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Open Chest Surgery Outline A & P of descending aorta Pathology Diagnosis Anesthesia Medications Patient preparation (positioning, prep, draping) Equipment, Instrumentation, Supplies Thoracotomy for descending thoracic aneurysm (groin incision for femoral bypass) Other Aortic Aneurysm Types (I, II, III) PTCA CPB Cell Salvage Anatomy & Physiology of the Thoracic Cavity Refer to Thoracic I Lecture Notes Pathology Lungs Carcinoma=a new growth or malignant tumor Lung cancer #1 cause of death r/t cancer Tumors Divided into 4 Groups: Small Cell Carcinoma or Oat Cell (malignant) Large Cell Carcinoma (malignant) Adenocarcinoma (malignant) of bronchi = primarily smokers of bronchioles = 50%smokers & 50%nonsmokers Squamous Cell Carcinoma (benign) formed from epithelial or squamous cells which line mucous membranes) 90% malignant lung cancers r/t smoking Pathology All tumor types with the exception of small cell (oat cell), have a good prognosis with medical and or surgical intervention Surgical Interventions include: Wedge/Tumor Resection with margins Lobectomy Pneumonectomy Medical Interventions include: Chemotherapy Radiation Initial Diagnosis Cytology of sputum sample Will determine the type of cells that are present in the respiratory system Will show presence of cancer cells but not where they actually came from in the lungs Most preliminary of all tests Chest X-ray must follow to narrow down location of tumor or mass Initial Diagnosis Chest X-ray may be found on routine exam (asymptomatic) may be ordered after presents with symptoms: Cough Bloody sputum (hemoptysis) Dyspnea Diagnosis Cell type determines the course of treatment Tumors are looked at in terms of “staging” Staging means,” how developed is the tumor”? Is it in the lymph nodes, has it metastasized to another area, or is it localized Staging is accomplished by sending a tissue sample to pathology and having it analyzed for type Tissue samples are obtained by biopsy Tissue samples can be of lymph nodes or lung tumor, done with a biopsy needle or actual wedge resections of the lung Biopsy can be done by bronchoscopy or mediastinoscopy Specimens Specimens must be handled appropriately Mishandling could damage a sample causing it to not be analyzable There are two types of tissue samples in the OR related to node or tissue: Fresh frozen Permanent Specimens Fresh Frozen Identifies type of tumor Determines margins Will entail waiting on path report Depending on path report may be done and close or have to reopen or proceed Sent when tumor has not been previously identified by mediastinoscopy, bronchoscopy, or needle biopsy Permanent Must ID the type of tumor before it can be stained to determine staging There are different stains required for different types of tumors Would send a wedge or lobe for permanent if the tumor type had already been Identified by a previous biopsy (from mediastinoscopy, bronchoscopy, or needle biopsy) Specimens Sometimes may hear “send this for Fresh” and the doctor will want cytology run Cytology identifies an infectious process: Fungal Bacterial AFB (acid fast bacillus) checks for TB Other Diagnostic Tests for Review CT scan or MRI Shows location of tumor so that if a thoracotomy is done, the surgeon knows where to operate to excise the lesion Preoperative Patient Preparation Chest X-ray, MRI, AND or CT Scans should be in the OR before the patient arrives. They May accompany the patient. They should be displayed in the x-ray box for the surgeon. Type & cross should be done in the event that the patient experiences extreme blood loss and needs blood replacement during surgery These procedures are risky (large vessels are present in the thorax & mediastinum, and could be accidentally injured Anesthesia CVP (anesthesia preference) Arterial line Epidural Blood available Medications NS Sterile Water Antibiotic in the Irrigant Local: Lidocaine Marcaine With or without Epi Bone Wax Surgicel Avitene Thrombin and Gelfoam Focal-Seal Other Fibrin Sealants: Bio-Glue Hema-Myst Thoracic Incisions Posterolateral Thoracotomy Anterolateral Thoracotomy Thoracoabdominal Incision Median Sternotomy Alternative: Transaxillary, supraclavicular, cervical mediastinotomy, anterior approach Thoracotomy Surgical incision into the thorax or chest wall: Two Types: Posterolateral Thoracotomy Anterolateral