SlideShare a Scribd company logo

Drug interactions

Download as PPTX, PDF
V
velspharmd

DRUG INTERACTIONS DRUG INTERACTIONS DRUG INTERACTIONS, Pharmacy, Pharmaceutical drug, Food, Food and Drug Administration, Pharmaceutical drug, interactions, Pharmacy, pharmd, vels, Clinical trial, clinical pharmacy,hospital pharmacy,community pharmacy

EducationHealth & Medicine
1 of 29
DEFINITION Drug interaction is defined as the pharmacological activity of one drug is altered by the concominant use of another drug or by the presence of some other substance.
•The Drug whose Activity is effected by such an Interaction is called as a “Object drug.” • The agent which precipitates such an interaction is refered to as the “Precipitant”.
Types of drug Interactions 1.Drug-drug interactions. 2.Drug-food interactions. 3.Chemical-drug interactions. 4.Drug-laboratory test interactions. 5.Drug-disease interactions.
The Net effect of a Drug Interaction is: •Generally quantitative i.e.increased or decreased effect. •Seldom qualitative i.e.rapid or slower effect. •Precipitation of newer or increased adverse effect.
Drug interactions are thus- • Mostly undesirable • Rarely desirable(beneficial): for eg.,enhancement of activity of penicillins when administered with probenecid.
Factors contributing to drug interactions: 1.Multiple drug therapy. 2.Multiple prescribers. 3.Multiple pharmacological effects of drug. 4.Multiple diseases/predisposing illness. 5.Poor patient compliance. 6.Advancing age of patient. 7.Drug-related factors.
Mechanisms of drug interactions: The three mechanisms by which an interaction can develop are- 1.Pharmaceutical interactions. 2.pharmacokinetic interactions. 3.Pharmacodynamic interactions.
Pharmaceutical interactions: Also called as incompatibility.it is a physicochemical interaction that occous when drugs are mixed in i.v . Infusions causing precipitation or inactivation of active principles . Example:- Ampicillin ,chlorpromazine &barbituates interact with dextran in solutions and are broken down or from chemical compounds.
Pharmacokinetic Interactions: “These interactions are those in which adme properties of the object drug is altered by the precipitant and hence such interactions are also called as ADME interactions”. •The resultant effect is altered plasma concentration of the object drug. •These are classified as: 1.Absorption interactions 2.Distribution interactions 3.Metabolism interactions 4.Excretion interactions.
Absorption interactions .Are those where the absorption of the object drug is altered. The net effect of such an interaction is: • Faster or slower drug absorption. • More, or, less complete drug absorption.
Major mechanisms of absorption interactions are: 1.Complexation and adsorption. 2.Alteration in GI pH. 3.Alteration in gut motility. 4.Inhibition of GI enzymes. 5.Alteration of GI micro flora. 6.Malabsorption syndrome.
OBJECT DRUG PRECIPITANT DRUGS INFLUENCE ON OBJECT DRUG ABSORPTION INTERACTION 1.COMPLEXATION & ADSORPTION CEPHROFLOXACINE, PENCILLAMINE ANTACIDS,FOOD & MINERALS SUPPLEMENTS CONTAINING AL,Mg,Fe,Zn & Ca IONS FORMATION OF POORELY SOLUBLE AND UNABSOBABLE COMPLEX WITH SUCH HEAVY METAL IONS. 2.ALTERATION OF GI PH SULPHONAMIDES, ASPIRIN FERROUS SULPHATE ANTACIDS SODIUM BICARBONATE,CALCIUM CARBONATE ENHANCED DISSOLUTION AND ABSORPTION RATE. DECREASED DISOLLUTION AND HENCE ABSORPTION. 3.ALTERATION OF GUT MOTILITY ASPIRIN DIAZEPAM, LEVODOPA, MEXILETINE METOCLOPRAMIDE RAPID GASTRIC EMPTYING,INCREASED RATE OF ABSORPION. LEVODOPA, LITHIUM CARBONATE, MEXILETINE ANTI CHOLINERGICS DELAYED GASTRIC EMPTYING;DECREASED RATE OF ABSORPTION.
OBJECT DRUG PRECIPITANT DRUGS INFLUENCE ON OBJECT DRUG 4.ALTERATION OF GI MICROFLORA DIGOXIN ANTI BIOTICS INCREASED BIOAVAILABILITY DUE TO DESTRUCTION OF BACTERIAL FLORA THAT INACTIVATES DIGOXIN IN LOWER INTESTINE. 5.MALABSORPTION SNDROME VITAMIN A,B12,DIGOXIN NEOMYCIN INHIBITION OF ABSORPTION DUE TO MAL.
Distribution interactions Are those where the distribution pattern of the object drug is altered : •The major mechanism for distribution interaction is alteration in protein-drug binding. Competitive displacement interactions Displaced drug Displacer Anti coagulants Phenylbutazone, chloral hydrate Increased clotting tme. increased risk of hemorrhage. Tolbutamide Sulphonamides Increased hypoglycemic effect.
