Iv admixtures PPT


 An IV admixture is the preparation of a pharmaceutical
mixture of two or more drugs into a large bag or bottle of
IV fluid.
 This is always done under the direction of a doctor,
controlled/performed by a trained pharmacists.
 This is to be sure that no one is accidentally overdosed, or
given the wrong medications.
I/V admixtures


 Parenteral route ‘’para’’ & ‘’enteron’’ means outside
the intestine & are following.
 I/V
 I/M
 S/C
 Intrathecal
 Oral, sublingual,
 Inhalation route
Major routes of Drug
administration


 Have many advantages as well as disadvantages.
 Advantages?
 Disadvantages?
 In iv admixtures or in the form of iv infusions it is a
suitable method to administer large volume of
infusion, total parenteral nutrition, of drug in the
form of iv admixtures.
IV route


Learning Objectives
Describe the characteristics of intravenous
solutions/admixtures including solubility, osmolality,
and pH.
Identify common vehicles for intravenous solutions.
Describe the equipment and procedures used in
preparing parenterals.
Identify the components of an intravenous
administration set/ drip.
Calculate the molecular weight and milliequivalents of
certain substances used in the pharmacy.
Calculate intravenous rates and administration.


Intravenous Preparations
The IV route of administration is used
 to reach appropriate drug serum levels
 to guarantee compliance
 for drugs with unreliable gastrointestinal (GI) absorption
 for the patient who can have nothing by mouth
 for the patient who is unconscious or uncooperative, and
for rapid correction of fluid or electrolytes
Most parenterals are introduced directly into the
bloodstream
 must be free of air bubbles or particulate matter
 have many characteristics including solubility, osmolality,
and pH


Characteristics of IV Preparations
Intravenous (IV) preparations are either:
 solutions (in which ingredients are dissolved)
 suspensions (in which ingredients are suspended)
Most parenteral preparations are made of
ingredients in a sterile water medium
Some parenteral preparations may be
oleaginous (oily)


Parenteral IV preparations must have chemical
properties that will not
 damage vessels or blood cells
 alter the chemical properties of the blood serum
With blood, IVs must be
 iso-osmotic (having the same number of particles in
solution per unit volume)
 isotonic (have the same osmotic pressure, meaning the
pressure produced by or associated with osmosis)


The osmolality is the amount of particulate per
unit volume of a liquid preparation
 measured in milliosmoles (mOsm)
 osmolality of blood serum = 285 mOsm/L
An isotonic solution is a solution in which body
cells can be bathed without a net flow of water
across a semipermeable membrane
 0.9% normal saline (NS)


 Pharmacists sometimes must adjust tonicity of parenteral
preparations to ensure they are near isotonic.
 A hypertonic solution has a greater number of particles
than the blood cells themselves
 50% dextrose or 3% sodium chloride
 A solution of less than normal tonicity is hypotonic,
which has fewer numbers of particles than blood cells
 0.45% NS


The pH value is the degree of acidity or
alkalinity of a solution
 acidic solution: pH of less than 7
 alkaline solution: pH value more than 7
Human blood plasma has a pH of 7.4
 slightly alkaline
 parenteral IV solutions should have a pH that is
neutral (near 7)


Methods of Injection
The bolus, or injection, is one of the most
common routes of IV administration
The injection is performed using a syringe
 prepackaged in the form of filled, disposable plastic
syringes
 injectable drug must be taken up into the syringe from
a single- or multi-dose glass or plastic vial, or from a
glass ampule
Sometimes the solid drug in the vial has to be
reconstituted by addition of a liquid before use

Methods of Injection
IV infusions deliver:
 large amounts of liquid into the bloodstream over
prolonged periods of time
IV infusion is used to deliver:
– blood – electrolytes
– water – drugs
– other fluids – nutrients

Characteristics of parenteral preparations that are
important to adjust:
 Tonicity,
 Osmolality,
 pH are characteristics of parenteral preparations.
 It is important that they be adjusted to be as close as
possible to the values for human blood, to prevent
damage to blood cells and organs.