Thoracotomy Posterolateral Thoracotomy Lateral chest position for patient Maximum exposure to lung, esophagus, diaphragm, and descending aorta Anterior submammary fold about nipple level to scapular tip May be as high as spine of scapula For pulmonary resections (lobectomy, pneumonectomy, wedge resection), hiatal hernia repair, and thoracic esophagus Anterolateral Thoracotomy Supine position Support under affected side to shoulder 20 to 45° for posterior incision extension Hips may be rotated by buttock padding Submammary incision just below breast from anterior midline to mid or posterior axillary line Access at fourth intercostal space For pulmonary cyst or localized lesion resection or open lung biopsy Thoracoabdominal Incision Lateral position Incision from posterior axillary line to abdominal midline 7th or 8th intercostal space Exposure to upper abdomen, retroperitoneal area, and lower chest Repair of hiatal hernia, esophagectomy, espophagogastrectomy, retroperitoneal tumors, and thoracic aneurysm resection Factors Influencing Thoracic Incision Location Exposure Physiologic intrapleural pressure changes Chest movement Maintenance of chest wall integrity and diaphragm Lung and underlying pleura condition Minimizing invasiveness of procedure Patient Positioning Posterolateral Operative side up Beanbag (surgeon preference) under drawsheet Pillow under head Upper arm on padded mayo Lower arm on padded armboard Axillary roll (protect brachial plexus) Padding under bottom leg Pillows between legs (peroneal nerve) and feet Safety strap and tape across mid pelvic area Lower body Bair hugger sheet, cover with blanket Prep Towel drape over epidural catheter Base of neck to hips and side to side to bed Begin at incision site work around in circle, prepping axilla last Usually betadine soap followed by betadine paint Draping Towels x 4 or five Drying towels Ioban Universal sheet or laparotomy sheet Equipment ECU Suction x 2 (1 for surgery & 1 for beanbag) Bair Hugger Bronchoscopy Cart Stapler Cart Instrumentation CV or Major Tray Chest Tray Chest Retractor of Surgeon Choice (Finochettio, Tuffier, Burford) Extra long instrument tray Doctor specials Long medium and large clip appliers Chest Tray Instruments Bronchus clamps Duval Lung clamps Allison lung retractor (whisk) Davidson scapular retractor Doyan raspatories (pigtails) right & left Elevators (Cameron, Alexander, periostial, other) Box cutter, Bethune rib shears, Guillotine Bailey rib approximator Supplies Basic or Cardiovascular pack Minor or Major basin set Transverse Laparotomy or Universal drape pack Gowns, Gloves, Towels Chest tubes (various are surgeon preference) Clip cartridges Suture (prolene, silk, heavy fascia/muscle layer suture, vicryl, other nonabsorbable, skin suture) For chest tubes, cutting needles with heavy silk ties Magnetic pad/drape Bovie with extension Suction tubing, yankaur tip, cell saver (optional) Supplies Continued Kittners Raytex for sponge sticks Laparotomy sponges Long umbilical tapes Thoracotomy with Lobectomy or Pneumonectomy (Procedure) Incision made with #10 or #20 blade on #3 knife handle (made at 4th intercostal space for UL/5th or 6th for ML or LL) Cautery used to bovie bleeders and open the fascia and muscle layer Surgeon will used his hand to loosen fascia Surgeon assistant will hold a scapular retractor so surgeon can free up entire area May want forceps (debakeys) and cautery or metz to open muscle layer If removing a rib will use periosteal elevator such as a cameron or alexanders to scrape away fascia and cartilage from rib Will use doyan pigtail to completely free rib Will cut rib at either end to remove it with a guillotine or rib shear Thoracotomy with Lobectomy or Pneumonectomy (Procedure) Self-retaining retractor of choice is placed after rib removal If does not remove a rib will place self-retaining retractor of choice May use a burford (short or long blades or one of each) or tuffier or finochettio Once retractor is in, will change bovie tip to long extention tip and give the surgeon and his assistant long debakeys (may want extra long debakeys/have extra long instrument set available) Will begin dissection of lobe to be removed or entire lung Thoracotomy with Lobectomy or Pneumonectomy (Procedure) Will use right angle and 0 silk ties to tie off vein and arteriole branches, as well as long medium