METABOLISM INTERACTIONS: Are those where the metabolism of the object drug is altered. Mechanisms of metabolism interactions include: 1.Enzyme induction: Increased rate of metabolism. 2.Enzyme inhibition: Decreased rate of metabolism. It is the most significant interaction in comparison to other interactions and can be fatal.
METABOLISM INTERACTIONS 1.ENZYNE INDUCTION CORTICOSTEROIDS, ORAL CONTRACEPTIVES, COUMARINS, PHENYTOIN BARBITURATES DECREASED PLASMA LEVELS; DECREASED EFFICASY OF OBJECT DRUGS ORAL CONTRACEPTIVES, ORAL HYPOGLYCAEMICS RIFAMICIN DECREASED PLASMA LEVELS 2.ENZYME INHIBITION TYRAMINE RICH FOOD MAO INHIBITORS ENHANCED ABSORPTION OF UN METABOLISED TYRAMINE. COUMARINS METRANIDAZOLE PHENYL BUTAZONE INCREASED ANTI COAGULANT ACTIVITY. ALCOHOL DISULPHIRAM, METRONIDAZOLE INCREASED IN PLASMA ACETALDEHYDE LEVELS
EXCRETION INTERACTIONS Are these where the excretion pattern of the object drug is altered. Major mechanisms of excretion interactions are- Alteration in renal blood flow Alteration of urine PH Competition for active secretions Forced diuresis
EXCRETION INTERACTIONS 1.CHANGES IN ACTIVE TUBULAR SECRETION PENCILLIN,CEPHALOSP ORINS,NALIDIXIC ACID PROBENICID ELEVATED PLASMA LEVELS OF ACIDIC DRUGS 2.CHANGES IN URINE PH AMPHETAMINE ANTACIDS,THIAZIDESA CETAZOLAMIDE INCREASED PASSIVE REABSORPTION OF BASIC DRUGS.INCRESED RISK Of TOXICITY 3.CHANGES IN RENAL BLOOD FLOW LITHIUM BICARBONATE NSAIDS DECREASED RENAL CLEARANCEOF LITHIUM.RISK OF TOXICITY
Pharmacodynamic interactions: Are those in which the activity of the object drug at its site of action is altered by the precipitant. Such interactions may be direct or indirect. 1.These are of two types1.direct pharmacodynamic interactions. 2.Indirect pharmacodynamic interactions.
DIRECT PHARMACODYNAMIC INTERACTIONS: In which drugs having similar or opposing pharmacological effects are used concurrently. The three consequences of direct interactions are 1.Antagonism. 2.Addition or summation. 3.Synergism or potentiation.
Antagonism: The interacting drugs have opposing actions Example: Acetylcholine and noradrenaline have opposing effects on heart rate. Addition or summation: The interacting drugs have similar actions and the resultant effect is the some of individual drug responses Example:CNS depressants like sedatives and hypnotics,…etc Synergism or potentiation: It is an enhancement of action of one drug by another Example: Alcohol enhances the analgesics activity of aspirin.
Indirect pharmacodynamic interaction: In which both the object and the precipitant drugs have unrelated effects.but the latter in Some way alerts the effects but latter in some way alerts the effectsof the former. Example: salicylatesdecrease the ability of the platelets to aggregate thus impairing the Homeostasis if warfarin indused bleeding occurs.
CONSEQUENCES OF DRUG INTERACTIONS: The consequences of drug interactions may be: •Major: Life threatening. •Moderate: Deteriotion of patients status. •Minor: Little effect.
REDUSING THE RISK OF DRUG INTERACTIONS: 1.Identify the patients risk factors. 2.Take through drug history. 3.Be knowledge about the actions of the drugs being used. 4.Consider therapeutic alternatives. 5Avoid complex therapeutic regiments when possible. 6.Educate the patient. 7.Monitor therapy.
INFLUENCE OF SMOKING ON DRUG INTERACTIONS: Smoking increases the activity of drug metabolizing enzymes in the liver, With the result that certain therapeutic agents. Example: Diazepam, propoxyphene, theophylline, olanzapine. Are metabolized more rapidly,and their effect is decreased.
INFLUENCE OF ALCOHOL ON DRUG INTERACTION: Chronic use of alcohol beverages may increases the rate of metabolism of drugs such as warfarin and phenytoin, probably by increasing the activity of hepatic enzymes. •Acute use of alcohol by non alcoholic individuals may cause an inhibition of hepatic enzymes. •Use of alcoholic beverages with sedatives and other depressants drugs could result in an excessive depressant response.
INFLUENCE OF FOOD ON DRUG INTERACTION: Food effects the rate and extent of absorption of drugs from the GI tract. Example: Many anti biotics should be given atleast 1hr before or 2hr after meals to achieve Optimal absorption. •The type of food may be important with regard to the absorption of concurrently administered Drugs. Example: Dietary items such as milk and other dairy products that contain calcium may decrease . The absorption of tetracycline and flouroquinolone derivatives. •Diet also may influence urinary pH values.
Drug interactions

Recommended

Drug interactions
Drug interactionsDrug interactions
Drug interactions
DrSahilKumar
 
