1 / 42

Pharmacology

Pharmacology. Pharmacology. The study of drugs and their actions. Reasons For Medication Use. Diagnose Treatment Curative Lesson pain Prevent a disease or condition. Where Do Drugs Come From?. Plants Animals Minerals Laboratory Chemical combinations Biotechnology Genetics.

benoit
Download Presentation

Pharmacology

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Pharmacology

  2. Pharmacology • The study of drugs and their actions

  3. Reasons For Medication Use • Diagnose • Treatment • Curative • Lesson pain • Prevent a disease or condition

  4. Where Do Drugs Come From? • Plants • Animals • Minerals • Laboratory Chemical combinations • Biotechnology Genetics

  5. Pharmacokinetics Definition: • The process a drug goes through upon entering the body • It involves the processes of absorption, distribution, biotransformation (metabolism - liver), and excretion

  6. Pharmacokinetics Absorption: For a drug to work , it must be absorbed. It is absorbed at the site where it is given. Once a drug reaches the capillaries, it is taken into the bloodstream. The rate of absorption varies depending on the type of drug, amount of the drug, route, and the patient.

  7. Pharmacokinetics Continued Distribution: How the drug gets to its target once it is in the bloodstream. Involves circulation of the blood. Targets are cells in tissue or organs.

  8. Pharmacokinetics Metabolism: How a drug is broken down for excretion. Products of breakdown are called metabolites. Metabolites are rendered small, inactive or less active before excretion occurs. Metabolism usually occurs in the liver, however can occur in the kidneys, lungs, blood plasma, or intestinal mucosa.

  9. Pharmacokinetics Excretion: A drug continues to have an action until it is excreted by the body. Kidneys generally are the excretory route. Drugs can be excreted by saliva, sweat, exhalation, breast milk, or feces (poop).

  10. Pharmacodynamics Definition: Is the study of how a drug acts on targeted cells.

  11. Pharmacodynamics Types of Drug Actions: • Inhibitive or destructive • Protection • Supplementation • Replacement • Physiologic function (increase or decrease)

  12. Pharmacodynamics Drug Effect or Action Theories: • Agonists-Drug binds to a special receptor on a target cell and produce the desired effect. • Antagonists-Drug binds with a special receptor on a target cell and prevent or inhibit a response. • Non-specific-Neither agonists or antagonists. These drugs gather on a cell’s membrane or go through it and interfere with actual cell function

  13. Pharmacodynamics Timing of Drug Effects: • Onset- time from when a drug is given to when its effects first occur • Peak Effect- whena drug is at itsmaximum effect • Duration- time from when drug effects begin to when they stop

  14. Buccal(topical) IM Inhalation Intra-articular Intradermal/dermal Intrathecal Topical =‘s any epithelial lined surface. Tongue, rectally, cheek, vagina etc IV Intracardiac po/PO SC/subq sublingual (topical) topical Routes of Drug Administration

  15. Drug Preparations • Forms of: • solid • semi-solid • liquid • gas/vapors

  16. Topical cream gtts (ear) ung (ointment) PO cap gtts (oral/infants) soln/sol susp tab Abbreviations for PO or Topical Administration

  17. Abbreviations: bid h/hr prn/PRN q qd qh q2h qid tid stat Frequency of Drugs

  18. AD (right ear) AS AU OD OS OU os aa (of each) ad (towards) RX c (line over it) dc/DC KVO/TKO npo/NPO per Administration Abbreviations

  19. Nomenclature (Naming) of Drugs • Chemical name: chemical make-up of a drug • Generic name: nonproprietary name given to a drug by the developer of a drug (acetaminophen, ibuprofen, diphenhydramine) • Trade or Brand name: Proprietary or patented name of the manufacturer of the drug (Tylenol, Motrin & Advil, Benedryl). Manufacturing processes may differ slightly.

  20. Legal Implications(Federal) • Pure Food and Drug Act -Standards for US marketing • Federal Food, Drug, and Cosmetic Act -Regulations -FDA approval • Controlled Substances Act -Established DEA -Schedule of Controlled Substances: C-I - Marijuana C-IV – Phenobarbital (treat seizures) C-II - Cocaine C-V – antidiarrheal (low abuse rate) C-III – anabolic steroids The lower the # the higher the addiction/abuse potential

  21. Legal Implications(State) • Regulate practice acts for ordering, prescribing, and administration of medications • As a surgical technologist, we act as an extension of the physician handling drugs under their supervision

  22. Legal Implications(Local) • May have specific guidelines for medication administration in the institution you are employed in

  23. Metric System • Meter = length • Liter = capacity • Gram = weight

  24. Metric Prefixes • Micro-one-millionth; 0.000001 • Milli-one-thousandth; 0.001 • Centi-one-hundredth; 0.01 • Deci-one-tenth; 0.1 • Unit-one;1.0 • Deka-ten;10.0 • Hecto-one-hundred;100.0 • Kilo-one thousand;1000.0

