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COMPLICATIONS OF CARDIOTHORACIC SURGERY Jacqueline Palmer-Powell, RN Nurse Educator/CNS Complications Commonly Resulting From CardioThoracic Surgery CVA CVA Devastating complication that results in lasting deficits of death. Other neurological complications which are more subtle occur with more frequency. Incidence -CABG with CPB: 2-5% -Valve Surgery: 5-10% Risk Factors Prior history of stroke, HTN, DM Carotid disease, carotid bruit Advanced age Atrial Fib Diagnosis & Treatment CT Scan demonstrates cerebral infarct within 1-2 days No treatment exist other than palliative Early rehabilitation Family counseling Hypotension Definition: Systolic BP<100 Cause: hypovolemia, excessive vasodilation, sepsis, elevated or decreased HR Treatment: identify cause!, volume replacement, use of IV drips Bleeding Contributing Factors in Bleeding Complication Pre-op Acute MI treated with thrombolytics (failed) Aspirin IIBIIIA Platelet Co-morbid states (uremia, liver disease) Post-op - Vigorous chest tube stripping - Hypertension - Heparin What Constitutes Excessive Bleeding? Chest Tube Drainage: - >500cc/hr in first hour - >400cc/hr during first 2 hours - >300cc/hr during first 3 hours - >200cc/hr during first 6 hours Basis of Coagulation Coagulation Cascade with the help of endothelium & platelets is the body’s defense to minimize blood loss. A vascular insults stimulates formation of platelet plug thru platelet activation, adhesion & aggregation. The plug is then stabilized thru clotting cascade to a fibrin clot Clotting Cascade Effect of CPB on Coagulation Major CPB induced coagulopathy results from platelet activation, dysfunction & destruction. Structural damage to platelets & RBC’s can occur thru shearing forces & turbulence in CPB pump, circuits & suction devices Preventing Bleeding Before Surgery Complete History - Questions about previous surgery, family history, bruising, heavy menses - medication history (Prescribed, OTC & herbal) Physical Exam Blood Work Pre-op Bleeding Prevention Identification of patient with co-morbid states that may contribute to bleeding: - Uremia: Causes platelet dysfunction thru impaired VWF interaction with platelets. - Acute liver dysfunction: may result in factor deficiency as a results of impaired factor production & may lead to DIC Drugs Which Affect Bleeding Aspirin NSAIDS IIBIIIA Platelet Inhibitors Coumadin Thrombolytics Heparin Prevention & Treatment of Bleeding in OR Thorough search for bleeding before chest closure including careful inspection of skin, sternum, suture sites Autotransfusion: pre-op blood donation (self-directed) with re-infusion after CPB Cell-saver-blood drained from chest tubes in OR collected thru special filters & reinfused after surgery DIC Diagnosis: Increased products of fibrin degradation (d-dimer), thrombocytopenia & prolongation of both PT & PTT Treatment: Replacement with PRBC, FFP & platelets. If fibrinogen level low, replacement with cryoprecipitate is preferable. Drugs (Amikar, Aprotinin) may be useful in treating DIC. High mortality! Drugs Used To Treat Bleeding Protamine SO4: Protein derived from salmon sperm. Used to neutralize effects of heparin DDAVP: Analog of vasopressin may be used when a patient continues to bleed despite normal coagulation profile & platelet counts Antifubrinolytics: Help to achieve homeostasis in patients with excessive fibrinolysis Blood Products Depending on patient presentation, history & lab results the bleeding may require infusion(s) of PRBC, platelets, FFP, &/or cryoprecipitate to control the bleeding & prevent hemodynamic instability Re-Op for Bleeding Chest Exploration <3% of patients require re-op to search for bleeding Bleeding causing tamponade or severe hypotension requires immediate re-op Coagulopathy must be distinguished from anatomic cause Low Cardiac Output Syndrome Signs & Symptoms of LCOS Results directly from inadequate tissue perfusion & increased sympathetic activity. Cool, clammy skin with slow capillary refill Oliguria Mental status changes Metabolic acidosis Fall in SVO2 Causes of LCOS Any pre-op condition - Post –op conditions that that causes impairment cause myocardial dysfunction: of preload, after load &/or contractility - hypothermia Events in OR - acidosis Arrhythmias - hypercarbia Inadequate preload or - volume overload elevated