Adverse drug reactions
Adverse drug reactionsAdverse drug reactions
Adverse drug reactions
Dr.Vijay Talla
 
Drug distribution
Drug distributionDrug distribution
Drug distribution
Dr.K.Umasankar Krishnamaraju
 
Excretion of drug
Excretion of drugExcretion of drug
Excretion of drug
Suvarta Maru
 
Pharmaceutical care
Pharmaceutical carePharmaceutical care
Pharmaceutical care
Akram Ahmad
 
Adverse drug reaction
Adverse drug reactionAdverse drug reaction
Adverse drug reaction
Viraj Shinde
 
DRUG INTERACTIONS (MECHANISMS OF DRUG-DRUG INTERACTIONS)
DRUG INTERACTIONS (MECHANISMS OF DRUG-DRUG INTERACTIONS)DRUG INTERACTIONS (MECHANISMS OF DRUG-DRUG INTERACTIONS)
DRUG INTERACTIONS (MECHANISMS OF DRUG-DRUG INTERACTIONS)
N Anusha
 
Drug interactions their types, examples and role
Drug interactions their types, examples and roleDrug interactions their types, examples and role
Drug interactions their types, examples and role
Yousra Ashraf
 

Recommended

Drug interactions
Drug interactionsDrug interactions
Drug interactions
DrSahilKumar
 
Adverse drug reactions
Adverse drug reactionsAdverse drug reactions
Adverse drug reactions
Dr.Vijay Talla
 
Drug distribution
Drug distributionDrug distribution
Drug distribution
Dr.K.Umasankar Krishnamaraju
 
Excretion of drug
Excretion of drugExcretion of drug
Excretion of drug
Suvarta Maru
 
Pharmaceutical care
Pharmaceutical carePharmaceutical care
Pharmaceutical care
Akram Ahmad
 
Adverse drug reaction
Adverse drug reactionAdverse drug reaction
Adverse drug reaction
Viraj Shinde
 
DRUG INTERACTIONS (MECHANISMS OF DRUG-DRUG INTERACTIONS)
DRUG INTERACTIONS (MECHANISMS OF DRUG-DRUG INTERACTIONS)DRUG INTERACTIONS (MECHANISMS OF DRUG-DRUG INTERACTIONS)
DRUG INTERACTIONS (MECHANISMS OF DRUG-DRUG INTERACTIONS)
N Anusha
 
Drug interactions their types, examples and role
Drug interactions their types, examples and roleDrug interactions their types, examples and role
Drug interactions their types, examples and role
Yousra Ashraf
 
Protein drug binding
Protein drug bindingProtein drug binding
Protein drug binding
Sagar Savale
 
Adverse Drug Reactions
Adverse Drug ReactionsAdverse Drug Reactions
Adverse Drug Reactions
Kajal Rajdev
 
Concept of clearance & factors affecting renal excretion
Concept of clearance & factors affecting renal excretionConcept of clearance & factors affecting renal excretion
Concept of clearance & factors affecting renal excretion
chiranjibi68
 
Factors affecting drug absorption
Factors affecting drug absorptionFactors affecting drug absorption
Factors affecting drug absorption
SURYAKANTVERMA2
 
Patient counselling
Patient counsellingPatient counselling
Patient counselling
RakibulHussain1
 
Bioavailability ppt
Bioavailability pptBioavailability ppt
Bioavailability ppt
Malla Reddy College of Pharmacy
 
Pharmacokinetic models
Pharmacokinetic modelsPharmacokinetic models
Pharmacokinetic models
Malla Reddy College of Pharmacy
 
Adverse drug reaction monitoring and reporting
Adverse drug reaction monitoring and reportingAdverse drug reaction monitoring and reporting
Adverse drug reaction monitoring and reporting
THUSHARA MOHAN
 
Rational use of medicine
Rational use of medicineRational use of medicine
Rational use of medicine
Muhammad Arsal
 
Drug Interactions
Drug InteractionsDrug Interactions
Drug Interactions
Sreenivasa Reddy Thalla
 
Adverse Drug Reactions
Adverse Drug ReactionsAdverse Drug Reactions
Adverse Drug Reactions
BikashAdhikari26
 
pharmacokinetic drug interactions
pharmacokinetic drug interactions pharmacokinetic drug interactions
pharmacokinetic drug interactions
Syed Imran
 
Factors affecting distribution of drug
Factors affecting distribution of drugFactors affecting distribution of drug
Factors affecting distribution of drug
Dr. SHUBHRAJIT MANTRY
 
Antiasthmatic drugs
Antiasthmatic drugsAntiasthmatic drugs
Antiasthmatic drugs
Dr UAK
 
Therapeutic drug monitoring
Therapeutic drug monitoring Therapeutic drug monitoring
Therapeutic drug monitoring
Kirsha K S
 
Drug information resources
Drug information resourcesDrug information resources
Drug information resources
Gyanendra Raj Joshi
 
Adverse drug reactions
Adverse drug reactionsAdverse drug reactions
Adverse drug reactions
Dr. Ramesh Bhandari
 
