PATIENT PREPARATION CHAPTER 2 Part 2 PATIENT PREPARATION

PATIENT PREPARATION CHAPTER 2 Part 2

PATIENT PREPARATION �IV CATHETERS: catheters are ideal for all anesthetic procedures �Can treat/prevent _______, _________, ____________ �Allows injection of medications such as antibiotics and analgesics and allows constant-rate-infusions �Provides access to a vein in an emergency (cardiac arrest, seizures ). Do not remove until animal is fully awake! �Allows ________ agents to be injected (ex: thiopental) �Allows injection of _________drugs

PATIENT PREPARATION �IV CATHETERS: Choose catheter size based on patient’s size and need �Risks with catheter placement: �_______- always remove air from IV line before connecting to patient �________- don’t repeatedly advance and retract the stylet �_________________- avoid by using infusion pump or calculate drips/sec �___________- wipe area of catheter placement with an antiseptic and injection ports with alcohol �______________ – Just because the catheter is there, doesn’t mean all drugs should be given

PATIENT PREPARATION �IV FLUIDS: the patient’s infusion rate will depend on body weight and procedure �Fluids during surgery/anesthesia: � _________m. L/kg/hr �intended to compensate for vasodilation and fluid loss during anesthesia/surgery �Isotonic, polyionic replacement crystalloids are the first choice for fluid therapy in healthy patients.

PATIENT PREPARATION �IV FLUIDS: fluid rates can be adjusted for those patients that are compromised �CV disease �Respiratory disease �Fluid rates for these patients are often kept at 5 ml/kg/hr �An animal with excessive hemorrhage or low blood pressure during surgery can have fluid rates increased �Dogs: up to 40 m. L/kg/hr for max of 1 hour �Cats: up to 20 ml/kg/hr for max of 1 hour �A quick way to estimate amount of fluids to give: *Give ______m. L of fluid for every ______m. L of blood loss

PATIENT PREPARATION �ANIMALS IN SHOCK: these patients need even more rapid fluid rates �Dogs: _____m. L/kg/hr �Cats: ______m. L/kg/hr �______of the calculated dose is given and then patient re -evaluated (a 10 -20 m. L/kg bolus) �Animals in shock may show the following signs: �Pale mucous membranes �Low blood pressure �___________ heart rate in compensatory & decompensatory shock or slow heart rate in end stage shock

PATIENT PREPARATION �IV FLUIDS: drip sets (administration sets) help determine how fast the fluids are administered �Patients greater than 10 kg use a _______ set �Macrodrip sets are either 10 gtt/m. L or 15 gtt/m. L � VTI has 15 gtt/m. L sets �Patients less than 10 kg use a ________ set �Microdrip sets are 60 gtt/m. L

PATIENT PREPARATION �IV FLUID ADMINISTRATION SETS MACRO MICRO

PATIENT PREPARATION �IV FLUID ADMINISTRATION: most clinics have an IV fluid pump. The pump controls how many drops of fluid are delivered to the patient over a period of time. �If no pump is available, the anesthetist will need to calculate how many drops of fluid should be administered to the patient in a period of time as well as monitor the fluids closely.

PATIENT PREPARATION MATH �Step 1: Obtain the patient’s weight in kgs. �If the patient’s weight was obtained in pounds, then you must divide by 2. 2 �Step 2: REMEMBER THE SURGICAL FLUID RATE: 10 m. L/kg/hr. Multiply the patient’s weight in kgs by 10. This will give you how many m. Ls the patient should receive in 1 hour known as the infusion rate. �Step 3: Determine the drip set necessary for the patient based on weight. �Step 4: Multiply the patient’s infusion rate by the drip set. �Step 5: Divide the number from Step 4 by 3600 (because there are 3600 seconds in 1 hour). THIS FINAL ANSWER WILL TELL YOU HOW MANY DROPS OF FLUID EACH SECOND THE PATIENT WILL RECEIVE EACH HOUR WHILE UNDER ANESTHESIA.

PATIENT PREPARATION �Patient weighs 6 kg. �Surgical fluid rate is 10 m. L/kg/hr: 6 x 10 = 60 m. L/hr �Patient needs microdrip set: 60 x 60 = 3600 � 3600/3600 = 1 drop/sec �Patient weighs 12 kg. �Surgical fluid rate is 10 m. L/kg/hr: 10 x 12 = 120 m. L/hr �Patient needs a macrodrip set: 120 x 15 = 1800 � 1800/3600 = 0. 5 drops/sec � 0. 5 drops/sec is impossible to count, but if we multiply by 10 it will tell us how many drops to administer in 10 seconds � 0. 5 x 10 = 5 drops/10 sec

PATIENT PREPARATION: Fluid Administration • Body fluids consist of water and solutes. • Water is 60% of body weight. • It is divided into _______and ______ (fluid in the vessels and fluid between the cells) • The other 40% is solutes • Blood volume is ______of body weight in dogs & large animals and ______ -in cats