and large clips May also request silk or prolene suture on a 3-0 or 4-0 taper needle Will dissect with long metz alternating with the cautery, debakeys and a long kittner on a long kelly May request lung retractor (whisk or egg-beater) and or a sponge on a stick to the assistant for exposure Will request one or two lovelace lung clamps when ready to staple bronchi or lobe tissue Staplers used for Lobectomies and Pneumonectomies Linear staplers (old name GIA) Come in 55mm and 75mm May want bovine pericardial or synthetic peri-strips applied to stapler (used to reinforce suture line made by the stapler) Thoracotomy staplers (are U-shaped) Come in 35mm, 60mm, and 90mm staple line length 35mm and 60mm may be 3.5mm (blue) or 4.8mm (green) staple width and have reloads in those sizes White staple reloads are thicker than the blue or green 35mm also come in a vascular style (red) for bronchi Manufacturers recommend a new stapler be used after reloading three times (This is often not done for cost saving reasons) Thoracotomy with Lobectomy or Pneumonectomy (Procedure) Once a stapler is fired a 15 blade on a long #3 knife handle will be used to free the tissue from the staple line Several stapler applications may be needed Once the wedge, lobe or lung is removed the chest cavity will be irrigated with warm NS or Water using an asepto or cytal pitcher and suction Irrigant will be left in momentarily to determine air leaks in the suture line (there will be bubbling) Repair suture may be needed (silk or prolene) Hemostatic or synthetic sealant agents may be used Irrigation NS is used when there is no cancer Water is used if there is cancer present Water causes lyses of cancer cells, which can allow those cells to be suctioned out of thorax NS could lead to metastasis or spreading of the cancer cells to other areas if those cells that are present are not lysed and suctioned out These patients often will receive radiation or chemotherapy post-hospitalization Specimen If a lobe or wedge is removed, it will be sent for frozen with margins Clarify specimen type and what the specimen is with the surgeon NEVER pass off lung tissue or lymph nodes to go in formaldehyde (permanent specimen) unless CERTAIN that is what surgeon wants! Ask before you pass it off Waiting will be involved to determine if margins are clear If margins are not clear, you will go back and remove more lung tissue Thoracotomy with Lobectomy or Pneumonectomy (Procedure) Once the irrigant is suctioned out, chest tubes of the surgeon’s choice will be placed using a 10 blade on a #3 knife handle (incisions are made below the thoracotomy incision), cautery may be used, a tonsil or kelly will be used to pass the chest tube through the chest wall for placement in the thoracic cavity These will be sewn in using a large cutting eyed-needle with a #1 silk tie for each chest tube inserted These should be cut for approximately 5 inches of length, a Y connector inserted for two, and hooked up to the pleurevac Pleurevac should be filled with NS to appropriate level Chest tubes must be secured with tape or plastic tie bands Pleurevacs Pleurevacs (water seal drainage with suction) Pneumovac or pneumonectomy pleurevac (pressure control chambers/NO suction) Pneumonectomy pleurevacs are used only for pneumonectomies May not use any chest tubes with a pneumonectomy Regular pleurevacs are used for chest drainage for all other chest procedures Thoracotomy with Lobectomy or Pneumonectomy (Procedure) Pericostal closure of the thoracotomy incision will begin with one or two bailey rib approximators for rib reapproximation Heavy (#1) absorbable suture (vicryl, dexon, or PDS) on a CTX or TP-1 taper needle for intercostal muscle closure These are usually interrupted sutures (have mayo scissors ready to cut and hemostats) They are usually placed, needle cut, and tagged with a hemostat They are tied after they are all placed Thoracotomy with Lobectomy or Pneumonectomy (Procedure) Remaining muscle/fascia will be closed with a running #1 PDS or Vicryl on a CTX taper needle Subcutaneous tissue will be closed with a 2-0 or 0 Vicryl on a CT-1 or CTX tapered needle Subcuticular layer will be with 4-0 Vicryl or Monocryl on a PS-1 cutting needle Skin staples may be used in some institutions Dressing is drain sponges or 4x4s for the chest tubes, telfa, 4x4s, and Primapore Other dressing