Wait, How do I give this?
Didn't mean for that to happen
How does it work? Pharmacodynamics
What class am I in?
I think it's broken
100

This route of administration is given into the loose connective tissue between the dermis and the muscle layer

Subcutaneous (SQ)

100

This complication is the escape of fluid into the surrounding tissue, which causes a localized area of edema. 

Infiltration

100

This type of medication initiates or alters cellular activity by attaching to receptor sites, prompting cellular response. 

Agonist medications

100

Drugs that have alpha or beta properties

Sympathomimetic

100

This class of medications slow the movement of sodium through channels in certain cardiac cells. This action has the potential to prolong the QRS and QT intervals

Class I Antidysrhythmic Medications.

200

This route of administration is given by penetrating a needle through the dermis and subcutaneous tissue and into the muscle layer

Intramuscular (IM)

200

This complication is the physical blockage of a vein or catheter

Occlusion

200

This type of medication prevents endogenous or exogenous agonist chemicals from reaching cell receptor sites and initiating or altering a particular cellular activity

 Antagonist medications

200

These medications occupy receptors in the heart, lungs, and arteries thus they cannot exert their full effects.

Beta Adrenergic blockers

200

This class of medication increase the duration of phases 1, 2, and 3 of the cardiac cycle by extending the cellular action potential. Useful for treating atrial and ventricular dysrhythmias. 

Class III Antidysrhythmic Medications. 

300

This route of administration has become more popular in the prehospital setting, providing a more rapid onset of absorption. 

Intranasal (IN)

300

If your patient begins developing respiratory distress, with unequal breath sounds with the administration of IV fluids, your patient could be suffering what condition?

Air Embolus

300

Medication is administered in a dose intended to produce a desired clinical response. There medications are capable of demonstration what type of effect?

Therapeutic Response

300

These types of medications have potent anti-seizure, anxiolytic, and sedative properties, making them desirable in many situations

Benzodiazepines

300

Used to reduce blood pressure and control the HR. May increase myocardial oxygen demand. They may also inhibit uterine contractions. 

Class IV antidysrhythmic

Calcium Channel Blockers

400

This route of administration is the fastest route because it bypasses most barriers to drug absorption. 

Intravenous (IV)

400

This complication occurs when part of the catheter is pinched against the needle, and the needle slices through the catheter, creating a free-floating segment

Catheter Shear

400

The possibility of serious consequences after giving a medication

Adverse effect

400

These medications help to reduce inflammation. They have immunosuppressant properties and can alter a vast array of endocrine functions

Corticosteroids

400
This medication is prescribed for treatment of chronic CHF or certain rapid atrial dysrhythmias. Virtually any cardiac dysrhythmia may be caused by the toxic effects of this medcation. 

Digitalis

500

This route of administration is used for critically ill or injured children and adults. 

Intraosseous (IO)

500

This complication is typically caused by failure to readjust your drip rate after flushing a line. SxS include SOB, JVD, HTN, and crackles in the lungs

Circulatory overload

500

A severe and possibly fatal medication reaction that mimics a burn. 

Stevens-Johnson Syndrome

500

This type of medication corrects volume overload

Diuretic

500

The only member of the fifth class of antidysrhythmic medications. 

Adenosine