Biopharmaceutics: Mechanisms of Drug Absorption
Biopharmaceutics: Mechanisms of Drug AbsorptionBiopharmaceutics: Mechanisms of Drug Absorption
Biopharmaceutics: Mechanisms of Drug Absorption
SURYAKANTVERMA2
 
Causes of Non linear pharmacokinetics
Causes of Non linear pharmacokineticsCauses of Non linear pharmacokinetics
Causes of Non linear pharmacokinetics
Snehal Patel
 
Pharmacokinetics / Biopharmaceutics - Drug Elimination
Pharmacokinetics / Biopharmaceutics - Drug Elimination Pharmacokinetics / Biopharmaceutics - Drug Elimination
Pharmacokinetics / Biopharmaceutics - Drug Elimination
Areej Abu Hanieh
 
druginteractions.pptx
druginteractions.pptxdruginteractions.pptx
druginteractions.pptx
Imtiyaz60
 
introduction_to_drug_interactions_pptx.pptx
introduction_to_drug_interactions_pptx.pptxintroduction_to_drug_interactions_pptx.pptx
introduction_to_drug_interactions_pptx.pptx
HakeemUllah7
 

More Related Content

What's hot

Antiasthmatic drugs
Antiasthmatic drugsAntiasthmatic drugs
Antiasthmatic drugs
Dr UAK
 

What's hot (20)

Protein drug binding
Protein drug bindingProtein drug binding
Protein drug binding
 
Adverse Drug Reactions
Adverse Drug ReactionsAdverse Drug Reactions
Adverse Drug Reactions
 
Concept of clearance & factors affecting renal excretion
Concept of clearance & factors affecting renal excretionConcept of clearance & factors affecting renal excretion
Concept of clearance & factors affecting renal excretion
 
Factors affecting drug absorption
Factors affecting drug absorptionFactors affecting drug absorption
Factors affecting drug absorption
 
Patient counselling
Patient counsellingPatient counselling
Patient counselling
 
Bioavailability ppt
Bioavailability pptBioavailability ppt
Bioavailability ppt
 
Pharmacokinetic models
Pharmacokinetic modelsPharmacokinetic models
Pharmacokinetic models
 
Adverse drug reaction monitoring and reporting
Adverse drug reaction monitoring and reportingAdverse drug reaction monitoring and reporting
Adverse drug reaction monitoring and reporting
 
Rational use of medicine
Rational use of medicineRational use of medicine
Rational use of medicine
 
Drug Interactions
Drug InteractionsDrug Interactions
Drug Interactions
 
Adverse Drug Reactions
Adverse Drug ReactionsAdverse Drug Reactions
Adverse Drug Reactions
 
pharmacokinetic drug interactions
pharmacokinetic drug interactions pharmacokinetic drug interactions
pharmacokinetic drug interactions
 
Factors affecting distribution of drug
Factors affecting distribution of drugFactors affecting distribution of drug
Factors affecting distribution of drug
 
Antiasthmatic drugs
Antiasthmatic drugsAntiasthmatic drugs
Antiasthmatic drugs
 
Therapeutic drug monitoring
Therapeutic drug monitoring Therapeutic drug monitoring
Therapeutic drug monitoring
 
Drug information resources
Drug information resourcesDrug information resources
Drug information resources
 
Adverse drug reactions
Adverse drug reactionsAdverse drug reactions
Adverse drug reactions
 
Biopharmaceutics: Mechanisms of Drug Absorption
Biopharmaceutics: Mechanisms of Drug AbsorptionBiopharmaceutics: Mechanisms of Drug Absorption
Biopharmaceutics: Mechanisms of Drug Absorption
 
Causes of Non linear pharmacokinetics
Causes of Non linear pharmacokineticsCauses of Non linear pharmacokinetics
Causes of Non linear pharmacokinetics
 
Pharmacokinetics / Biopharmaceutics - Drug Elimination
Pharmacokinetics / Biopharmaceutics - Drug Elimination Pharmacokinetics / Biopharmaceutics - Drug Elimination
Pharmacokinetics / Biopharmaceutics - Drug Elimination
 

Similar to Drug interactions

druginteractions.pptx
druginteractions.pptxdruginteractions.pptx
druginteractions.pptx
Imtiyaz60
 
introduction_to_drug_interactions_pptx.pptx
introduction_to_drug_interactions_pptx.pptxintroduction_to_drug_interactions_pptx.pptx
introduction_to_drug_interactions_pptx.pptx
HakeemUllah7
 

Similar to Drug interactions (20)

druginteractions.pptx
druginteractions.pptxdruginteractions.pptx
druginteractions.pptx
 
introduction_to_drug_interactions_pptx.pptx
introduction_to_drug_interactions_pptx.pptxintroduction_to_drug_interactions_pptx.pptx
introduction_to_drug_interactions_pptx.pptx
 
druginteractions-.pptx
druginteractions-.pptxdruginteractions-.pptx
druginteractions-.pptx
 
