Syringes and Needles have been a method of delivering medication has been a practice dating back to the 17th Century. One must use the correct syringe and needle combination and administer it to the appropriate body part. Other common uses of these devices are blood extraction, blood transfusion, and vaccination among other uses.
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1. Barrel - The cylindrical shaped piece where the medication or blood is gathered
2. Plunger - A closely fitted device that is push-in or pulled out of the barrel to insert or extract fluid.
3. Tip - This is where the needle hub is attached if the syringe is designed to accept needles.
Syringes are available in an array of sizes from 0.3 mL to 60 mL. While the larger volumes are used for adding medication into intravenous lines and wound irrigation purposes, the 1 mL to 3 mL is appropriate for injections administered to tissues under the skin, Subcutaneous injections, injections to the muscle, and Intramuscular injections.
Tough syringes are typically classified as either Luer-Lock or Non-Luer-Lock, there are many types of syringe tips within the Non-Luer-Lock category. Luer-Lock simply means the syringe can accept a needle, where the needle is twisted and locked into the syringe. The greatest benefit of this design is that it prevents the needle from slipping off the syringe. Below is a list of the different types of tips that are available on the market today:
Regular/Slip Tip: The connection here is secured by slipping or pushing the device against the syringe to sure the connection.
Lure-Lock Tip: This is a screw-type connection where a needle can be attached to the syringe.
Slip Tip: The connection here is secured by slipping or pushing the device against the syringe to sure the connection.
Eccentric Tip: Used for surface veins or artery injections where the tip is off-centered.
Catheter Tip: Designed to be used with tubing or for irrigation and has a longer, tapered slip tip.
Now that we have covered the standard syringes, let's look into the syringes that are designed for specific applications.
Ranging from 0.3 mL and 1 mL volumes, insulin syringes can be very small in size. Needles that are attached to the insulin syringes are not calibrated in milliliters rather their measuring scale is in units and are calibrated for use up to 100 units. As the name suggests these are typically used to administer subcutaneous insulin injections which in most cases are self-administered.
Generally used for tuberculosis testing, where the contents are injected into the skin of the patient. A major difference between insulin and tuberculin syringes is that the needles in tuberculin syringes are calibrated in milliliters. Typically, tuberculin syringes can hold up to 1 mL of fluid and have a thin barrel with a pre-affixed needle similar to insulin syringes.
For injection purposes, the key component of the syringe is a needle. Let's spend some time with these small pointy instrument that are usually not favored by most of us as we know if we've seen it we are about feel a 'slight pinch'.
For our purposes, a needle, in medical terms, is defined as "A slender, solid, usually sharp-pointed instrument used for puncturing tissues" as defined by MediLexicon. A needle that is used with syringes, unlike a sewing needle, is hollow with a hole in the middle so fluid can pass through the needle and inject into the intended subject. Stainless Steel is the material used to manufacture needles and needles have four components.
1. Hub: The end of the needle that is attached to the syringe.
2. Shaft: The thin long stem of the needle.
3. Bevel: The shape of the lumen
4. Lumen: The hollow bore at the sharp end of the needle.
The bevel is the part of the needle that punctures the skin and allows the shaft to enter. There are a few types of bevels available where a longer bevel tip is narrower and sharper, reducing the discomfort when the needle punctures the skin.
The main differentiation factor of a needle is its thickness which is measured in Gauge or 'G' and its length measured in inches. A typical range of needle length can be between 1/2" to 3" but insulin and tuberculin syringes may offer short lengths. The diameter of a needle gets smaller as the "gauge" of a needle increases. For example, a 21G needle is thinner than a 19G needle. Needle gauges can range from 7G to 33G while the standard range is between 18G to 27 G.
The thickness of a needle is not to be determined by a patient's comfort level but rather depends on the medication that is to be administered. The thicker the medication, the smaller the gauge must be to ensure the medication can easily pass through the needle into the subject. One must choose a shorter needle if administering a subcutaneous injection and a long needle will be optimal for intramuscular injection.