choices may be used Watch when patient is being moved to make certain that chest tubes are clear and not pulled out! Descending Thoracic Aneurysm Anatomy and Physiology of Thoracic Aorta Thoracic aorta extends to the diaphragm Thoracic aorta supplies chest wall, diaphragm, esophagus, bronchus, and the spinal cord Aneurysm Localized abnormal dilation of an artery resulting in pressure of the blood on the vessel wall that has been weakened Pathology of Aneurysms Develop at sites of arterial weakness Causes: 1. Atherosclerosis 1° cause 2. Congenital weakness Marfan’s syndrome Ehlers Danlos syndrome (both are hereditary disorders that affect the elastic connective tissues which lead to weakening or thinning of the aorta) 3. Acquired Trauma Aneurysms 1. 2. 3. Three types: True-arterial wall weakness aneurysmal sac involves one or all layers of the arterial wall False-results from trauma, causes leakage into a layer of the arterial wall creating a blood clot or hematoma Dissecting-as intima of artery tears, blood escapes which can lead to hemorrhage and sudden death Thoracic Aneurysm Origin point at or below the left subclavian artery Depending on extensiveness of aneurysm, can be operative or inoperable Most frequent complication is paralysis Diagnosis Majority are Asymptomatic until they become enlarged Discovered on routine chest x-rays Routine physicals when an abdominal bruit is auscultated or a pulsatile mass is palpable Symptoms include neck, chest, lower back, abdominal, or flank pain that extends to the groin Depending on aneurysm involvement can cause symptoms associated with structures supplied with blood at that section of the aorta Diagnostics/Preoperative Testing Confirmed with: Ultrasound CT MRI Aortograms Anesthesia Arterial line Swan ganz catheter NG tube TEE to check placement of bypass cannuli (some places may use CArm) Epidural Catheter BLOOD available (may want in room) Medications NS irrigation with antibiotic of choice Topical hemostatic agents of choice Patient Preparation and Positioning Shave is anterior and posterior, including anterior thorax, abdomen, bilateral groins, to knees, and the back Prep is betadine soap (x 10 minutes if time permits) and betadine paint Position is Left Posterolateral or thoracoabdominal Posterior Lateral Position Headrest Axillary roll (prevent brachial plexus injury) Beanbag (on bed before patient) with suction) Padded armboard for lower arm Padded mayo for upper arm or airplane arm sling Padding under lower leg and pillows between knees and feet Will expose left groin by slightly frog legging left leg Draping Towel Drape over epidural catheter Towels for perimeter of surgical site Drying towels Ioban Drape Universal Drapes or CV Drape (will expose left groin) Equipment Bair hugger (lower body) Cell saver Bovie Extra suction Beanbag Defibrillator Bypass machine (partial bypass usually employed) Saline Warmer Cryothermia Unit (available) surgeon choice Instrumentation Chest tray Cardiovascular tray or Major Tray Aortic clamps (surgeon choice) Open Heart tray Long medium and large clip appliers Extra long instruments Tube holder, allis, or edna clamps to secure bypass tubing Chest Retractor of surgeon choice Internal Defibrillator Paddles (external available) BOTH STERILE Supplies Cautery Open heart specialty tray Major Basin Tray Magnetic Drape Miscellaneous prolene suture Miscellaneous silk ties Cutting free needles Straight Woven Dacron Grafts (Miscellaneous sizes) Femoral arterial and venous cannuli Tourniquet snares or rommels Vessel loops or umbilical tapes Warm NS with antibiotic of choice Heparinized saline Topical hemostatic agents Chest tubes Procedure Left groin exposure for atrial to femoral bypass by centrifugal pump for lower aortic vessel perfusion Scalpel Metz/cautery Weitlander Right angle Vessel loops or umbilical tapes Rommel or tourniquets (if using 18F robnel catheters will have cut short about three inches long during your set-up) Patient is heparinized Peripheral debakeys x 2 11 blade for arteriotomy, arterial cannula, tubing clamps (one for arterial cannula one will be on pump tubing) Care is taken to NOT introduce air to line, may fill with NS slowly Procedure Vascular clamp or tonsils x 2 may be used to grab femoral vein, 11 blade venous cannula, tubing clamps (same as arterial sequence) May secure cannuli with heavy silk