PATIENT PREPARATION � FLUID ADMINISTRATION �Body fluid solutes: � � � ions large plasma proteins or colloids, small nonionic particles such as glucose and small proteins �Electrolytes: � � Cations + � Sodium (Na ) + � Potassium (K ) 2+ � Magnesium (Mg ) 2+ � Calcium (Ca ) Anions � Chloride (Cl−) � Bicarbonate (HCO 3−) � Phosphates (HPO 42− and H 2 PO 4−) � Proteins

PATIENT PREPARATION �__________ is the solute concentration maintained in all body fluids. It is 300 m. Osm/L �PRINCIPLES OF WATER AND SOLUTE BALANCE: �One-third of IV fluids administered will stay in the intravascular space. Two-thirds will diffuse into the interstitial space. �Colloids don’t pass freely through the vascular endothelium. �The presence of colloids in the intravascular space draws water into the space creating osmotic or oncotic pressure. �Some solute concentrations (Ca 2+, K+) must be kept within a narrow range to maintain normal heart and muscle function.

PATIENT PREPARATION �FLUID ADMINISTRATION FOR ANESTHETIZED PATIENTS �Anesthetic agents affect cardiopulmonary function by decreasing inotropy and heart rate. Many agents also cause vasodilation. This results in an overall decrease in cardiac output and hypotension. � This affects oxygen delivery to the tissues � IV fluids increase circulating blood volume and cardiac output

PATIENT PREPARATION �REVIEW OF IV FLUID TYPES: Crystalloids vs. Colloids �CRYSTALLOIDS: the most common fluid type. Used for fluid replacement and maintenance. The 3 general categories of crystalloids are: �___________(isotonic, polyionic, replacement solutions) �______solutions �___________solutions

PATIENT PREPARATION �CRYSTALLOIDS: BALANCED ELECTROLYTE SOLUTIONS �Contain a solute profile similar to the extracellular fluid since dehydration , general diseases, and perioperative hemorrhage deplete the ECF first. � This means higher concentrations of Na+ and Cl� Examples: Plasmalyte, Normosol, Lactated Ringer’s

PATIENT PREPARATION �CRYSTALLOIDS: SALINE SOLUTIONS �Contain ONLY Na+ and Cl�Examples: Normal Saline & hypertonic Saline �NORMAL SALINE(0. 9%): used to flush body cavities, flush catheters, blood transfusions �HYPERTONIC SALINE(3%, 5%, 7%): very concentrated and quickly draws water into the intravascular space and supports blood pressure, but rapidly diffuses out into the interstitial space. Used for profound hemorrhage, shock, increased intracranial pressure

PATIENT PREPARATION �CRYSTALLOIDS: DEXTROSE SOLUTIONS (2. 5%, 5%) �Used in cases of hypoglycemia, neonatal, debilitated animals, hyperkalemia, patients receiving insulin �Don’t use as the sole fluid. The sugar is rapidly metabolized to CO 2 and water. The free water diffuses out into the interstitial space.

PATIENT PREPARATION �COLLOIDS: large molecules that do not readily leave the intravascular space �These are helpful in maintaining blood volume and pressure �Less side effects than hypertonic saline �Rapidly pulls water into the intravascular space �Examples: _____ or __________, _________________

PATIENT PREPARATION �COLLOIDS: PLASMA OR BLOOD �Contains albumin, clotting factors, globulins �Used in animals with acute blood loss, anemia, hypoproteinemia �Expensive �COLLOIDS: BLOOD SUBSTITUTES �Used for acute hemorrhage and anemias �Oxyglobin contains hemoglobin molecules of bovine origin similar to red blood cells that are able to carry oxygen. �The benefit is that there is no cross-match required �THIS PRODUCT IS NOT CURRENTLY AVAILABLE

PATIENT PREPARATION �COLLOIDS: SYNTHETIC COLLOIDS (*Hetastarch, *Vetstarch, Dextran) �More readily available than blood products �Less expensive and longer shelf life than blood products �Used in cases of shock, hypoproteinemia �Usually administered IV at rate of 10 -20 m. L/kg/day; bolused slowly over 15 -60 minutes � 30%-60% remains in the plasma after 24 hours, and a smaller percentage remains in the plasma for as long as days to weeks after administration.

PATIENT PREPARATION �ADVERSE EFFECTS OF FLUID ADMINISTRATION �__________– more likely in patients that are <5 kg or those with cardiac or renal disease *reduce infusion rates Ocular/nasal discharge � Chemosis � Subcutaneous edema � Increased lung sounds � Increased respiratory rate � Dyspnea � Coughing, restlessness � �___________ – dilution of the RBC’s and plasma proteins.