EKG CET Study Plan: 5-Week Schedule

EKG CET Study Plan: 5-Week Schedule

Week-by-Week Preparation Guide for the NHA CET Exam

4–6 Week Preparation Guide

Certifying Body: National Healthcareer Association (NHA)

Exam Code: CET

Format: 100 scored questions + 10 pretest questions (110 total), 2 hours

Passing Score: Scaled score of 390 (on a 200–500 scale)

Prerequisites: High school diploma/GED + completion of training program OR 1 year supervised work experience

Cost: ~$117 (as of 2024; verify at nhanow.com)


About the Exam

The CET validates competency in electrocardiography — performing EKGs, recognizing cardiac rhythms, and understanding cardiovascular anatomy. EKG technicians work in hospitals, clinics, cardiac rehabilitation centers, and diagnostic laboratories.

Exam Content Domains (per NHA Content Outline)

Domain % of Exam
Cardiac Anatomy and Physiology 25%
EKG Acquisition and Interpretation 35%
EKG Rhythm Interpretation 25%
Professional and Communication Skills 15%

Week-by-Week Study Plan

Week 1: Cardiac Anatomy & Physiology

Goal: Build strong cardiovascular foundation

Key Topics:

  • Heart anatomy: 4 chambers (RA, LA, RV, LV), 4 valves (tricuspid, pulmonary, mitral/aortic), septum, pericardium
  • Coronary circulation: LAD (left anterior descending), LCx (left circumflex), RCA (right coronary artery)
  • Cardiac cycle: systole (contraction) and diastole (relaxation)
  • Stroke volume, cardiac output (CO = HR × SV), ejection fraction
  • Electrical conduction system:
  • SA node (60–100 bpm) — “pacemaker of the heart”
  • AV node (40–60 bpm backup)
  • Bundle of His → right and left bundle branches
  • Purkinje fibers (20–40 bpm backup)
  • Autonomic nervous system: sympathetic (increases HR) vs. parasympathetic/vagus (decreases HR)
  • Cardiac action potential phases

Daily Schedule (2–3 hours/day):

  • Days 1–2: Heart anatomy — chambers, valves, blood flow pathway (systemic and pulmonary circulation)
  • Days 3–4: Coronary circulation and cardiac cycle
  • Days 5–6: Conduction system — pathway, timing, backup pacemakers
  • Day 7: Review & practice quiz (40 questions)

Mnemonic — Blood Flow:

IVC/SVC → RA → Tricuspid → RV → Pulmonary valve → Pulmonary arteries → Lungs → Pulmonary veins → LA → Mitral → LV → Aortic valve → Aorta → Body


Week 2: EKG Fundamentals & Lead Placement

Goal: Master EKG acquisition skills

Key Topics:

  • EKG paper: speed (25 mm/s), small boxes (0.04s, 1mm), large boxes (0.20s, 5mm)
  • Standardization: 1 mV = 10mm (2 large boxes tall)
  • 12-lead EKG:
  • Bipolar limb leads: I, II, III (Einthoven’s triangle)
  • Augmented limb leads: aVR, aVL, aVF
  • Precordial (chest) leads: V1–V6
  • Electrode placement:
  • RA: right arm (below clavicle, near right shoulder)
  • LA: left arm (below clavicle, near left shoulder)
  • RL: right leg (lower abdomen, below rib cage)
  • LL: left leg (lower abdomen, below rib cage on left)
  • V1: 4th intercostal space, right of sternum
  • V2: 4th intercostal space, left of sternum
  • V4: 5th intercostal space, mid-clavicular line
  • V3: halfway between V2 and V4
  • V5: anterior axillary line, same horizontal as V4
  • V6: mid-axillary line, same horizontal as V4
  • Skin preparation: cleaning, shaving, electrode gel/pad
  • Artifact types and troubleshooting: muscle tremor, 60Hz interference, wandering baseline, poor electrode contact

Daily Schedule (2–3 hours/day):

  • Days 1–2: EKG paper, calibration, measurements (intervals, segments)
  • Days 3–4: 12-lead system — lead groups, views of the heart
  • Days 5–6: Electrode placement practice (use a study partner or diagram), skin prep, artifact troubleshooting
  • Day 7: Review & practice quiz (40 questions)

Week 3: Normal EKG Waveform & Intervals

Goal: Recognize normal; foundation for identifying abnormal

Key Topics:

  • P wave: atrial depolarization (normal: ≤0.11s duration, ≤2.5mm amplitude, upright in II)
  • PR interval: beginning of P to beginning of QRS (normal: 0.12–0.20s)
  • QRS complex: ventricular depolarization (normal: 0.06–0.10s)
  • Q wave: first downward deflection (normal: <0.04s, <1/3 R wave height)
  • R wave: first upward deflection
  • S wave: downward deflection after R
  • ST segment: end of QRS to beginning of T (normal: isoelectric, ±1mm)
  • T wave: ventricular repolarization (normal: upright in most leads, <10mm amplitude)
  • QT interval: beginning of QRS to end of T (normal: 0.36–0.44s; varies with HR)
  • U wave: sometimes seen, may represent repolarization of Purkinje fibers
  • Heart rate calculation:
  • Regular: 300 ÷ (# large boxes between R-R)
  • 6-second strip method: count R waves × 10
  • Rhythm analysis systematic approach: Rate, Rhythm (regular?), P waves, PR interval, QRS width

Daily Schedule (2–3 hours/day):

  • Days 1–3: Waveform identification — practice measuring each component on sample strips
  • Days 4–5: Interval/segment measurement and significance; rate calculation methods
  • Days 6: Practice systematic rhythm analysis on 20+ strips
  • Day 7: Review & practice quiz (40 questions)

Week 4: Rhythm Interpretation — Sinus & Atrial Rhythms

Goal: Identify common sinus and atrial dysrhythmias

Key Topics — Sinus Rhythms:

  • Normal Sinus Rhythm (NSR): Rate 60–100, regular, P before every QRS, PR 0.12–0.20, QRS <0.12
  • Sinus Bradycardia: Rate <60, otherwise normal
  • Sinus Tachycardia: Rate 100–150, otherwise normal
  • Sinus Arrhythmia: Rate varies with respiration (phasic), otherwise normal
  • Sinus Arrest/Pause: SA node fails to fire; missing PQRST complex(es)

Key Topics — Atrial Rhythms:

  • Premature Atrial Complex (PAC): early P wave (may differ in shape), normal QRS, compensatory or non-compensatory pause
  • Atrial Tachycardia: rate 150–250, regular, P waves may be abnormal
  • Atrial Flutter: sawtooth F waves, rate typically 150 (2:1 block) or variable, regular or irregular
  • Atrial Fibrillation (AFib): irregularly irregular, no discernible P waves, fibrillatory baseline, rate varies (controlled <100, uncontrolled >100)
  • Supraventricular Tachycardia (SVT): rapid regular rhythm, rate 150–250+, narrow QRS, P waves often hidden

Daily Schedule (2–3 hours/day):

  • Days 1–2: Sinus rhythms — identification, causes, clinical significance
  • Days 3–4: Atrial rhythms — PACs, flutter, fibrillation, SVT
  • Days 5–6: Practice 30+ rhythm strips; flashcard drill
  • Day 7: Review & practice quiz (40 questions)

Week 5: Rhythm Interpretation — Ventricular Rhythms, Heart Blocks & Professional Skills

Goal: Complete rhythm interpretation knowledge; cover professionalism

Key Topics — Junctional Rhythms:

  • Junctional rhythm: rate 40–60, regular, inverted/absent P waves or P after QRS, narrow QRS
  • Accelerated Junctional: rate 60–100
  • Premature Junctional Complex (PJC): early beat with junctional features

Key Topics — Ventricular Rhythms:

  • Premature Ventricular Complex (PVC): wide QRS (>0.12s), no preceding P wave, compensatory pause, T wave opposite QRS direction
  • Ventricular Tachycardia (V-tach): 3+ consecutive PVCs, rate 100–250, wide QRS, regular
  • Ventricular Fibrillation (V-fib): chaotic, no identifiable waveforms, no pulse — LIFE-THREATENING
  • Asystole: flat line (confirm in 2 leads) — LIFE-THREATENING
  • Ventricular Escape rhythm: rate 20–40, wide QRS, regular

Key Topics — Heart Blocks:

  • 1st Degree AV Block: PR >0.20s, constant, every P followed by QRS
  • 2nd Degree Type I (Wenckebach/Mobitz I): PR progressively lengthens until QRS is dropped
  • 2nd Degree Type II (Mobitz II): PR constant, sudden non-conducted P wave(s)
  • 3rd Degree (Complete Heart Block): no relationship between P waves and QRS; atrial and ventricular rates independent