Vascular Access Needle Gauge Recommendations (by the UNC Eshelman School of Pharmacy)
Appropriate Use
Comments
16-18
IV infusion:
-In adults and adolescents
-Of viscous fluids and large volumes
-At rapid infusion rates
Large vessel required
Insertion may be painful
19-20
IV infusion:
-In adults, adolescents, and older children
-Of blood products and other viscous fluids
IM injection large large
Large vessel required
Insertion may be painful
21
IV injection or infusion
-In most ages
IM injection
22-23
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IV infusion
-In all ages including infants and elderly
-Of non-viscous fluids
-At slow to moderate infusion rates
IM injection
Suitable for small or fragile veins
Infusion control devices may be required
Insertion through tough skin may be the difficult
24-27
IV infusion
-In all ages including infants, toddlers, and elderly
-Of non-viscous fluids
-At slow to moderate infusion rates
Subcutaneous (SC) injection
Intradermal (ID) injection (25-26 gauge)
Especially useful for very small veins
Infusion control devices may be required
Insertion through touch skin may be difficult
Needle HUB:
ISO is an independent, non-governmental international organization with a membership of 162 national standards bodies. Among the issuance of standards in other industries, ISO also sets the stands for needle HUBs. ISO has issued a color scheme for needles that assists clinicians identify needle gauges simply by the color of the needle HUB. Below is the full-color scheme that all manufacturers with ISO certification use when manufacturing needle hubs.
Needle Length:
Another deciding factor when choosing the correct needle is the length which can range from 3/8" to 3-1/2" and just as the gauge is designed for different needs. A 3/8" to 3/4" needle is recommended for intradermal injection whereas needles between 7/8" to 1-1/2" are designed for intramuscular injections. 1/2" to 5/8" needles are made for subcutaneous injections and may be overlapped for use with intradermal injections as well.
Now that we have discussed, at length, the types and specifications of syringes and needles, let's take a moment to discuss needle angles at the time of administering. Below is a quick description of angles as they relate to different types of injections:
Intramuscular Injections are administered at a 90° angle and the following injection sites are recommended for this type of injection:
Subcutaneous injections are administered between 45° and 90° angles and the following injection sites are recommended for this type of injection:
Intradermal Injections are administered between 10° and 15° angles and the following injection sites are recommended for this type of injection:
As always our goal is to provide you with the necessary knowledge to make your medical supplies decisions rather than providing medical advice. It is ideal to contact a licensed medical professional for further details as specific conditions/needs require in-depth analysis best performed in person.
Syringes are an indispensable tool used daily in the medical, industrial, pharmaceutical, and veterinary industries. Their seemingly simplistic design belies the tremendous value and benefits that they offer.
Syringes have come a long way since their invention in the year . While the modern syringe still offers the same basic functionality of precisely administering liquids, advances in technology have given rise to specialized variants that are ideal for one or more specific applications.
Read on to learn more as we break down the various parts of a syringe and discover how they can impact your business:
Generally speaking, there are three parts to any given syringe:
#1. The BarrelThe barrel forms the body of a syringe that houses the plunger. Its typically graduated, which means the markings indicate accurate measurement volumes. The majority of barrels are made out of clear, see-through plastic. However, in some instances, an opaque barrel is required for light-sensitive applications.
#2. The PlungerAlso called a piston, the plunger can move freely up and down and creates a vacuum that pulls liquid up into the syringe. It can be made entirely out of plastic or glass, or have a rubber tip (or gasket) attached.
#3. The TipThere are four basic types of syringe tips:
Now that you know the three main parts of a syringe, well share some common questions we hear about syringes and answer them for you. If you have a question that we dont answer, please let us know.
There are a wide variety of syringe sizes that are ideal for different applications. One of the largest available syringes comes in the form of a large volume gastight syringe that can dispense liquids in volumes from 50 mL up to 2 L.
The smallest syringe sizes can go as low as 0.3 mL. Many lab and medical applications benefit from these smaller syringes, such as when doing bone marrow aspirations or working with micro specimens. Aesthetic practices also prefer smaller syringes for injecting precise doses of toxins.
The difference between the two comes down to how the needle is attached to the syringe. A Luer Lock allows for the needle to be twisted onto the tip and locked into place. For Luer Slip, the needle is pushed onto the tip. Luer Lock also prevents the needle tip from accidentally falling off when injecting fluids.
A 3-part syringe consists of a rubber gasket that sits on the tip of the plunger located inside the barrel. On the other hand, a 2-Part syringe does not utilize a rubber tip on the plunger to create the vacuum seal. Instead, it uses a slightly oversized plunger head that expands the barrel and creates a vacuum as its drawn downwards.
2-part syringes do not require a lubricant to work and are ideal for applications that cannot have the potential for foreign substances (such as silicon oil) to potentially interfere with the desired results.
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