  25. Weight (gram) 1 gram=1000 milligrams 1 kilogram=1000 grams 1 ounce=30 grams Capacity (liter) 1 liter=1000 milliliters 1000 liters=1 kiloliter 1 liter=1.06 quarts 1 quart=0.946 liters 1 milliliter weighs 1 gram 1 cubic centimeter (cc) and 1 milliliter (ml) are equal/same 1 liter=1000ml or cc 1 fl. oz.=30ml or cc 1 fl. dram=0.125fl. oz. or 4ml or cc 1 gallon=3.8 liters Metric Equivalents

  26. Metric Equivalents • Length (meter) • 1 meter=1000mm=100cm=1.094 yd • 1 yard=3 ft.=36 in.=0.9144 meters • 1 in.=2.54 cm=25.4mm • 1 micron (micrometer)=0.001mm=0.000001 meter

  27. Gram-gm Milligram-mg Kilogram-kg Liter-L Milliliter-ml Cubic centimeter-cc Meter-M Millimeter-mm Centimeter-cm Metric Abbreviations

  28. Temperature Measuring • Fahrenheit (F) Water freezes at 32° Water boils at 212° • Celsius (C) (centigrade) Water freezes at 0° Water boils at 100°

  29. Converting C° to F° or F° to C° • Fahrenheit to Celsius • 5/9 (F°-32) = C° ( or F -32 x 5 divided by 9 = C) • Celsius to Fahrenheit • 9/5 (C°)+32 = F° (or C x 9 divided by 5 + 32 =‘s F)

  30. Dosage Calculations • Formula: • D (desired dose) x Q (quantity ofdose on hand) H (dose on hand) =‘s X X = Amount to give/needed • Example: Give 80mg of a drug from a 30ml stock bottle labeled “100mg per 1ml

  31. I know: 1ml=100mg Need to give 80mg • I do not know: Fraction of ml that=80mg • Common sense: If 1 ml of the solution = 100mg of the drug, then the amount given must be less than 1ml.

  32. Formula: D x Q = amt to give H • Solution: 80mg x 1ml=0.8 ml of sol. 100mg • Proof: 80÷100=0.8 0.8x1=0.8

  33. Standard Dilution Equations • C1 x V1 = C2 x V2 • C = concentration in % • V = volume • Problem: Dr. needs 60 ml of ½% contrast media. How much NACL and how much media do you need to make the required amount when you have 60 ml’s of 1% media?

  34. First we must convert the % to decimals • 1/2% = 0.5 • 1 divided by 2 = 0.5 • You always do this when converting percentages to decimals

  35. C1=1/2%=0.5 Concentration 1 (asked for) • C2=1% = Concentration 2 (given) • V1=60ml Volume 1 (asked for) • V2=x (? volume of saline)

  36. Formula: C1 x V1 = C2 x V2 • 0.5 x 60 =1 x x • 30 = x • So, You add x=30 ml’s of pure saline • Need 60mlof 1% – 30ml’s = 30ml’s of 1% dye solution and add 30ml’s saline to get 60ml of 0.5% dye solution

  37. Standard Dilution Equation • Doctor wants ½% lidocaine. You have 25ml of 1% Lidocaine. How do you dilute it to the proper strength? • C1 (asked) x V1 (given) = C2 (given) x V2 (?) • ½% x 25 = 1% x x • 12.5= x • 25ml lidocaine – 12.5mlof 1% lidocaine = 12.5ml lidocaine = 12.5ml saline = ½% or 0.5% lidocaine

  38. Calculating mg Dose per kg Body Weight • Normal dose of propofol (an induction drug used by anesthesia) is 2 mg per kg for an adult • Find initial dose for an adult weighing 150lbs • Convert lbs. to kg (2.2 lbs. = 1kg) • 150lbs. ÷ 2.2lbs. = 68kg • 68kg x 2mg = 136mg

  39. Calculating Child Dosages • Clark’s Rule: Standard adult weight=150lbs • Problem: If an adult receives 75mg of Demerol, what would be an appropriate dose for a child weighing 30lbs? • Adult dose=75mg • Child weighs 30lbs. • Clark’s rule Standard adult weight = 150lbs. • Common sense: child is smaller, dose will be less than 75mg

  40. Formula: Child’s weight x Adult dose = Child’s dose Adult weight • Solution: • 30lbs. x 75mg = 15mg of Demerol 150lbs

  41. Mixing Medications • Do not mix drugs unless you know for certain that they are compatible together • If a compatibility is questioned direct the question to the pharmacist to be certain before mixing • Mixing drugs that are incompatible can result in decreased or increased efficacy, precipitates/crystallization of the drugs which could cause embolization of the drug in the patient, or death • Institutional pharmacies keep a compatibility chart in the pharmacy/Some ORs may have them in the room

  42. Pharmacokinetics Pharmacodynamics Actions/Effects Abbreviations Nomenclature Legal implications Metric System Conversions/ Mathematics Dosage Calculations Mixing Medications Summary

More Related