of reinfarction.
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Other uses are:
• Pregnancy induced hypertension and pre eclampsia.
• To delay labour• Patent ductus arteriosus
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PROPIONIC ACID DERIVATIVES
Ibuprofen
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• Better tolerated than aspirin. • The analgesic, antipyretic and
antiinflammatory efficacy is lower than high dose of aspirin.
• All inhibit PG synthesis- naproxen being most potent;
• They inhibit platelet aggregation and prolong bleeding time.
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Potent antiinflammatory drug comparable to phenylbutazone.
Potent and promptly acting anti pyretic.Analgesic action is better than phenylbutazone,
but it relieves only inflammatory or tissue injury related pain.
highly potent inhibitor of PG synthesis and suppresses neutrophil motility.
Indomethacin
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Uses • Rheumatoid arthritis not controlled by aspirin;
• Ankylosing spondylitis, acute exacerbations of
destructive arthropathies and psoriatic arthritis.
• It acts rapidly in acute gout.• Malignancy associated fever refractory to
other antipyretics. • Medical closure of patent ductus arteriosus
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MEPHENAMIC ACID
• Analgesic, Antipyretic and Anti-inflammatory drug which inhibits COX & antagonizes actions of PGs.
• Exerts peripheral & central analgesic action.
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Uses
• analgesic in muscle, joint and soft tissue pain - strong anti-inflammatory action is not needed.
• It is quite effective in dysmcnorrhoea.• useful in some cases of rheumatoid and
osteoarthritis
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ARYL-ACETIC ACID DERIVATIVE
DICLOFENAC SODIUM
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DICLOFENAC SODIUM
• An analgesic-antipyretic-antiinflammatory drug similar in efficacy to naproxen.
• short lasting antiplatelet action. • Neutrophil chemotaxis and superoxide
production at the inflammatory site are reduced.
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USE
• most extensively used in rheumatoid and osteoarthritis, bursitis, ankylosing spondylitis, dysmenorrhoea, post-traumatic and postoperative inflammatory conditions—affords quick relief of pain and wound edema.