Drug interaction
Drug interactionDrug interaction
Drug interaction
 
Pharmacology of Drugs interactions
Pharmacology of Drugs interactions Pharmacology of Drugs interactions
Pharmacology of Drugs interactions
 
druginteractions-130719120045-phpapp02.pptx
druginteractions-130719120045-phpapp02.pptxdruginteractions-130719120045-phpapp02.pptx
druginteractions-130719120045-phpapp02.pptx
 
Introduction to drug interactions
Introduction to drug interactionsIntroduction to drug interactions
Introduction to drug interactions
 
Drug drug interaction (2)
Drug drug interaction (2)Drug drug interaction (2)
Drug drug interaction (2)
 
BIO DRUG-DRUG & BIO DRUG–FOOD INTERACTION.pptx
BIO DRUG-DRUG & BIO DRUG–FOOD INTERACTION.pptxBIO DRUG-DRUG & BIO DRUG–FOOD INTERACTION.pptx
BIO DRUG-DRUG & BIO DRUG–FOOD INTERACTION.pptx
 
Drug interaction
Drug interactionDrug interaction
Drug interaction
 
Drug interaction final
Drug interaction finalDrug interaction final
Drug interaction final
 
Drug interaction
Drug interactionDrug interaction
Drug interaction
 
pharmacokinetic drug interaction and induction and inhibition of drug metabolism
pharmacokinetic drug interaction and induction and inhibition of drug metabolismpharmacokinetic drug interaction and induction and inhibition of drug metabolism
pharmacokinetic drug interaction and induction and inhibition of drug metabolism
 
drug interaction
drug interactiondrug interaction
drug interaction
 
Drug interactions in dentistry
Drug interactions in dentistryDrug interactions in dentistry
Drug interactions in dentistry
 
pharmacokinetic drug interactions,factors affecting drug interaction ,mecahan...
pharmacokinetic drug interactions,factors affecting drug interaction ,mecahan...pharmacokinetic drug interactions,factors affecting drug interaction ,mecahan...
pharmacokinetic drug interactions,factors affecting drug interaction ,mecahan...
 
Drug interaction
Drug interactionDrug interaction
Drug interaction
 
Drug Interaction
Drug Interaction Drug Interaction
Drug Interaction
 
Modern Pharmacognocy bio drug drug and bio food interaction
Modern Pharmacognocy bio drug drug and bio food interactionModern Pharmacognocy bio drug drug and bio food interaction
Modern Pharmacognocy bio drug drug and bio food interaction
 
Modern Pharmacognocy drug drug and drug food interaction
Modern Pharmacognocy drug drug and drug food interactionModern Pharmacognocy drug drug and drug food interaction
Modern Pharmacognocy drug drug and drug food interaction
 

More from velspharmd

Pain management vels
Pain management velsPain management vels
Pain management vels
velspharmd
 
Anti tuberculosis drug - induced hepatitis – A Case Study
Anti tuberculosis drug - induced hepatitis – A Case StudyAnti tuberculosis drug - induced hepatitis – A Case Study
Anti tuberculosis drug - induced hepatitis – A Case Study
velspharmd
 
Thyroid function tests
Thyroid function testsThyroid function tests
Thyroid function tests
velspharmd
 

More from velspharmd (20)

Crossed Aldol Condensation
Crossed Aldol CondensationCrossed Aldol Condensation
Crossed Aldol Condensation
 
Anxiety Disorders
Anxiety DisordersAnxiety Disorders
Anxiety Disorders
 
Orchitis-Case Study
Orchitis-Case StudyOrchitis-Case Study
Orchitis-Case Study
 
simeprevir
simeprevirsimeprevir
simeprevir
 
Pain management vels
Pain management velsPain management vels
Pain management vels
 
Tivicay®
Tivicay®Tivicay®
Tivicay®
 
Anti tuberculosis drug - induced hepatitis – A Case Study
Anti tuberculosis drug - induced hepatitis – A Case StudyAnti tuberculosis drug - induced hepatitis – A Case Study
Anti tuberculosis drug - induced hepatitis – A Case Study
 
Nicotine addiction
Nicotine addictionNicotine addiction
Nicotine addiction
 
Thyroid function tests
Thyroid function testsThyroid function tests
Thyroid function tests
 
Role of atorvastatin
Role of atorvastatinRole of atorvastatin
Role of atorvastatin
 
Methyl alchohol poisoning
Methyl alchohol poisoningMethyl alchohol poisoning
Methyl alchohol poisoning
 
Renal function tests
Renal function testsRenal function tests
Renal function tests
 
Pulmonary function test
Pulmonary function testPulmonary function test
Pulmonary function test
 
Tests associated with cardiac disorders
Tests associated with cardiac disorders Tests associated with cardiac disorders
Tests associated with cardiac disorders
 
Thyroid function tests
Thyroid function testsThyroid function tests
Thyroid function tests
 
Epilepsy
EpilepsyEpilepsy
Epilepsy
 
GASTROESOPHAGEAL REFLUX DISEASE
GASTROESOPHAGEAL REFLUX DISEASEGASTROESOPHAGEAL REFLUX DISEASE
GASTROESOPHAGEAL REFLUX DISEASE
 
