Angiographic procedure By Dr/ Dina Metwaly
Digital Subtraction Angiography DSA: The acquisition of digital fluoroscopic images combined with injection of contrast material and real-time subtraction of pre- and post contrast images to perform angiography. The image is taken from the image intensification system rather than the film system and allows for instant video replay of a continuously subtracted image (real time). DSA was extremely helpful when used in conjunction with regular arteriography, as a screening tool, and to improve the quality of manually subtracted films. It allows for the use of lower doses of contrast and smaller catheters.
Its resolution is not as fine as film, but for most screening purposes it is adequate. Its other main advantage is that because it subtracts electronically, it is more accurate than manual techniques. The storage of images allows for post-processing manipulation to compensate for movement or poor exposure techniques. Its most frequent use is in the study of: Carotid stenosis (as a screening tool) As a guide during interventional procedures As a follow-up study after angioplasty or vascular surgery As an adjunct to arteriography, enabling the use of less contrast and smaller catheters (3 French)
DSA Equipment Digital subtraction angiography requires more complex equipment than digital radiography. Generator and tube: The same nature of the angiographic tube and generator, without further modifications. Image intensifier: The digital image is taken from the television image produced during fluoroscopy. There must also be a high contrast ratio so that small variations in beam attenuation can be registered and used in the subtraction process. TV camera: A camera focuses on the image intensification image and scans it electronically. The amount and quality of light reaching the TV camera are carefully controlled by a light diaphragm.
Image storage and processor: This is the section of the computer that takes the acquired images, manipulates the subtraction, and then recreates an analog video image for visualization on a screen. Image digitizer: This turns the analog TV image into a digital image consisting of pixels, the number of which depends on the lines per inch of the TV image. The usual pixel numbers in an image are 512 x 512 or 1024 x 1024 (high resolution) Postprocessing image manipulation: This is performed using the computer and images stored within it and is performed after completion of an examination to create the best image possible. Multiformat camera: A hard copy of the resultant analog image can be produced using this image processor.
Before the Procedure After patient is properly identified, the procedure must be explained before consent can be signed. Before the procedure, the patient is admitted to the hospital for careful observation. This may be as an inpatient or as a day patient, depending on the severity of the patient's condition and the procedure to be done. Vital signs and peripheral pulses should be taken to serve as a baseline for post-angiographic care. Blood tests must be done including BUN, creatnine, PTT, INR, insulin/sugar levels Anticoagulant therapy should be assessed and careful note made of prothrombin time to ensure that it is within normal limits. Administration of these drugs should be withheld for 4 hours before the procedure and resumed after 24 hours postprocedure. Patient should fast for 4 to 8 hours before the procedure. Fluid intake is recommended for patients with renal disease.
Patient Preparation After patient is put on table, the area being puncture must be free from hair The technologist working with the cardiologist must be scrubbed in following basic sterile surgical technique The patient is then draped from neck down with sterile drapes All equipment (radiation shields, image intensifier, equipment used to manipulate machine) must be prepped with sterile covers
Sterile equipment needed Procedure tray should include: sterile gowns and gloves for scrub tech and doctor sterile towels and drapes for procedure,equipment covers Gauze, scalpel, needles, scissors, hemostats syringes for heparin/saline flush, lidocaine, and blood draw labels with marking pen for any item filled with a solution basin for heparin/saline mixture, basin for waste fluids, small cup for lidocaine, skin prep solution ,high power manifold-connection tubing
Catheters, wires and sheaths
Medications Used Once the consent form has been signed any premedication prescribed can be administered. The usual medications include: Valium (diazepam)-muscle relaxant and sedative Atropine-to inhibit a vasovagal reaction Two 500mL bags of saline infused with 2,000 units (2cc) heparin each for flushing all tubing, catheters, sheaths Lidocaine (local anesthesia) for tissue numbing Visipaque contrast unless otherwise specified
Start Procedure When doctor and tech are scrubbed and all equipment and supplies are ready, the procedure may begin
Arterial Puncture Access is easiest from right side of patient . Puncture is generally done via the femoral artery Alternative sites include the radial and brachial arteries of the arm
Catheter introduction After puncture of femoral, radial or brachial artery (primarily on right side of patient), a catheter is advanced into the aorta and then the coronary arteries
Steps to Insert Catheter After numbing the groin area, the femoral artery is palpated and a needle is inserted in that direction When blood comes out of needle, the artery has been accessed A small, flexible guidewire is then inserted into the lumen of the needle The needle can then be removed but the wire must maintain position After removing the needle, a flexible plastic tube can be placed over the wire and introduced into the artery. This is called a one- way sheath (allows insertion of catheters and wires without blood escaping) The catheter is then inserted over the guidewire but through the sheet and advanced into placement via the inferior vena cava to the aorta
Catheter Placement Movement of catheter is monitored under fluoroscopy (x-ray movies) with the cardiologist manipulating its movements The fluoroscopic machine is manipulated by a qualified, scrubbed in, radiologic technologist When catheter is in place, wire can be removed and contrast administered
Fluoroscopic Views Catheter in place to view left coronary arteries Catheter in place to view right coronary arteries
Fluoroscopic Views Pigtail catheter in left ventricle to measure ventricular pressure Aortagram used to assess ascending and descending aorta
Fluoroscopic Views Right coronaary arteries shown with contrast Left coronary arteries shown with contrast
Complications Complications in Angiographic Procedures are due to: Contrast Media Intra-arterial complications are rarer than with an IV injection of contrast. Some specific reactions can occur. Hotness and pain at injection site are reduced by the low-osmolarity contrast agents. A chemotoxic affect can occur. Sodium or meglumine salts can affect the ECG. Sodium can produce neurotoxic effects. Acute renal failure is extremely rare but can occur if there has been significant dehydration, the recent administration of nephrotoxic drugs, and high doses of contrast medium.
Due to procedure Hematoma, Hemorrhage & Arterial thrombus, due to trauma to the artery wall; this can happen for several reasons: Large catheters , Frequent catheter changes Prolonged time in the arteries, Rough handling and maneuvering of the catheters Rough-surfaced catheters, specifically polyurethane Treatment: Heparinization of the saline, heparin-bonded catheters, and guidewires and repeated wiping of these during use, by gauze soaked in heparinized saline Infection at puncture site caused by nonsterile technique Other rare complications can include: Arteriovenous fistula formation Embolus production, atherosclerotic or air Artery dissection Catheter knotting and impaction Guidewire breakage
Finished Procedure The procedure is complete when the cardiologist has seen all the views and anatomy desired and all pressures recorded The catheter can be removed and manual pressure must be applied to entry site for 15 minutes
Post Procedure Instructions The patient must lie flat and supine for a minimum of two hours to ensure the artery does not reopen Vital signs taken, including peripheral pulses After two hours, the patient can be released to person driving the patient home Dressing must remain dry, no lifting over five pounds for three days Bed rest for 4 to 12 hours depending on the procedure No shower for 24 hours, No bathing or swimming for one to two weeks If severe pain, swelling or discoloration of limb occurs, doctor must be notified immediately Hydration encouraged Resumption of any drug therapy when assessed to be safe