Class 42- IV admin.

Question 0

Crystalloids vs colloids

Answer 0

Aqueous solution; contains larger insoluble molecules

Question 1

Types of IV Access

Answer 1

• Peripheral
• Total Parenteral Nutrition
• Intermittent
• Central Venous Access

Question 2

Isotonic crystalloids

Answer 2

•0.9% NaCl (normal saline), (NS)
• Lactated Ringers (balanced electrolyte solution- contains Na+, K+, Ca++, Cl-, and lactate)
• D5W 5% dextrose in water
Same osmolarity as serum and body fluids
•Diffuse throughout the extracellular space
•Do not usually enter cells
•Example of distribution:
3000mL normal saline (NS) in 24 hours
2250mL into interstitial space
750mL into intravascular space
does not enter cells due to sodium/potassium pump

Question 3

Hypotonic crystalloids

Answer 3

•0.45% NaCl Half normal or Half strength saline
0.33% NaCl one third normal saline (1/3 NS)
Osmolarity lower than serum

• Do not give with low blood pressure, could worsen hypotension
• Should not be given to patients with brain injury, could cause cerebral edema
• Never give at fast rate

Question 4

Hypertonic crystalloids

Answer 4

Osmolarity higher than serum
•D5NS - 5% dextrose in water and normal saline or
D5½NS – 5% dextrose in water and ½ normal saline
D5LR – 5% dextrose in Lactated Ringers
•Increases serum osmolarity so fluid moves from intracellular and interstitial into intravascular

•Greatly expand intravascular compartment so monitor for circulatory overload

• Irritating to vein, give slowly
• Used after surgery to pull fluid from interstitial compartment back into blood vessels, not uncommon
• May be beneficial in some brain injuries
• A higher percentage of NaCl may be used to treat some types of hyponatremia
• D5NS
• D5½NS
• D5LR

All these provide some calories and hydrate cells

Question 5

Normal saline uses

Answer 5

Could be used to temporarily expand the vascular compartment in hypotension due to hypovolemia
Could be used to replace isotonic fluid loss: blood loss, gastrointestinal losses
Could cause Hypervolemia and hypernatremia

Question 6

Lactated Ringers

Answer 6

Contains several electrolytes in roughly the same concentration as plasma
Useful in replacing isotonic fluid loss
Often used for burns
Contains potassium, don’t give if renal impairment
Contains lactate, don’t give if liver impaired

Question 7

D5W

Answer 7

•D5W- contains H2O and dextrose

( Isotonic in the bag, hypotonic in the body )

Question 8

1/2 NS

Answer 8

•½ Normal Saline (½ NS) - 0.45%sodium chloride
Hypotonic solutions lower the serum osmolarity so fluid shifts out of blood vessels and enters the interstitial space and cells

Hydrate cells but can deplete circulatory system

Question 9

Colloids

Answer 9

• Contain protein or starch molecules that remain in vascular space
• Increase osmotic pressure and pull fluid into intravascular space
• Plasma Expanders (Albumin 5%, 25%)
• Albumin (protein)
• Dextran (starch)
• Plasma (formed part of the blood)Monitor for fluid overload

Question 10

Cannula

Answer 10

a tube which can be inserted into a cavity

Question 11

Central devices

Answer 11

•Central devices: Central Lines
nontunneled central venous catheter (subclavian or internal jugular), short term intervention ( less than 4 wks)

tunneled central venous catheter

implanted infusion port Portacath

PICC (peripherally inserted central venous catheter)

Question 12

Assessment findings in increased vascular volume:

Answer 12

increased blood pressure

bounding pulse

distended neck veins

slow-emptying peripheral veins

   weight gain
   congestive heart failure-
       jugular vein distension
       dyspnea
       increased respiratory rate
       crackles in lungs
       S3 gallop
   lab work- will indicate dilution
       decreased hematocrit
       decreased serum electrolytes
       decreased BUN

•Interventions:

decrease flow rate

assess patient

notify MD

Question 13

Infiltration

Answer 13

infiltration- inadvertent administration of a nonvesicant solution into surrounding tissues

•Assessment findings:
   swelling
   blanching
   coolness
   leaking
   feeling of tightness
   pain

•Interventions:

   discontinue IV
   cold compress for majority of solutions
   warm compress for vinca alkaloids
   Elevate the Extremity
Notify MD if needed for antidotes