ANXIETY DISORDERS
ANXIETY DISORDERSANXIETY DISORDERS
ANXIETY DISORDERS
 
INFLAMMATORY BOWEL DISEASE
INFLAMMATORY BOWEL DISEASEINFLAMMATORY BOWEL DISEASE
INFLAMMATORY BOWEL DISEASE
 
Food poisoning
Food poisoningFood poisoning
Food poisoning
 

Recently uploaded

Salient Features of India constitution especially power and functions
Salient Features of India constitution especially power and functionsSalient Features of India constitution especially power and functions
Salient Features of India constitution especially power and functions
KarakKing
 

Recently uploaded (20)

Holdier Curriculum Vitae (April 2024).pdf
Holdier Curriculum Vitae (April 2024).pdfHoldier Curriculum Vitae (April 2024).pdf
Holdier Curriculum Vitae (April 2024).pdf
 
Wellbeing inclusion and digital dystopias.pptx
Wellbeing inclusion and digital dystopias.pptxWellbeing inclusion and digital dystopias.pptx
Wellbeing inclusion and digital dystopias.pptx
 
Python Notes for mca i year students osmania university.docx
Python Notes for mca i year students osmania university.docxPython Notes for mca i year students osmania university.docx
Python Notes for mca i year students osmania university.docx
 
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
 
Google Gemini An AI Revolution in Education.pptx
Google Gemini An AI Revolution in Education.pptxGoogle Gemini An AI Revolution in Education.pptx
Google Gemini An AI Revolution in Education.pptx
 
Fostering Friendships - Enhancing Social Bonds in the Classroom
Fostering Friendships - Enhancing Social Bonds in the ClassroomFostering Friendships - Enhancing Social Bonds in the Classroom
Fostering Friendships - Enhancing Social Bonds in the Classroom
 
Sensory_Experience_and_Emotional_Resonance_in_Gabriel_Okaras_The_Piano_and_Th...
Sensory_Experience_and_Emotional_Resonance_in_Gabriel_Okaras_The_Piano_and_Th...Sensory_Experience_and_Emotional_Resonance_in_Gabriel_Okaras_The_Piano_and_Th...
Sensory_Experience_and_Emotional_Resonance_in_Gabriel_Okaras_The_Piano_and_Th...
 
Understanding Accommodations and Modifications
Understanding Accommodations and ModificationsUnderstanding Accommodations and Modifications
Understanding Accommodations and Modifications
 
Key note speaker Neum_Admir Softic_ENG.pdf
Key note speaker Neum_Admir Softic_ENG.pdfKey note speaker Neum_Admir Softic_ENG.pdf
Key note speaker Neum_Admir Softic_ENG.pdf
 
Jamworks pilot and AI at Jisc (20/03/2024)
Jamworks pilot and AI at Jisc (20/03/2024)Jamworks pilot and AI at Jisc (20/03/2024)
Jamworks pilot and AI at Jisc (20/03/2024)
 
REMIFENTANIL: An Ultra short acting opioid.pptx
REMIFENTANIL: An Ultra short acting opioid.pptxREMIFENTANIL: An Ultra short acting opioid.pptx
REMIFENTANIL: An Ultra short acting opioid.pptx
 
Basic Civil Engineering first year Notes- Chapter 4 Building.pptx
Basic Civil Engineering first year Notes- Chapter 4 Building.pptxBasic Civil Engineering first year Notes- Chapter 4 Building.pptx
Basic Civil Engineering first year Notes- Chapter 4 Building.pptx
 
Graduate Outcomes Presentation Slides - English
Graduate Outcomes Presentation Slides - EnglishGraduate Outcomes Presentation Slides - English
Graduate Outcomes Presentation Slides - English
 
Application orientated numerical on hev.ppt
Application orientated numerical on hev.pptApplication orientated numerical on hev.ppt
Application orientated numerical on hev.ppt
 
Accessible Digital Futures project (20/03/2024)
Accessible Digital Futures project (20/03/2024)Accessible Digital Futures project (20/03/2024)
Accessible Digital Futures project (20/03/2024)
 
Salient Features of India constitution especially power and functions
Salient Features of India constitution especially power and functionsSalient Features of India constitution especially power and functions
Salient Features of India constitution especially power and functions
 
Unit 3 Emotional Intelligence and Spiritual Intelligence.pdf
Unit 3 Emotional Intelligence and Spiritual Intelligence.pdfUnit 3 Emotional Intelligence and Spiritual Intelligence.pdf
Unit 3 Emotional Intelligence and Spiritual Intelligence.pdf
 
Towards a code of practice for AI in AT.pptx
Towards a code of practice for AI in AT.pptxTowards a code of practice for AI in AT.pptx
Towards a code of practice for AI in AT.pptx
 
How to Give a Domain for a Field in Odoo 17
How to Give a Domain for a Field in Odoo 17How to Give a Domain for a Field in Odoo 17
How to Give a Domain for a Field in Odoo 17
 