 DS
 NS
 RL
 SW
 Zn
 NaCl
 KCl
 Vit.
Some commonly used abbreviations


Syringes and Needles
Syringes are used for IV push and in the
preparation of infusions, are made of glass or plastic
Glass syringes are more expensive
 use limited to medications that are absorbed by plastic
Plastic syringes
 are less expensive
 are disposable
 Manufactured as sterile


IV Sets
An IV administration set is a sterile, Pyrogen-
free disposable device used to deliver IV fluids
to patients
The set may
 be sterilized before use by means of radiation or
ethylene oxide.
 Come in sterile packaging and a sealed plastic wrap
Sets do not carry expiration dates


IV Sets
IV sets are sterile and no pyrogenic
Each unit is supplied in packaging that ensures
the maintenance of sterility
Flanges and other rigid parts of an IV set are
molded from tough plastic
Most of the length of the tubing is molded from
a pliable polyvinyl chloride (PVC)
PVC sets should not be used for
 nitroglycerin, which is absorbed by the tubing
 IV fat emulsions, which may leach out of the tubing

A damaged package cannot ensure
sterility. It is best to discard sets that
are found in unoriginal, opened, or
damaged packages.
NOTE:
Do not use PVC IV sets for
nitroglycerin or fat emulsions. Special
types of plastic sets are required for
such infusions.


IV Sets
The length of sets varies from 6-inch extensions
up to 110- to 120-inch sets used in surgery
 the priming (use) of tubing depends on the length of
the set
Standard sets have a lumen diameter of 0.28 cm
 varying the size of the lumen diameter achieves
different flow rates
 regulation of flow rates is critical in neonates and
infants

IV Sets
A spike to pierce the rubber
stopper or port on the IV
container
A drip chamber for trapping air
and adjusting flow rate
A control clamp for adjusting
flow rate or shutting down the
flow
Flexible tubing to convey the
fluid

IV Sets
A needle adapter for
attaching a needle or a
catheter
A catheter, or tube,
may be implanted into
the patient and fixed
with tape to avoid
having to repuncture
the patient each time
an infusion is given


IV Sets
The spike is a rigid, sharpened plastic piece used
proximal to the IV fluid container
 covered with a protective unit to maintain sterility
 generally has a rigid area to grip while it is inserted
into the IV container
If an air vent is present on a set, it is located
below the spike
 the air vent points downward and has a bacterial filter
covering
 the vent allows air to enter the bottle as fluid flows out
of it
 necessary for glass bottles without an air tube


IV Sets
The drip chamber is a transparent, hollow
chamber located below the set’s spike
 drops of fluid fall into the chamber from an opening
at the uppermost end, closest to the spike
 number of drops it takes to make 1 mL identifies an
IV set


Preparing IVs
Pharmacists and technicians prepare drugs
and IV solutions in a form ready to be
administered to a patient
IV push (i.e., bolus) and IV infusion dose forms
should be prepared in laminar airflow hoods
using aseptic techniques
 products used during the preparation must always
be sterile and handled in such a manner as to
prevent contamination

 Preparation should always be done under the
supervision of a licensed pharmacist medication that is
prepared by the technician must be reviewed and approved by
the pharmacist.
 Begin any IV preparation by washing your hands thoroughly
using a germicidal agent such as chlorhexidine gluconate or
povidone-iodine.
 All jewelry should be removed from the hands and wrists before
scrubbing and while making a sterile product
 Wear gloves during procedures
 Laminar airflow hoods are normally kept running
 Eating, drinking, talking, or coughing is prohibited in the
laminar airflow hood
 Working in the laminar flow hood should be free from
interruptions


IV Preparation Guidelines
Before making the product, thoroughly clean all
interior working surfaces
Gather all the necessary materials for the
operation and make sure they are:
 not expired
 free from particulate matter such as dust
 check for leaks by squeezing plastic solution containers
Only essential objects and materials necessary for
product preparation should be placed in the
airflow hood


Work in the center of the work area within the
laminar airflow hood
 at least six inches inside the edge of the hood
 make sure nothing obstructs the flow of air from the
high-efficiency particulate air (HEPA) filter over the
preparation area
 nothing should pass behind a sterile object and the
HEPA filter in a horizontal airflow hood or above a
sterile object in a vertical airflow hood


Follow proper procedure for handling sterile
devices and medication containers
Remember that the plunger and tip of the
syringe are sterile and must not be touched
For greatest accuracy, use the smallest syringe
that can hold the desired amount of solution
 syringe should not be larger than twice the volume
to be measured
 syringe is considered accurate to half the smallest
measurement mark on its barrel


