1 / 41

ASSESSMENT OF CARDIOVASCULAR FUNCTION

ASSESSMENT OF CARDIOVASCULAR FUNCTION. LECTURE OBJECTIVES. Review anatomy & physiology of the cardiovascular system. Discuss relevant aspects of the patient history. Describe physical assessment of cardiovascular status.

ranger
Download Presentation

ASSESSMENT OF CARDIOVASCULAR FUNCTION

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. ASSESSMENT OF CARDIOVASCULAR FUNCTION

  2. LECTURE OBJECTIVES • Review anatomy & physiology of the cardiovascular system. • Discuss relevant aspects of the patient history. • Describe physical assessment of cardiovascular status. • Review diagnostic procedures, tests and medications relative to the cardiovascular system.

  3. Anatomy & Physiology (What makes it “tick”!) Functions of the heart & CV system • Pumps blood to tissues to supply O2 & nutrients • Remove CO2 & metabolic wastes

  4. Anatomy & Physiology CARDIAC CELLS HAVE UNIQUE PROPERTIES • AUTOMATICITY CELLS CONTRACT INDEPENDENTLY (THEY INITIATE THEIR OWN IMPULSE) • EXCITABILITY ION SHIFT • CONDUCTIVITY  TRANSMIT IMPULSE TO ANOTHER CARDIAC CELL • CONTRACTTILITY HOW WELL THE CELL CONRACTS

  5. Anatomy & Physiology PERICARDIUM / PERICARDIAL SAC • Protects heart from trauma • Serous fluid lubricates and prevents friction • Prevents heart from over filling

  6. CIRCULATION PATHWAY HEART IS DIVIDED INTO TWO SIDES RIGHT & LEFT ALL BLOOD RETURNS TO THE HEART THROUGH THE ATRIA ALL BLOOD LEAVES THE HEART FROM THE VENTRICLES

  7. CORONARY ARTERIES • Supply blood to MYOCARDIUM • BRANCHES: LEFT MAIN CORONARY ARTERY L ANTERIOR DESCENDING (LAD) L CIRCUMFLEX (LCX) RIGHT CORONARY ARTERY POSTERIOR MARGINAL

  8. CORONARY ARTERIES (L) ARTERY CIRCUMFLEX (R) ARTERY LAD

  9. CONTRACTION OF CARDIAC MUSCLE The heart can’t pump unless an electrical stimulus occurs Action Potential (AP) – electrical change (depolarization = contraction) Brought about by release of calcium (+ charge) into cells Intrinsic Pacemakers – depolarize and generate the AP

  10. CONTRACTION OF CARDIAC MUSCLE The pacemaker with the fastest rate of depolarization stimulates the AP • SA node (60-100 bpm)- Upper R atrium • AV node (40-60 bpm)- Lower R atrium • Other pacemakers ( 40)

  11. DISRUPTION IN SERUM ELECTROLYES CAN RESULT IN ALTERATION IN CARDIAC CYCLE •  K, Ca & Mg lead to dysrhythmia, weakness •  Ca leads to  strength of contraction •  Na leads to general weakness & less Na to initiate action potential • K leads to dysrhythmias

  12. MONITORING MOVEMENT OF THE CRDIAC ACTION POTENTIAL (AP) • EKG – monitors the movement of the AP, the electrical changes NOT the mechanical changes that follow • Auscultating heart sounds, palpating pulses and measuring pressures monitor the mechanical changes

  13. CARDIAC CYCLE CARDIAC CYCLE – all the activities occurring in the heart during one contraction, and subsequent period of relaxation. Graphically represented on an EKG (ECG)

  14. CARDIAC CYCLE EKG – A 12 lead EKG is a graphic record of the electrical forces produced by the heart

  15. CARDIAC CYCLE P wave represents… PR interval… QRS complex represents… T-wave represents… ST segment represents… R to R interval…

  16. CARDIAC CYCLE Polarized (resting) cell – represented on EKG as baseline or isoelectric line Depolarization – impulse over specialized cardiac cells (not neuromuscular impulse) Repolarized cell – returns to normal. Na moves out of cell, K moves in – requires ATP Note: ischemic tissue may cause problem

  17. ELECTRODE POSITIONS “LEADS” • Leads measure electrical activity between 2 points • Movement toward  electrode causes positive deflection • Movement away from  electrode causes negative deflection

  18. ELECTRODE POSITIONS A 12 Lead EKG shows electrical activity from 12 different positions in the heart, concentrating on (L) ventricle A 14 Lead EKG includes (R) ventricle activity

  19. STROKE VOLUME (SV) & CARDIAC OUTPUT (CO) • SV – amount of blood ejected by 1 ventricle in 1 beat • CO – volume ejected in 1 min Control of SV and HR = SV&HR are continually adjusted by the body, and are affected by the return of blood from the tissues (think of exercise) CO = SVxHR

  20. STROKE VOLUME (SV) & CARDIAC OUTPUT (CO) Extrinsic control of HR is a more powerful way of controlling CO than changing SV •  CVP causes stretching of (R) atrial muscle which stimulates SNS &  HR (to help pump all the blood returned to it)

  21. STROKE VOLUME (SV) & CARDIAC OUTPUT (CO) • Stretch baroreceptors (aorta & carotid) detect in pressure which stimulates SNS & HR  (to ensure adequate blood supply to heart/ brain) • If  pressure detected, then PSNS is stimulated & HR is slowed (vagus nerve) (prevents excess arterial pressure which can damage organs)

  22. CARDIAC LOAD Preload = the greater the length or stretch of cardiac muscle, the greater the degree of shortening After load = pressure against which ventricles must eject blood. This pressure is affected by systemic vascular resistance.