How to setup Pycharm environment for Odoo 17.pptx
How to setup Pycharm environment for Odoo 17.pptxHow to setup Pycharm environment for Odoo 17.pptx
How to setup Pycharm environment for Odoo 17.pptx
 

Drug interactions

  • 1.
  • 2. DEFINITION Drug interaction is defined as the pharmacological activity of one drug is altered by the concominant use of another drug or by the presence of some other substance.
  • 3. •The Drug whose Activity is effected by such an Interaction is called as a “Object drug.” • The agent which precipitates such an interaction is refered to as the “Precipitant”.
  • 4. Types of drug Interactions 1.Drug-drug interactions. 2.Drug-food interactions. 3.Chemical-drug interactions. 4.Drug-laboratory test interactions. 5.Drug-disease interactions.
  • 5. The Net effect of a Drug Interaction is: •Generally quantitative i.e.increased or decreased effect. •Seldom qualitative i.e.rapid or slower effect. •Precipitation of newer or increased adverse effect.
  • 6. Drug interactions are thus- • Mostly undesirable • Rarely desirable(beneficial): for eg.,enhancement of activity of penicillins when administered with probenecid.
  • 7. Factors contributing to drug interactions: 1.Multiple drug therapy. 2.Multiple prescribers. 3.Multiple pharmacological effects of drug. 4.Multiple diseases/predisposing illness. 5.Poor patient compliance. 6.Advancing age of patient. 7.Drug-related factors.
  • 8. Mechanisms of drug interactions: The three mechanisms by which an interaction can develop are- 1.Pharmaceutical interactions. 2.pharmacokinetic interactions. 3.Pharmacodynamic interactions.
  • 9. Pharmaceutical interactions: Also called as incompatibility.it is a physicochemical interaction that occous when drugs are mixed in i.v . Infusions causing precipitation or inactivation of active principles . Example:- Ampicillin ,chlorpromazine &barbituates interact with dextran in solutions and are broken down or from chemical compounds.
  • 10. Pharmacokinetic Interactions: “These interactions are those in which adme properties of the object drug is altered by the precipitant and hence such interactions are also called as ADME interactions”. •The resultant effect is altered plasma concentration of the object drug. •These are classified as: 1.Absorption interactions 2.Distribution interactions 3.Metabolism interactions 4.Excretion interactions.
  • 11. Absorption interactions .Are those where the absorption of the object drug is altered. The net effect of such an interaction is: • Faster or slower drug absorption. • More, or, less complete drug absorption.
  • 12. Major mechanisms of absorption interactions are: 1.Complexation and adsorption. 2.Alteration in GI pH. 3.Alteration in gut motility. 4.Inhibition of GI enzymes. 5.Alteration of GI micro flora. 6.Malabsorption syndrome.
  • 13. OBJECT DRUG PRECIPITANT DRUGS INFLUENCE ON OBJECT DRUG ABSORPTION INTERACTION 1.COMPLEXATION & ADSORPTION CEPHROFLOXACINE, PENCILLAMINE ANTACIDS,FOOD & MINERALS SUPPLEMENTS CONTAINING AL,Mg,Fe,Zn & Ca IONS FORMATION OF POORELY SOLUBLE AND UNABSOBABLE COMPLEX WITH SUCH HEAVY METAL IONS. 2.ALTERATION OF GI PH SULPHONAMIDES, ASPIRIN FERROUS SULPHATE ANTACIDS SODIUM BICARBONATE,CALCIUM CARBONATE ENHANCED DISSOLUTION AND ABSORPTION RATE. DECREASED DISOLLUTION AND HENCE ABSORPTION. 3.ALTERATION OF GUT MOTILITY ASPIRIN DIAZEPAM, LEVODOPA, MEXILETINE METOCLOPRAMIDE RAPID GASTRIC EMPTYING,INCREASED RATE OF ABSORPION. LEVODOPA, LITHIUM CARBONATE, MEXILETINE ANTI CHOLINERGICS DELAYED GASTRIC EMPTYING;DECREASED RATE OF ABSORPTION.
  • 14. OBJECT DRUG PRECIPITANT DRUGS INFLUENCE ON OBJECT DRUG 4.ALTERATION OF GI MICROFLORA DIGOXIN ANTI BIOTICS INCREASED BIOAVAILABILITY DUE TO DESTRUCTION OF BACTERIAL FLORA THAT INACTIVATES DIGOXIN IN LOWER INTESTINE. 5.MALABSORPTION SNDROME VITAMIN A,B12,DIGOXIN NEOMYCIN INHIBITION OF ABSORPTION DUE TO MAL.
  • 15. Distribution interactions Are those where the distribution pattern of the object drug is altered : •The major mechanism for distribution interaction is alteration in protein-drug binding. Competitive displacement interactions Displaced drug Displacer Anti coagulants Phenylbutazone, chloral hydrate Increased clotting tme. increased risk of hemorrhage. Tolbutamide Sulphonamides Increased hypoglycemic effect.
  • 16. METABOLISM INTERACTIONS: Are those where the metabolism of the object drug is altered. Mechanisms of metabolism interactions include: 1.Enzyme induction: Increased rate of metabolism. 2.Enzyme inhibition: Decreased rate of metabolism. It is the most significant interaction in comparison to other interactions and can be fatal.