intrathoracic - increased afterload pressure Treatment of LCOS Heart rate manipulation Preload Afterload Myocardial Contractility SHOCK Shock Clinical syndrome representing an extreme state of circulatory failure Impaired tissue perfusion leading to cellular dysfunction Complex group of signs & symptoms that can be caused by a variety of factors Clinical Manifestations of Shock Directly related to pathophysiologic mechnaisms are involved. Progression is variable & depends on: -Patient age & prior state of health Duration of shock state Response to treatment Correction of treatable cause 3 Stages of Shock Early or compensatory Intermediate or progressive Late or irreversible Classification Vascular Tone (Distributive) Intravascular Volume Neurogenic Septic Anaphylactic Hypovolemic Ability of heart to act as pump Cardiogenic Hemodynamic Changes CO CVP SVR PAP PAWP ↑or↑ ↓or↑ ↓or↑ ↓or↑ Hypovolemic ↓ ↓ ↑ ↓ ↓ Cardiogenic ↓ ↑ ↑ ↑ ↑ Distributive ↓or↑ Treating Shock States Position: Supine/let elevation (if possible) Trendelenberg should be avoided: Initiates aortic & carotid sinus reflex Impaired cerebral blood flow Decreased filling of coronary arteries Fluids Shock almost always involves a decrease in effective circulating volume Need for volume expansion Fluid challenge Septic Shock Occurs in patients as a result of overwhelming infection More common in infants, elderly & immuno-compromised Clinical presentation can be subtle in elderly, debilitated or malnourished patients Warm Shock Vasodilation → ↓ SVR ↑ or normal CO BP ↓ but skin is pink, warm & dry Urine output is adequate Cold Shock Vasoconstriction ↓ ↑ SVR ↓ CO ↓ BP ↓ Urine output Metabolic Acidosis Hypovolemic Shock Loss of intravascular volume ↓ Decreased venous return to heart ↓ Circulatory insufficiency ↓ Inadequate tissue perfusion Cardiogenic Shock Pump failure Occurs when the heart can no longer efficiently pump blood. CO is significantly decreased Major cause: extensive myocardial injury secondary to MI Treatment of Cardiogenic Shock Treat reversible cause Goal of treatment is to: Increase Cardiac Contractility Decrease Afterload (workload) Careful fluid replacement (if needed) IABP insertion Drug therapy Cardiac Performance Low CO Dobutamine Preload Contractility Afterload Heart Rate MVO2 ↓ ↑↑ ↓ - Cardiogenic Shock Vasodilator ↓ ↓↓ ↓↓↓ LABP Dopamine ↓ ↓ ↓↓ ↑ ↑ ↑ ↑ ↑↑↑↑ Treatment of Peri-Op/Post-Op Ischemia Evaluate/Investigation of cause Drugs: Belta Blockers Nitrates Vasopressors Calcium Blockers Cardiac Arrhythmias Atrial Fibrillation Nearly 30% of patients undergoing coronary surgery & up to 50% of patients with valvular disease develop AF Occurs in up to 5% of patients afterr any major surgery Myocardial Ischemia Myocardial Ischemia Ischemia results from an imbalance between myocardial O2supply & demand. Can be due to: ↑ Demand ↓ Supply Coronary Vasospasm Causes of Ischemia Post-Op Incomplete mycardial protection during aortic cross-clamp, incomplete revascularization, vasospasm, atheromatous emboli, thrombosis of native vessel or new graft Myocardial revascularization patients are at higher risk of peri-op infarct than other CT surgery patients Causes of Post-Op A-Fib Common Causes Other Causes Electrolyte problems Advanced age Hypervolemia CHF D/C of pre-op meds method Hypoxia ETOH abuse - Valve surgery - History of RF - Duration of x-clamp -CPB -Cardioplegia -Sepsis Treatment of AF Prompt identification & treatment of cause Chemical cardioversion First give drugs to treat rate Then drugs to convert to SR Synchronized cardio version Brady Arrhythmias Sinus Bradycardia Heart Blocks Cause: Overuse of Beta blockers pre-op Manipulation or destruction of SA or AV nodes Hypoxia Vagal stimulation Treatment Treat Cause Pacing Drugs Ventricular Arrhythmias Range from occasional premature beats to bigeminy, trigeminy, non-sustained VT to sustained VT & VF Benign arrhythmias occur in 20-60% of patients post-op. Infrequently produce symptoms or require treatment Incidence of sustained VT/VF after cardiac surgery = 0.4 -1.4% Pre-disposing Factors in Development of VT Myocardial ischemia Decreased CO Decreased EF (<40%) Metabolic derangements Drug interactions Hypoxemia Cardiac Arrest Ventricular Fibrillation Uncoordinated continuous ventricular contraction which does not generate a cardiac output Treatment: SHOCK! SHOCK! SHOCK! Mortality increases 