The volume of solution drawn into a syringe is
measured at the point of contact between the rubber
piston and the side of the syringe barrel
Additives are commonly added to IV solutions
 medications, electrolytes, vitamins and/or minerals
Additives may be packaged in vials or ampules
Proper technique in using vials and ampules is an
important skill for the pharmacy technician to learn


Vials
Powders are reconstituted by introducing a
diluent (e.g., sterile water for injection)
Vials are closed systems
 the amount of air introduced should be equal to
the volume of fluid removed
 an exception to this guideline is the withdrawal of
cytotoxic drugs from vials


Vials
1. Choose the smallest gauge needle appropriate for
the task, and avoid coring the rubber top of the vial
and thus introducing particulate into the liquid
within it
2. Attach the needle to the syringe.
3. Draw into the syringe an amount of air equal to the
amount of drug to be drawn from the vial.
Use a Syringe to Draw Liquid from a Vial

Vials
4. Swab or spray the top of the
vial with alcohol before
entering the laminar flow
hood; allow the alcohol to dry.
Puncture the rubber top of the
vial with the needle bevel up.
Then bring the syringe and
needle straight up, penetrate
the stopper, and depress the
plunger of the syringe,
emptying the air into the vial.

Vials
5. Invert the vial with the attached syringe.
6. Draw up from the vial the amount of
liquid required.
7. Withdraw the needle from the vial. In
the case of a multidose vial, the rubber
cap will close, sealing the contents of the
vial.
8. Remove and properly dispose of the
needle, and cap the syringe. A new
needle will be attached at the time of
injection into a patient.


Ampules
An ampule is a single-dose-only drug
container
The glass ampule offers another challenge
because one must first break the top off the
ampule before withdrawing the medication

Ampules
1. Gently tap the top of the ampule to bring
the medication to the lower portion of the
ampule.
Opening an Ampule

2. Clean the neck with an alcohol swab; then
grasp the ampule between the thumb and
index finger at the neck with the swab still in
place.
Ampules
Opening an Ampule

3. Forcefully snap the neck away from you.
Ampules
Opening an Ampule


Ampules
To withdraw from an ampule, tilt the ampule,
place the needle bevel of a filter needle or tip of a
filter straw in the corner near the opening, and
withdraw the medication
Use a needle equipped with a filter for filtering
out any tiny glass particles, fibers, or paint chips
that may have fallen into the ampule


Ampules
Before injecting the contents of a syringe into an IV,
the needle must be changed to avoid introducing
glass or particles into the admixture
A standard needle could be used to withdraw the
drug from the ampule; it is then replaced with a
filter device before the drug is pushed out of the
syringe
Filter needles are for one directional use only


IV Solutions
The vehicles most commonly used for IV
infusions are:
 dextrose in water
 NS solution
 dextrose in saline solution
The two main types of IV solutions are:
 small-volume parenterals (SVPs) of 50 or 100 mL
 large-volume parenterals (LVPs) of more than 100
mL


IV Solutions
SVPs are typically used for delivering
medications at a controlled infusion rate
Large-volume parenterals (LVPs) are used
 to replenish fluids
 to provide electrolytes (i.e., essential minerals)
 to provide nutrients such as vitamins and glucose
 LVPs are commonly available in 250 mL, 500 mL, and
1000 mL sizes

Different Types of IV Containers


IV Solutions
A LVP usually contains one or more
electrolytes
 potassium chloride is the most common additive
 other salts of potassium, magnesium, or sodium
can be added
Additives to IV solutions can also be
multivitamins or trace elements


Preparing a Label for an IV Admixture
Labels for IV admixtures should bear the following
information:
 patient’s name and identification number
 room number
 fluid and amount
 drug name and strength (if appropriate)
 infusion period
 flow rate (e.g., 100 mL/hr or infuse over 30 min)
 expiration date and time
 additional information as required by the institution or by
state or federal guidelines

Examples of Pharmacy-prepared
Labels
for a minibag
for a large-volume parenteral (LVP)


 . The work area is continuously bathed with positive
pressure ISO 5/Class 100 vertical laminar flow air
that has passed through a High Efficiency Particulate
Air (HEPA) filter. This filter removes organisms and
particulates 0.3 micron in size with an efficiency of
99.99%. The laminar flow principle consists of
moving individual streams of unidirectional, ultra-
clean air along parallel lines with minimal
turbulence. The HEPA filter is positioned in the top
of the work area and is protected by a removable,
perforated metal diffuser.
LFH

Iv admixtures PPT

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