The present application is related to the following commonly assigned utility patent application, filed concurrently herewith, and which is hereby incorporated by reference in its entirety: HEATER FOR ASSISTING IN VENOUS CATHETERIZATION, Practitioner Docket No. 49278.2.6.2.
Catheterization of human veins with needles and catheters is a common medical procedure. Clinicians frequently need to access patients' veins in order to draw blood for laboratory testing or for placement of intravenous (IV) catheters, for the administration of medicines, fluids or blood.
Catheterization is typically accomplished by placing a rubber tourniquet around an extremity, for example a forearm, proximal to the planned point of catheterization. The tourniquet causes compression of the superficial veins without compressing the associated arteries. Therefore, the blood is pumped through the arteries past the tourniquet into the distal extremity. Since the veins are compressed, the blood is prevented from returning to the heart. The veins typically dilate due to the increased intravascular pressure and are thus more visible and easier to access with the needle or catheter. Once the dilated vein is identified, the skin is cleaned and usually numbed with a local anesthetic. The needle or catheter is then inserted into the dilated vein.
Catheterization can be difficult to accomplish in infants and children, obese patients, patients with darker skin, IV drug abusers and patients receiving chemotherapy for cancer. Additionally, any patient can be difficult to cannulate if he or she is cold, frightened, apprehensive or dehydrated. This commonly occurs in patients that are injured or are about to undergo surgery. In these situations, veins are actively constricted by the sympathetic nervous system and, therefore, will not dilate in response to an increase in intravenous pressure. Even the application of a tourniquet may not cause the veins to visibly dilate.
It has been known that application of heat to the skin of an extremity, such as a forearm, helps to reduce vasoconstriction and dilate veins. Heaters have been developed that can be applied to an extremity. Many of these heaters are applied in direct contact with the extremity and must be cleaned between patients to avoid cross-contamination. A patient's bodily fluids may contaminate the heater, and therefore it must be cleaned before the heater is used on the next patient. The cleaning of medical equipment is both expensive and inefficient.
There is a need for an improved method of applying heat to an extremity that is safe, clean, easy to perform, and prevents-cross contamination. There is also a need for a disposable sleeve that can be used in conjunction with a heater to protect the patient from cross-contamination.
Certain embodiments pertain to a disposable sleeve for assisting in venous catherization that can be used in combination with a heater for protecting the patient's extremity from contamination by soiled heaters. The disposable sleeve also protects the heater from contamination by the patient. The disposable sleeve can also be used separately from the heater.
The following detailed description is exemplary in nature and is not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the following description provides practical illustrations for implementing exemplary embodiments of the present invention.
A disposable sleeve is provided for use in conjunction with a heater to assist in venous catherization.
The sleeve 400 can be tube-shaped or truncated conical-shaped and includes a proximal edge 54, a distal edge 55, a side edge 52 and a side edge 53. In some cases, the proximal edge 54 is open and the distal edge 55 is closed. The sleeve 400 can also be long enough to accommodate the entire forearm of a patient and extend at least 2-3 inches above the elbow when the forearm and hand are inserted. With reference to
The sleeve 400 can be made from many flexible, inexpensive and water-resistant materials. In some cases, the sleeve 400 is made of fibrous polymeric materials that include but are not limited to materials such as polyethylene, polypropylene, polyester, rayon, nylon or cellulose, are suitable for this purpose. These fibrous materials can be extruded into a non-woven fabric or several layers of non-woven fabric laminated together such as SMS (spun-bond, melt-blown, spun-bond), or are a layer of non-woven fabric that is laminated to a layer of polymeric film.
The sleeve 400 can be made from two layers of the fibrous material that are bonded along each side edge 52, 53 and at the distal edge 55. Alternately, the sleeve can be made from a single piece of fibrous material that has been folded and then bonded along one side edge 52 or 53 and along the distal edge 55. The bonding can be a simple heat seal or it can be a more complex ultrasound or radio frequency bond. Alternately, the bond can be an adhesive.
The sleeve 400 can have one or more perforated tear lines running longitudinally from the proximal edge 54 towards the distal edge 55. In the illustrated embodiments, two perforated tear lines 58a, 58b are provided adjacent to each other to form a tear strip 59. In some cases, the tear lines 58a, 58b run all the way to the distal edge. In other cases, the tear lines 58a, 58b do not run all the way to the edge, but leave a closed distal edge when the tear strip 59 is removed. In other embodiments, only a single tear line is provided.
The use of the sleeve 400 will now be described with reference to a forearm and hand. As shown in
The clinician can place a tourniquet 60 around the arm, for example, around the exposed proximal portion of the sleeve positioned on the upper arm of the patient. The clinician can then remove the heater from the patient. As shown in
The present application claims priority to provisional application Ser. No. 60/722,241 entitled: DISPOSABLE SLEEVE AND ELECTRIC HEATER FOR ASSISTING IN INTRAVENOUS CATHERIZATION, filed on Sep. 29, 2005 and to provisional application Ser. No. 60/722,256 entitled: HEATING CUFF, also filed on Sep. 29, 2005, each being hereby incorporated by reference in its entirety.
Number | Date | Country | |
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60722241 | Sep 2005 | US | |
60722256 | Sep 2005 | US |