4-10% for every minute the first defibrillation attempt is delayed Asystole Complete absence of mechanical & electrical cardiac activity Usually terminal event/Grim prognosis Confirm rhythm! Check patient! If nay probability that rhythm is fine VF shock should be attempted, otherwise not indicated PEA Organized electrical activity without effective cardiac contractions = no pulse! Poor prognosis Identification & treatment of reversible causes aides in restoring rhythm Resuscitation is rare if reversible cause is not found Open Cardiac Massage Indications: Cardiac arrest associated with penetrating thoracic trauma, arrest during thoracic surgery or when chest wall deformity or recent sternotomy precludes effective closed massage Pericarditis Cause Infections Uremia Neoplasm Radiation Rheumatic Fever Post-MI Post-Pericardiotomy Clinical Manifestations Occurs approximately 4 weeks post-op Pain Friction rub Dyspnea Fever EKG changes Leukocytosis Pericardial Effusion Generally rapid accumulation of excess fluid within the pericardial space May arise from acute pericarditis Large effusions may compress adjoining structures & cause tamponade if left untreated Tamponade Compression of heart which decreases overall cardiac function dramatically Clinical Signs Decreased CO patients who initially had adequate ventricular performance Increased bleeding in early post-op period with sudden decrease in drainage & hemodynamic worsening May occur in patients with initial bleeding whose coagulation profile was corrected leading to formation of pericardial clot Symptoms Rapid increase in R&L atrial pressure which tends to equalize Muffled heart sounds Increased jugular venous pressure (distended neck veins) Widening of mediastinum by CXR EKG changes Pulsus paradoxus (late effusion) Vague symptoms: LE edema, hepatomegaly, pleural effusion (late) Treatment Surgery-re-exploration via median sternotomy Sub-xiphoid incision Small right anterior thoracic incision (late tamponade) Echocardiographic guided puncture Pneumothorax Pneumothorax Complete or partial collapse of a lung resulting from accumulation of air in the space between chest wall & lung (intrapleural space) May be classified as either “open” or “closed” Diagnosis Clinical Presentation -Diagnostics: Dyspenea -Clinical presentation & history Pain -Chest x-ray Decreased air movement on affected side (decreased breath sounds) Tension Pnuemothorax Collection of air between chest wall & lung with no escape of air during expiration. This causes a rapid increase of air within pleural cavity, causing shifting of intrathoracic organs & increased intrathoracic pressure Symptoms Air hunger Violent agitation Cyanosis Tracheal deviation Subcutaneous emphysema Treatment of Tension Pneumo Rapid Assessment! CT insertion Insertion of large-b ore needle to relieve intro-thoracic pressure Treatment of hypoxia What happens in tension pneumothorax? Infection Mediastinitis Infection of mediastinum resulting from inadequate healing after median sternotomy, potentially involving all structures of the mediastinum & chest wall Treatment of Mediastinitis Appropriate antibiotic coverage Complete sternal resection Use of closed irrigation/drainage system Wound closure with muscle flap Clinical Manifestations Sternal dehiscene Purulent drainage Pain associated with chest motion Fever Leukocytosis + Wound cultures Pathogenesis All patients undergoing cardiac surgery especially when CPB is used are potential candidates for infection because of depressed inflammatory response & large exposure of blood elements to foreign materials which increases chances of contamination Common Pathogens Staph aureus Staph epidermis Gram negative bacteria Fungi Mixed flora Risk Factors Diabetes COPD Bilateral mammary Smoking Prolonged ventilation Obesity Age >70 Use of bone wax Chronic renal failure Long operative time Excessive use of cautery Prevention Handwashing by staff Antiseptic pre-op soap showers by patient Careful trimming of skin hair just prior to surgery Aggressive treatment of elevated glucose in diabetic patients Maintenance of sterility during all invasive procedures Use of minimal amount of bone wax Judicious use of cautery Prophylactic antibiotics Avoid Bilateral IMA in patients with Diabetes COPD Immunosupperssion Morbid obesity Use of bone wax Indiscriminate use of cautery Cross contamination