Question 14

Phlebitis

Answer 14

•Irritation of the vein

•Causes:
   Long Term IV Sites – change by 72 hrs. best
   mechanical trauma
   chemical trauma        
   precursor of infection

•Assessment findings:
tenderness/pain

redness at site, red streak along vein

warmth

swelling

•Prevention-Changing IV sites at least every 72 hours has shown to reduce phlebitis incidents

–Avoid placing IV at a site where joint movement will cause the IV catheter to “piston”, or rub against the inside of the vein

–Use large vein if infusing hypotonic or hypertonic solution , or irritating medications

•Interventions

discontinue IV

warm, wet compress

sterile dressing

Question 15

Extravasation

Answer 15

vesicant- solution capable of causing tissue injury or destruction if it escapes into the surrounding tissue

extravasation- inadvertent administration of a vesicant solution into surrounding tissue
•Assessment findings:

local- tender, red, warm, swollen, drainage

systemic- fever
malaise
•Interventions:
stop infusion

notify MD

remove device, culture if ordered

meds if ordered

Question 16

Infection prevention

Answer 16

• Replace adult’s peripheral catheter every 72 – 96 hr
• Child’s peripheral catheter stays until IV therapy complete or complication occurs
• Central venous catheter replaced when purulent drainage is observed or if patient is unstable and infection is suspected
• When possible, avoid opening system by coordinating tubing changes with bag changes
• Change solution bag every 24 Hr
• Replace administration sets every 72 hrexceptions:
  blood tubing- 4hr
  TPN- 24 hr

Question 17

Air Embolism

Answer 17

• Caused by air entering vein
• More common with air dependent containers and central lines

•Assessment findings:
respiratory distress
weak pulse
decreased BP

•Interventions:

place patient in left side, head lower than heart to keep air in right atrium and out of pulmonary artery

notify MD
•Prevention:
purge air out of tubing before infusing

use unvented tubing instead of vented

use plastic bag instead of glass bottle

use infusion pump with air detecting capability
•Change bag before it is completely dry

use clamps when performing tubing changes ( when system is open)
Use of Luer locks to avoid line disconnection
Use of check valves to prevent entrainment of air after disconnection and use of air in line detector on pump
Tape loop of tubing at insertion site for strain relief
Place patient in Trendelenburg when inserting or changing catheter, Inspect all catheter hubs/connectors

Question 18

Insertion Site Assessment

Answer 18

assess insertion site every hour

vesicants- assess every 30 minutes

follow protocol of nursing unit

Question 19

CENTRAL VENOUS ACCESS DEVICES (CAVDs)

Answer 19

•“CENTRAL” Defined by the position of the tip of the catheter

•Tip In Superior Vena Cava (SVC),
3-4cm above the right atrium

•If Femoral Vein–Tip Inferior Vena Cava

Question 20

CVADs

Answer 20

Central Venous Access Devices
•Nontunneled central venous catheter
•Tunneled central venous catheter
•PICC: peripherally inserted central venous catheter
•Implanted infusion port

Question 21

NONTUNNELED CENTRAL VENOUS CATHETERS

Answer 21

•Short term- days to weeks

• Percutaneous insertion
• Subclavian Preferred
• Internal Jugular and Femoral
• Inserted at bedside or in surgery
• Inserted by physician
• Risks of insertion- pneumothorax, hemothorax, arterial puncture etc
• Port designations- follow institutions protocol

Question 22

PICC

Answer 22

• Short term- days to weeks
• Percutaneous insertion

•Veins in antecubital fossa usually used
( basilic, cephalic, median cubital)

• Catheter tip should be in SVC
• Can be inserted at bedside
• Can be inserted by specially trained RN
• Advantage- eliminates risks associated with neck or chest insertion

In the extremity with a PICC, avoid:

• Measuring blood pressure
• Performing venipuncture
• Administering injections

Question 23

Tunneled Catheters

Answer 23

•Long term, > 6months

•Tunneled Beneath the Skin
•Have a small cuff around which fibroblasts form and help secure the catheter in place.
This cuff is under the skin, not far from the insertion site.
*Inserted in surgery
•Broviac

• Hickman
• Hohn
• Groshong- describes tip which is closed but has a three way slit valve close to distal end, *eliminates the need for daily heparin flushes and catheter clamping before disconnection at the catheter hub

Question 24

Implanted ports

Answer 24

• Long term, >6 months
• Port consists of a metal reservoir with septum and catheter. No external segment.

• Incision made, usually near clavicle. Pocket formed to house the port.
Catheter is inserted into superior vena cava.

