ECG Chapter 2 (Pt 1)

Cardiac Cell Properties

Refractory Periods

Conduction System

Dysrhythmias

EXTRA

100

Pacemaker cell ability to initiate electrical impulse w/o being stimulated from another source

Automaticity

100

The period of recovery that cells need after being discharged before they are able to respond to a stimulus. This is the definition of what?

Refractoriness

100

Primary Pacemaker, initiates impulse that's normally conducted throughout the atria. Sinus Rhythm?

Sinoatrial (SA) Node

60-100 BPM

100

•Cardiac cells that are not normally associated with a pacemaker function begin to depolarize spontaneously

•A pacemaker site other than the SA node increases its firing rate beyond that which is considered normal

Abnormal automaticity

100

The main 4 electrolytes that affect heart functions

Sodium, Potassium, Calcium, and Chloride

200

Ability of cardiac muscle cells to respond to an outside stimulus

Excitability (irritability)

200

Cells cannot be stimulated to conduct an electrical impulse, no matter how strong the stimulus

Absolute refractory period (ARP)

200

Receives impulse from SA node but delays the conduction allowing the Atria to pump blood to ventricles. Sinus Rhythm?

Atrioventricular (AV) Node

0 BPM

200

Abnormal electrical impulses occur during repolarization (after depolarizations), when cells are normally quiet

Requires a stimulus to initiate depolarization

Triggered activity

200

Describe differences between Depolarization and Repolarization

A cell is active or stimulated when depolarized

A cell is resting when repolarized

300

Ability of a cardiac cell to receive an electrical stimulus and conduct that impulse to an adjacent cardiac cell

Conductivity

300

Cardiac cells can be stimulated to depolarize if the stimulus is strong enough

Relative refractory period (RRP)

300

Receives impulse from AV node and is connected to it, relaying it to the next bundle branches. Sinus Rhythm?

Bundle of His (AV Bundle)

40-60 BPM

300

•Slowed—all impulses are conducted but it takes longer than normal to do so

•Intermittent—some (but not all) impulses are conducted

Partial Conduction block

300

What causes Abnormal Heart Rhythms (Dysrhythmias)?

Results from disorders of impulse formation, disorders of impulse conduction, or both

400

Ability of cardiac cells to shorten, causing cardiac muscle contraction in response to an electrical stimulus

Contractility

400

Includes the absolute refractory period and the first half of the relative refractory period

Effective refractory period

400

Receives impulse from Bundle of His, relays it to the last step. Sinus Rhythm?

Left and Right Bundle Branches

0 BPM

400

•No impulses are conducted through the affected area

Complete Conduction block

500

Describe the difference between Myocardial cells and Pacemaker cells

Myocardial cells

-Working or mechanical cells

-Responsible for contraction

Pacemaker cells

-Specialized cells of electrical conduction system

-Spontaneously generate and conduct impulses

500

Weaker-than-normal stimulus can cause cardiac cells to depolarize

Supernormal period

500

Receives impulse from Bundle Branches and relays it to ventricular myocardium. Sinus Rhythm?

Purkinje Fibers

20-40 BPM

500

An impulse returns to stimulate tissue that was previously depolarized

Reentry