sutures on cutting needles to patient’s skin Procedure Thoracotomy Incision made with #10 or #20 blade on #3 knife handle Cautery used to bovie bleeders and open the fascia and muscle layer Surgeon will used his hand to loosen fascia Surgeon assistant will hold a scapular retractor so surgeon can free up entire area May want forceps (debakeys) and cautery or metz to open muscle layer If removing a rib will use periosteal elevator such as a cameron or alexander to scrape away fascia and cartilage from rib Will use doyan pigtail to completely free rib Will cut rib at either end to remove it with a guillotine or rib shear Procedure Place chest retractor of surgeon choice Dissect to aorta May isolate with a long polyester tape or 1” penrose and clamp with a kelly Will measure aorta to determine graft size needed Obtain graft requested Surgeon may request more heparin be given Aorta is cross clamped with aortic clamps x 2 Aortic arteriotomy made with blade of choice on long knife handle Aneurysm tissue and clot are removed Procedure Graft will be sewn in with prolene suture (should have what surgeon uses ready to go (this is a surgery where time is of the essence, you will be MOVING) proximal end then distal end Clamps are removed, proximal first Suture will be tied down after removal of clamp to allow aorta to vent (avoids air being left in aorta) Surgeon may want his hands wet to tie Protamine is given and patient is taken off bypass when stabilized Have peripheral debakey clamps and tubing clamps ready, as well as prolene suture to close femoral artery and vein of surgeon choice Procedure Irrigation of wounds Femoral incision packed temporarily with antibiotic soaked raytex until closed Chest tube placement with anchor sutures Suction them out before connecting to Pleurevac Chest will be closed as per thoracotomy incisions (periostium, muscles, fascia, subcutaneous, subcuticular) Groin will be closed Dressings per surgeon choice Other Aortic Aneurysms Type I Type II Type III Discussion Coronary Angioplasty (PTCA) Discussion Cell Salvage by Cell Saver Cell Salvage Blood recovered during surgery and reinfused Is directly suctioned, filtered, anticoagulated, and reinfused with little RBC damage May be aspirated directly or via squeezed out sponges into a basin Contraindications for Cell Saver No hemostatics-may clot blood rendering it useless Certain antibiotics (ex. Bacitracin) may lyse cells, damaging them No exposure to gastric contents, amniotic fluid, or fluid potentially containing cancerous cells No local or systemic infection Cardiopulmonary Bypass Cardiopulmonary Bypass (CPB) Method used to divert blood from the heart and lungs to provide a stationary bloodless field and optimal organ tissue function during heart surgeries OPCAB (off pump coronary artery bypass) heart is beating and bleeding; visibility challenging; preferred for patient’s at risk of complications from CPB; must be to be ready to go on bypass if the patient cannot tolerate CABG procedure without having an arrested heart CPB Process Blood is removed from the right atrium via the inferior vena cava Can be accomplished using inferior vena cava cannulation alone or with both SVC and IVC cannulation called bi-caval cannulation Is routed to the CPB machine for oxygenation Blood is returned via the aortic cannula or femoral arterial cannula to provide oxygenated blood to the patient’s body CPB Machine Components Oxygenator-removes carbon dioxide and delivers oxygen Heat exchange coil-can heat or cool the blood Pump-moves the blood Filters-removes particulate, air, microemboli Sensors-detect air bubbles, low oxygen saturation, and low blood volume collection CPB Continued Heparin is given intravenously for anticoagulation Cannuli and CPB circuits may also be heparin-bonded CPB Perfusionist 1. 2. 3. Control many physiologic variables along with anesthesia and the surgeon: Hemodilution ↓ blood viscosity =↓clot HCT ↓ = ↓ clotting Hypothermia = ↓ cellular oxygen consumption/demand = ↓ chance of organ damage Core temperature is ↓ from 28 to 30° C Summary A & P of descending aorta Pathology Diagnosis Patient preparation (positioning, prep, draping) Equipment, Instrumentation, Supplies Thoracotomy for descending thoracic aneurysm (groin incision for femoral bypass) Summary Continued Other Aortic Aneurysm Types (I, II, III) PTCA CPB Cell Salvage