Not Applicable.
The present invention relates in general to circulatory support systems such as a left ventricular assist system, and, more specifically, to a shower bag for protecting a wearable component of the circulatory support system (while remaining connected to an implanted component of the system) from water during a patient's shower.
A heart pump system known as a left ventricular assist system (LVAS) is used for providing long term patient support with an implantable pump connected to an externally-worn pump control unit and batteries. The LVAS improves circulation throughout the body by assisting the left side of the heart in pumping blood in order to treat end-stage congestive heart failure. One such system is the DuraHeart™ LVAS system made by Terumo Heart, Inc., of Ann Arbor, Mich. The DuraHeart™ system employs a centrifugal pump with a magnetically levitated impeller to pump blood from the left ventricle to the aorta. The pump is electronically controlled to provide a flow rate from two to eight liters per minute, for example. The controller typically contains a display screen for showing system status. The controller may be connected to a hospital or main console to allow a physician or care giver to set-up, adjust, and monitor the controller and pump units.
In addition to the controller, the extracorporeal portion of the circulatory support system includes batteries or other power supply. The batteries and controller are needed on a full time basis, so they are typically worn externally by the patient. A control and communication cable is connected between the implanted pump and the electronic controller via an exit site in the patient's skin.
Various kinds of carrying devices such as backpacks and shoulder bags have been used for LVAS systems and other similar portable medical devices. A carrying case having respective pockets or receptacles for each of the controller and battery components is often used to strap or sling the extracorporeal portion of an LVAS system to the patient. Carrying systems attempt to maximize patient comfort and mobility to improve quality of life while using the implanted system.
After sufficient healing of the exit site occurs, it is desirable to allow the patient to shower. However, the controller and battery are sensitive to exposure to water. Parts of the extracorporeal portion of the system such as display screens, indicator lamps, and/or control push buttons, are intended to be accessible during normal usage. Making the carrying case waterproof in order to adapt it for use in a shower would be possible, but is undesirable because 1) it would make the screen, lamps, and buttons less accessible, and 2) it would be difficult to thoroughly dry the carrying case after a shower. Residual moisture could encourage growth of bacteria, leading to a risk of infection.
To avoid exposure of the carrying case to water, dedicated shower bags have been used wherein the controller and batteries are removed from the carrying case and are transferred to the shower bag. However, the extra handling of the components is inconvenient and gives rise to risks that a component could be dropped or damaged or that a push button could be accidentally pushed.
It has also been known to transfer the electrical components to waterproof bags that are supported away from the patient, e.g., by a rolling hanger or being placed on the floor. Thus, previous shower bags for such circulatory support systems have been inconvenient and fail to provide patient mobility and a compact size.
The present invention provides a shower bag with improved usability and patient mobility. It avoids removal of the extracorporeal components from their regular carrying case, and provides easy installation of a shower bag that achieves very effective water protection. The shower bag can be used with any medical devices having a wearable electric component connected to an implanted component such as a Right Ventricle Assist Device (RVAD), a Total Artificial Heart (TAH), a Biventricular Assist Devices (BVAD), an Intra-aortic balloon pump (IABP), and so on.
In one aspect of the invention, a shower bag is provided for a patient using a medical device system having an implanted portion, an extracorporeal portion, and a cable extending between the implanted portion and the extracorporeal portion, wherein the extracorporeal portion is mounted in a carrying case wearable by the patient. A water-resistant pouch has an interior cavity extending between a top end and a bottom end, front and back exterior surfaces extending continuously over the top end, and an opening for inserting the carrying case into the interior cavity. An internal fastener suspends the carrying case within the interior cavity in a manner to permit the extracorporeal portion to remain in the carrying case. A carrying strap has first and second ends attached to the pouch proximate to the top end. A re-sealable fastener is mounted to the pouch disposed alongside an edge of the opening for closing the opening except for a cable passage that is proximate to the bottom end.
Referring now to
Pockets 21, 24, and 25 are mounted to a base panel 30 which may include a fold-over front cover 31 (shown folded back in
As shown in
In order to visualize the extracorporeal electronic components while in the shower bag, pouch 35 includes a transparent window 56 which may be formed of a lo clear plastic layer.
In the embodiment shown in
Front flap 62 includes a transparent window 80 which allows the extracorporeal circulatory support system components to be visually monitored during 10 the showering procedure.
Many conventional materials can be used to construct the shower bag of the present invention. Breathable waterproof materials are preferred for the pouch such as Ultrex and Goretex. For example, the pouch may be comprised of Derma-Plush fabric available from Brookwood Companies Incorporated of New York, N.Y. Most preferably, seams may be heat sealed using radio frequency heat sealing and the pouch fabric may comprise Derma-Plush RF Supreme. Various transparent, heat-sealable thermoplastics can be used for the window. In some embodiments, the carrying strap may be attached to a PVC tarpaulin extending at the top corners of the pouch to provide greater strength to support the internal fasteners. The tarpaulin is also heat sealed to the pouch in order to waterproof the holes. The carrying strap may be sewn to ears at the ends of the tarpaulin.
PVC plastic can also be employed for the clip fasteners, zippers, and rigid parts of the carrying strap and the internal fasteners, for example. Hook and loop fasteners of the type available under the trade name of Velcro can be used. The carrying strap and other straps incorporated into the fasteners may be a woven web material.
Not Applicable.