  • 17. METABOLISM INTERACTIONS 1.ENZYNE INDUCTION CORTICOSTEROIDS, ORAL CONTRACEPTIVES, COUMARINS, PHENYTOIN BARBITURATES DECREASED PLASMA LEVELS; DECREASED EFFICASY OF OBJECT DRUGS ORAL CONTRACEPTIVES, ORAL HYPOGLYCAEMICS RIFAMICIN DECREASED PLASMA LEVELS 2.ENZYME INHIBITION TYRAMINE RICH FOOD MAO INHIBITORS ENHANCED ABSORPTION OF UN METABOLISED TYRAMINE. COUMARINS METRANIDAZOLE PHENYL BUTAZONE INCREASED ANTI COAGULANT ACTIVITY. ALCOHOL DISULPHIRAM, METRONIDAZOLE INCREASED IN PLASMA ACETALDEHYDE LEVELS
  • 18. EXCRETION INTERACTIONS Are these where the excretion pattern of the object drug is altered. Major mechanisms of excretion interactions are- Alteration in renal blood flow Alteration of urine PH Competition for active secretions Forced diuresis
  • 19. EXCRETION INTERACTIONS 1.CHANGES IN ACTIVE TUBULAR SECRETION PENCILLIN,CEPHALOSP ORINS,NALIDIXIC ACID PROBENICID ELEVATED PLASMA LEVELS OF ACIDIC DRUGS 2.CHANGES IN URINE PH AMPHETAMINE ANTACIDS,THIAZIDESA CETAZOLAMIDE INCREASED PASSIVE REABSORPTION OF BASIC DRUGS.INCRESED RISK Of TOXICITY 3.CHANGES IN RENAL BLOOD FLOW LITHIUM BICARBONATE NSAIDS DECREASED RENAL CLEARANCEOF LITHIUM.RISK OF TOXICITY
  • 20. Pharmacodynamic interactions: Are those in which the activity of the object drug at its site of action is altered by the precipitant. Such interactions may be direct or indirect. 1.These are of two types1.direct pharmacodynamic interactions. 2.Indirect pharmacodynamic interactions.
  • 21. DIRECT PHARMACODYNAMIC INTERACTIONS: In which drugs having similar or opposing pharmacological effects are used concurrently. The three consequences of direct interactions are 1.Antagonism. 2.Addition or summation. 3.Synergism or potentiation.
  • 22. Antagonism: The interacting drugs have opposing actions Example: Acetylcholine and noradrenaline have opposing effects on heart rate. Addition or summation: The interacting drugs have similar actions and the resultant effect is the some of individual drug responses Example:CNS depressants like sedatives and hypnotics,…etc Synergism or potentiation: It is an enhancement of action of one drug by another Example: Alcohol enhances the analgesics activity of aspirin.
  • 23. Indirect pharmacodynamic interaction: In which both the object and the precipitant drugs have unrelated effects.but the latter in Some way alerts the effects but latter in some way alerts the effectsof the former. Example: salicylatesdecrease the ability of the platelets to aggregate thus impairing the Homeostasis if warfarin indused bleeding occurs.
  • 24. CONSEQUENCES OF DRUG INTERACTIONS: The consequences of drug interactions may be: •Major: Life threatening. •Moderate: Deteriotion of patients status. •Minor: Little effect.
  • 25. REDUSING THE RISK OF DRUG INTERACTIONS: 1.Identify the patients risk factors. 2.Take through drug history. 3.Be knowledge about the actions of the drugs being used. 4.Consider therapeutic alternatives. 5Avoid complex therapeutic regiments when possible. 6.Educate the patient. 7.Monitor therapy.
  • 26. INFLUENCE OF SMOKING ON DRUG INTERACTIONS: Smoking increases the activity of drug metabolizing enzymes in the liver, With the result that certain therapeutic agents. Example: Diazepam, propoxyphene, theophylline, olanzapine. Are metabolized more rapidly,and their effect is decreased.
  • 27. INFLUENCE OF ALCOHOL ON DRUG INTERACTION: Chronic use of alcohol beverages may increases the rate of metabolism of drugs such as warfarin and phenytoin, probably by increasing the activity of hepatic enzymes. •Acute use of alcohol by non alcoholic individuals may cause an inhibition of hepatic enzymes. •Use of alcoholic beverages with sedatives and other depressants drugs could result in an excessive depressant response.
  • 28. INFLUENCE OF FOOD ON DRUG INTERACTION: Food effects the rate and extent of absorption of drugs from the GI tract. Example: Many anti biotics should be given atleast 1hr before or 2hr after meals to achieve Optimal absorption. •The type of food may be important with regard to the absorption of concurrently administered Drugs. Example: Dietary items such as milk and other dairy products that contain calcium may decrease . The absorption of tetracycline and flouroquinolone derivatives. •Diet also may influence urinary pH values.