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Anti-Infective – Antitubercular

Anti-Infective – Antitubercular

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5 Anti-Infective – Antitubercular NCLEX Questions

Question 1 of 5

The nurse is assigned to a client who is beginning drug treatment for tuberculosis. Which of the following statements by the nurse is correct regarding this condition?

“You will be taking a course of antibiotics for 6-9 months”

“I will teach you how to give yourself the medication as an intramuscular injection, then you can demonstrate it back to me”

“You will need to follow airborne precautions until symptoms improve”

“You will need a Mantoux test every 6 months once treatment ends in order to determine whether the disease has returned”

Question 2 of 5

The community health nurse is conducting an educational session to teach about tuberculosis in an HIV positive population. Which of the following is accurate regarding extrapulmonary tuberculosis? Select all that apply.

Extrapulmonary tuberculosis is more likely to affect persons who are immunocompromised

Extrapulmonary tuberculosis refers to TB that has traveled to the brain

Extrapulmonary tuberculosis is often misdiagnosed

Extrapulmonary tuberculosis is more likely to be seen in children than adults

Extrapulmonary tuberculosis is more manageable than pulmonary TB

Question 3 of 5

The nurse is assigned to a client with tuberculosis who begins to experience a seizure. Which of the following is a potential reason for this?

The client is taking rifampin and has developed a hypersensitivity reaction to the drug

The client is taking multiple nephrotoxic drugs and has gone into renal failure

The tuberculosis has progressed to TB meningitis

The client is taking isoniazid and has neurotoxicity from the drug

Question 4 of 5

The preceptee correctly explains to the nurse that the mechanism of action of anti-tubercular medications is which of the following?

Creating gaps in the mycobacterium synapses

Building up mycobacterium cell walls

Preventing neurotransmitter release between the bacterial cells

Inhibiting protein synthesis in the mycobacterium

Question 5 of 5

A client undergoing treatment for tuberculosis presents to the emergency department complaining of red-tinged discharge from the eyes. Which of the following actions is most appropriate for the nurse to take?

Prepare the client for a non-contrast head CT

Place the client on a cardiac monitor

Reassure the client that this is a side-effect of the TB medication

Prepare the client for an injection of vitamin K

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Outline

Overview

I. Overview

A. Mycobacterium

B. Tuberculosis (TB) infections

1. Pulmonary

2. Extrapulmonary

II. Mechanism of Action

A. Inhibit protein synthesis

B. Inhibit cell wall synthesis

III. Types (RIPES)

A. Rifampin

B. Isoniazid

C. Pyrazinamide

D. Ethambutol

E. Streptomycin

IV. Indications

A. Mycobacterium

B. Tuberculosis (TB) infections

1. Pulmonary

2. Extrapulmonary

3. TB treatment failures / relapses

V. Contraindications

A. Liver disease

B. Kidney disease

VI. Side Effects

A. CNS

1. Ototoxicity

2. Seizures

3. Visual disturbances

4. Dizziness

5. Headache

Kidney / Liver

1. Nephrotoxicity

2. Hepatoxicity

B. * Rifampin / Isoniazid

1. Red-orange-brown colored bodily secretion

2. Urine

3. Sweat

4. Tears

5. Sputum

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Transcript

Welcome back and today we are going to discuss antitubercular medications.
Antitubercular medications treat mycobacterium and TB infections which are pulmonary and extrapulmonary (kidney, spine or brain). With the most common location is pulmonary.

The mechanisms of actions are the inhibition of protein synthesis (which work in RNA/DNA replication – how bacteria communicate) and cell wall synthesis (which provide structural support). There are many drugs in this drug class but each drug performs one of these actions. So this drug class stop the bacteria from being able to replicate and function. Antitubercular medications treat mycobacterium and TB infections which are pulmonary and extrapulmonary (kidney, spine or brain). With the most common location is pulmonary.

Now, the types of drugs in the antitubercular section include the following. An easy way to remember these is the word RIPES – with the top two being rifampin and isoniazid. Years ago, I had a patient (who visited Florida from Africa) on rifampin and isoniazid who had HIV. TB is a common cause of death in this patient population who reside in Africa.

Now, the indications are two-fold mycobacterium and TB. Mycobacterium comes in many forms, focus only on the word “mycobacterium” and you will be fine. If you see mycobacterium, I want to immediately think antitubercular medications. And TB is again pulmonary or extrapulmonary (kidney, spine, brain). Now these drugs aren’t medications a patient is going to get for a few days. These drugs are usually given for 6-9 months on strict regimen and require strict monitoring for compliance. Please refer to the tuberculous lesson in the respiratory course for more details.

Contraindications are based in the drug’s excretion route (kidney and liver). If you have liver or kidney failure, you will not properly dispose of the drug. I had a patient with liver disease, who was administered rifampin, that drug lingered their system for days, causing all kinds of havoc.

The side effect profiles are CNS and liver/kidney based. In the CNS, think ears, brain and eyes. And the drugs cause kidney and liver toxicity, which explains the contraindications mentioned earlier.

Alright, rifampin and isoniazid both have a unique side effect of red-orange-brown colored bodily secretions. I had a patient with orange sputum once, it’s something you will not forget and something you must educate your patients as a possible side effect or they will be in in the hospital freaking out! As, rightfully so.