Question 25

To prevent infection

Answer 25

• Hand hygiene
• Maximal barrier precautions upon insertion
• Skin asepsis maintained per facility protocol.
• Optimal site selection- avoid femoral and jugular
• Daily review of line necessity, prompt removal
• If nontunneled Catheter inserted at beside, ensure that physician has on mask, cap, sterile gown, sterile gloves. Sterile drapes are used around the insertion site. Assistant should wear mask.
• Mask and sterile gloves during dressing changes

–Transparent dressing- change at least every 7 days ( in peds, risk of dislodging catheter may outweigh benefit)

• Gauze dressing- change at least every 48 hours
• Change either dressing when it becomes contaminated, damp, or nonadherent

Question 26

Valsalva

Answer 26

Valsalva: forced exhalation against closed airway
Instruct patient to take a deep breath, hold it with mouth closed, and bear down for 10 sec, then exhale and breath normally
*Used if central line is open to air.
Contraindicated in increased intracranial pressure, recent eye surgery, MI, bradycardia, or resp distress

Question 27

Flushing

Answer 27

•Flush according to institution policy

Flush with NS then heparin

Heparin flush solution 10units/ml (could see 100units/ml)

General rule: flush volume needs to be two times the internal fill volume of the catheter
Use protocol- 5ml NS then 2ml heparin flush solution
Flush with pulsatile push-pause technique
to remove residues and fibrin buildup.

Frequency:
Flush with NS- before meds, blood products, TPN (NS)
Flush with NS then heparin- whenever line is locked
after each blood draw (attempts)
following meds, blood products, or TPN and per agency’s frequency (every 12hr)
PSI Pounds per square inch. If too much pressure is used, can collapse the catheter or cause it to burst. Would not be a good situation.
Must use a 10ml or larger syringe. Do not have to use 10ml volume.
10ml syringe exerts 7 pounds per square inch (psi)
3ml syringe exerts >25psi
1ml syringe exerts >300psi

Catheter burst pressure is 25-40 psi

Question 28

Paraenteral nutrition used

Answer 28

•Patient is malnourished
•Patient at risk for developing malnutrition
•Patient unable to meet nutritional need via
the enteral route

Question 29

Partial para enteral nutrition

Answer 29

• Supplements oral intake. Not used for nutritionally depleted patients.
• Usually isotonic so may be given in a peripheral vein
• Lower dextrose concentration as compared to TPN

Question 30

TPN

Answer 30

• Non-functional GI tract
• Comatose

•Inability to consume adequate diet (Cancer patient receiving chemotherapy)
•High metabolic demand ( increase in need for calories and protein)
–Trauma
–Infection (Sepsis)
–Burns
–Surgery
–Fever

Question 31

TPN components

Answer 31

–Dextrose

–Amino acids Proteins

–Fat emulsion

These three provide calories

–Electrolytes
–Trace elements
–Minerals
–H2O        
–Possibly insulin, heparin, and famotidine (Pepcid)

Question 32

Preventions for complications with TPN

Answer 32

–Hyperglycemia- high blood glucose

Begin TPN at a slow rate (50ml/hr) and increase rate gradually

Use infusion pump

Check blood glucose every 6hr
•Line dedicated to TPN – not for other medications – unless added to TPN solution
• - Hyperglycemia – High blood glucose
–Hypoglycemia- low blood glucose

Discontinue TPN gradually over 24-48hr
If new TPN bag not available when needed, hang a D10 solution
–Fluid and electrolye imbalance

Use infusion pump

Monitor I&O and other fluid balance parameters

Monitor electrolytes
–Infection- sepsis
Refrigerate solution (remove from fridge 1hr prior to administration)
Solution and tubing change every 24hr
Aseptic technique- keep fluid path sterile
Use in-line filter
Use same catheter lumen for each TPN bag
VS every 4hr
•Monitor for “Cracking”

Occurs if calcium or phosphorous content is too high.

Appears as an oily or fatty layer on top of solution and should not be used.
•Monitor for effectiveness

•Pre-Albumin also known as
thyroxin-binding pre-albumin or transthyretin

• Has half-life of 2 days, so is a better than albumin as an indicator of recent changes in nutrition. (Albumin has a longer half-life)
• Transferrin , another useful test for malnutrition
• Monitor for effectiveness:
• Weight gain: Daily weight gain of up to 1KG/day
• A weight gain of more than 1Kg/day is probably from fluid volume.