Key Topics — Professional Skills:

  • Patient identification and communication
  • HIPAA compliance
  • Emergency procedures: recognize V-fib/V-tach → notify nurse/MD immediately
  • Scope of practice
  • Quality assurance and documentation

Daily Schedule (2–3 hours/day):

  • Days 1–2: Junctional and ventricular rhythms
  • Days 3–4: Heart blocks — all degrees; practice differentiation
  • Days 5: Professional skills, communication, legal/ethical considerations
  • Days 6: Comprehensive rhythm strip practice (40+ strips)
  • Day 7: Review & practice quiz (40 questions)

Week 6: Comprehensive Review & Practice Exams

Goal: Achieve test readiness; build confidence

Daily Schedule (1.5–2.5 hours/day):

  • Days 1–2: Full-length practice exam #1; review every incorrect answer in detail
  • Days 3: Targeted review of weakest domain based on practice exam results
  • Day 4: Full-length practice exam #2; review
  • Day 5: Rhythm strip speed drills — identify 50+ strips as quickly as possible
  • Day 6: Light review of mnemonics, normal values, and electrode placement
  • Day 7: REST — no studying. Arrive rested and confident.

Test-Taking Tips

  1. Systematic approach for every strip: Rate → Rhythm (regular?) → P waves → PR interval → QRS width → Interpretation
  2. Learn the “looks like” patterns — flutter sawtooth, fib baseline chaos, V-tach wide and fast
  3. Wide QRS = ventricular origin until proven otherwise
  4. Narrow QRS = supraventricular origin (above the ventricles)
  5. Irregularly irregular = think atrial fibrillation first
  6. If no pulse is mentioned with a shockable rhythm → defibrillation/CPR
  7. Remember backup pacemaker rates: SA (60–100), AV (40–60), Ventricular (20–40)
  8. Measure from the beginning of one wave to the beginning of the next for intervals
  9. Don’t confuse artifact with rhythm — look for consistent P-QRS-T pattern
  10. Know when to escalate — V-fib, V-tach (pulseless), asystole → immediate emergency action

High-Yield Values to Memorize

Measurement Normal Range
PR interval 0.12–0.20 seconds
QRS duration 0.06–0.10 seconds
QT interval 0.36–0.44 seconds
P wave duration ≤0.11 seconds
Paper speed 25 mm/sec
1 large box 0.20 seconds (5mm)
1 small box 0.04 seconds (1mm)
1 mV calibration 10mm (2 large boxes)

Recommended Resources

Primary:

  • NHA CET Candidate Handbook and Content Outline (free at nhanow.com)
  • NHA CET Practice Exams (available through nhanow.com)
  • EKG Plain and Simple — Karen Ellis (Pearson)
  • ECG Made Easy — John R. Hampton

Supplementary:

  • Rapid Interpretation of EKG’s — Dale Dubin (classic, highly visual)
  • The 12-Lead ECG — Tomas B. Garcia
  • SkillStat EKG simulator (skillstat.com — free practice)

Free Resources:

  • Life in the Fast Lane (LITFL) ECG Library — litfl.com/ecg-library
  • Practical Clinical Skills EKG practice — practicalclinicalskills.com
  • Khan Academy — Heart and Circulation videos
  • YouTube: EKG interpretation playlists by RegisteredNurseRN and Simple Nursing

Sources

  • National Healthcareer Association (NHA) — nhanow.com
  • NHA CET Certification Exam Content Outline (2024)
  • American Heart Association — ACLS Guidelines
  • Garcia, T.B. 12-Lead ECG: The Art of Interpretation
  • Hampton, J.R. The ECG Made Easy, 9th Edition

Frequently Asked Questions

What is the CET exam?

The CET is a standardized exam. For a comprehensive study guide with practice questions and full-length exams, see our EKG Technician Study Guide.

How should I prepare for the CET?

Start with a structured study plan, use official exam blueprints, and practice with realistic exam questions. Our EKG Technician Study Guide covers the complete exam content with detailed rationales.

Where can I find CET practice questions?

Our EKG Technician Study Guide includes full-length practice exams with detailed answer rationales covering every content area on the actual exam.

Ready to Take the Next Step?

Our EKG Technician Study Guide covers every content area with practice questions and detailed answer rationales.

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