Priority nursing concepts for a patient taking antitubercular medications include: infection control and pharmacology.

Antitubercular medications treat mycobacterium and TB infections – pulmonary and extrapulmonary (kidney, spine or brain). Any easy way to remember the types is RIPES, with Contraindications are based in the drug’s excretion route (kidney and liver). Side effects focus on ears, brain and eyes. And a special note is isoniazid / rifampin’s ability to turn your bodily fluids red-orange-brown.

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Concepts Covered:

Study Plan Lessons

Acetaminophen (Tylenol) Nursing Considerations

Antineoplastics

Fungal Infections

Antiviral Agents for Treatment

Basics of Microbial Control

Pediatric Dosage Calculations

Hypertension (HTN) Concept Map

Coronary Artery Disease Concept Map

Interactive Practice Drip Calculations

Tension and Cluster Headaches

Patient Controlled Analgesia (PCA)

Anesthetic Agents

Bronchodilators

Anti-Infective – Glycopeptide

Anti-Infective – Antitubercular

Antidiabetic Agents

Anticonvulsants

Anti-Infective – Lincosamide

Anti-Infective – Antivirals

Anti-Infective – Antifungals

Anti-Infective – Sulfonamides

Anti-Infective – Fluoroquinolones

Anti-Infective – Macrolides

Anti-Infective – Carbapenems

Anti-Infective – Aminoglycosides

ACLS (Advanced cardiac life support) Drugs

Anesthetic Agents

Viruses & Fungi

Nuclear Chemistry

Rapid Sequence Intubation

Bronchodilators

Anticonvulsants

Cardiopulmonary Arrest

Anti-Infective – Glycopeptide

Antidiabetic Agents

Nuclear Chemistry

Neonatal Resuscitation Program (NRP)

Anti-Infective – Lincosamide

Prostaglandins in Pregnancy

Eye Prophylaxis for Newborn

Phytonadione (Vitamin K) for Newborn

Thrombin Inhibitors

Anti-Infective – Antitubercular

Chemical Equations

Chemical Bonds & Compounds

Betamethasone and Dexamethasone in Pregnancy

Sedatives-Hypnotics

Sympatholytics (Alpha & Beta Blockers)

Anti-Platelet Aggregate

Properties of Matter

Scientific Notation & Measurement

Chemical Reactions

Anti-Infective – Antivirals

Anti-Infective – Antifungals

Anti-Infective – Tetracyclines

Anti-Infective – Sulfonamides

Anti-Infective – Fluoroquinolones

Anti-Infective – Macrolides

Anti-Infective – Carbapenems

Anti-Infective – Aminoglycosides

Parasympathomimetics (Cholinergics) Nursing Considerations

Sympathomimetics (Alpha (Clonodine) & Beta (Albuterol) Agonists)

ACLS (Advanced cardiac life support) Drugs

Psychiatry Terminology

Pharmacology Terminology

Nursing Care and Pathophysiology for Hashimoto’s Thyroiditis

The SOCK Method – Overview

The SOCK Method – O

The SOCK Method – C

The SOCK Method – K

The SOCK Method – S

Hanging an IV Piggyback

Spiking & Priming IV Bags

IV Push Medications

SubQ Injections

Medications in Ampules

Drawing Up Meds

Topical Medications

EENT Medications

Pill Crushing & Cutting

NG Tube Med Administration (Nasogastric)

Hb (Hepatitis) Vaccine

Phytonadione (Vitamin K)

Eye Prophylaxis for Newborn (Erythromycin)

Lung Surfactant

Rh Immune Globulin (Rhogam)

Meds for PPH (postpartum hemorrhage)

Uterine Stimulants (Oxytocin, Pitocin)

Opioid Analgesics

Magnesium Sulfate

Betamethasone and Dexamethasone

Complex Calculations (Dosage Calculations/Med Math)

IV Infusions (Solutions)

Injectable Medications

Oral Medications

Dimensional Analysis Nursing (Dosage Calculations/Med Math)

Basics of Calculations

Pharmacokinetics

Pharmacodynamics

Antidepressants

Mood Stabilizers

Antianxiety Meds

Meds for Alzheimers

Sedatives-Hypnotics

Heart (Cardiac) Failure Therapeutic Management

NG Tube Medication Administration

Disease Specific Medications

Proton Pump Inhibitors

Anti-Infective – Penicillins and Cephalosporins

Parasympatholytics (Anticholinergics) Nursing Considerations

Nitro Compounds

Magnesium Sulfate

HMG-CoA Reductase Inhibitors (Statins)

Histamine 2 Receptor Blockers

Histamine 1 Receptor Blockers

Diuretics (Loop, Potassium Sparing, Thiazide, Furosemide/Lasix)

Corticosteroids

Cardiac Glycosides

Calcium Channel Blockers

Benzodiazepines

Autonomic Nervous System (ANS)

Atypical Antipsychotics

Angiotensin Receptor Blockers

ACE (angiotensin-converting enzyme) Inhibitors

Renin Angiotensin Aldosterone System

6 Rights of Medication Administration

Essential NCLEX Meds by Class

Therapeutic Drug Levels (Digoxin, Lithium, Theophylline, Phenytoin)

54 Common Medication Prefixes and Suffixes

12 Points to Answering Pharmacology Questions

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