  23. CARDIAC ASSESSMENT • Objective: Cardiac status of all patients should be routinely assessed. • Subjective • CP • Dyspnea • Fatigue

  24. IMMEDIATE NURSING INTERVENTIONS FOR ACUTE CARDIAC EVENTMOVIE Acronym M- Monitor for pain O- O2 and pulse ox V- Vital signs I- Intravenous fluids E- EKG monitoring Anything else??

  25. Pain Assessment SLIDA or Precipitating/alleviating factors Quality Radiation Severity Timing

  26. OTHER ELEMENTS OF CARDIAC ASSESSMENT • Previous cardiac hx • Other medical conditions that may affect heart function • Chest injury • Previous heart surgery • Past medical hx • Medications: prescribed, OTC, herbals • Activity tolerance • Health habits • Family hx

  27. EXAMINATION • Inspection • Palpation • Percussion • Auscultation = S1, S2 at PMI Aortic Pulmonic Tricuspid Mitral

  28. Heart RhythmRegular, Irregular, Regular irregular Abnormal Sounds: Gallops Murmurs Bruits S3 ventricular gallop – heard in early diastole S4 atrial gallop – generally abnormal

  29. Assessment of Murmurs Turbulent blood flow in valvular disorders and septal defects Timing of murmurs is a must! Systolic murmurs occur between S1 & S2 Diastolic murmurs occur between S2 & S1 Grade 1 – 6 identifies intensity of murmur

  30. Other assessments • Jugular vein pressure – assess JVD which reflects increased filling volume and pressure on (R) side of heart  JVD associated with (R) HF, SVC obstruction • Pulse deficit – the difference between apical HR and peripheral pulse-associated with Afib, and heart blocks • Pulse pressure – the difference between systolic & diastolic pressure

  31. Other assessments • Lung sounds = rate rhythm, quality • Sputum • Abdomen • Lower extremities

  32. Diagnostic procedures • EKG 12 Lead continuous cardiac monitoring holter monitor • Chest x-ray – detects enlargement of heart & pulmonary congestion

  33. Diagnostic procedures • Echocardiography – ultrasound that reveals size, shape and motion of cardiac structures Evaluates heart wall thickness, valve structure, differentiates murmurs • TEE – transesophageal echocardiography provides a clearer image because less tissue for sound waves to pass through

  34. Diagnostic procedures • Angiography / cardiac catherization determines coronary lesion size, location, evaluate (L) ventricular function, measures heart pressures • Exercise tolerance test • Radionuclide Imaging

  35. Lab Studies Cardiac enzymes = enzymes are released when cells are damaged (MI). Enzymes are found in many tissues, and some are specific to cardiac tissue. Serial measurement can aid in dx, and monitor course of MI Cardiac enzymes = CPK – MB (CK-MB) LDH, myoglobin, Troponin In general, the greater the rise in the serum level of an enzyme, the greater the degree or extent of damage to the muscle.

  36. Blood studies • Electrolytes • Lipid panel • CBC • C – Reactive Protein • BNP • Blood coags-PT/PTT/INR

  37. Lipid Panel

  38. C Reactive Protein

  39. NCLEX TIME Mary is attending a sophomore level nursing class on anatomy and physiology. Which statement, if made by Mary, demonstrates a good understanding of the anatomy and physiology of the heart? A."The heart is encapsulated by a protective coating called the endocardium.“ B."The SA node is considered the main regulator of heart rate.“ C."The left atrium receives deoxygenated venous blood from all peripheral tissues.“ D."Stroke volume is the amount of blood ejected by the right ventricle during each diastole

  40. NCLEX TIME Kirsten is completing her graduate clinical rotation in a large urban teaching hospital in a medical coronary care unit (CCU). Which observation demonstrates a good understanding of completing a thorough cardiac examination? • A. In an obese client, an adult cuff size of 12 to 14 cm is preferable. • B.The carotid artery on the neck is auscultated to assess for the presence of a bruit. • C.The apical impulse is auscultated over the fifth intercostal space in the midclavicular line. • D.Palpation is used to determine cardiac size.

  41. NCLEX TIME Edward is a 40-year-old white male. He is an accountant who works on average 11 hours per day. He reports feeling stressed each day, even with mundane things such as a traffic jam. His father had a massive myocardial infarction at the age of 48. His mother has a history of congestive heart failure. He seldom has time to exercise, but does eat balanced meals when possible, although he does not get to eat three meals a day. Select all factors that place Edward at risk for heart disease. • A.Family history • B.Age • C.Coping-stress tolerance • D.Race • E.Occupation

More Related