The present application relates generally to the use of devices during medical procedures (e.g., heart catheterization, surgery, medical imaging) in which a patient lies on a surface.
During medical procedures, patients often lie on a surface and are hooked by wires or cables to a variety of medical devices. The cables often can become tangled or detached. During these procedures, patients often lie on foam mats that are not comfortable and are cold. Arm boards to support the arms are usually detachable from the table, but when they are detached, they can fall to the ground or otherwise get in the way. After procedures, patients need to be lifted off of the mats and transferred to beds or other transport devices.
In addition, the mats typically need to be draped to avoid contamination from patient to patient. The drapes are often simple sheets of paper or polymer material, and they may have pockets sewn in. Patients may need to urinate during prolonged procedures, but in order to do so, they either urinate on themselves and the drape (resulting in a pool of fluid) or they need to have a urinal or catheter placed by ancillary personnel.
Typically, the mat stays with the table from procedure to procedure, and is often uncomfortable. After lying on the mat for a prolonged period of time, a patient may begin to experience back or neck pain. The use of cables may also become cumbersome or inefficient. Because many types of cables, tubes, lines, and the like may need to be used (such as for ECG (electrocardiogram), NIBP (non-invasive measurement of blood pressure), SaO2, or O2), they may become cumbersome to attach, or may be caught on certain large equipment components (such as X-ray equipment). This could prolong setup and procedure time.
Also, in many current medical procedures, medical personnel place their tools on a cart behind them and pull the tools they need onto the drape that covers the patient. Tools often fall on the floor. Some tasks, such as holding a catheter or guidewire for a doctor, require the presence of additional personnel, which is wasteful and inconvenient.
Various embodiments of the present invention are provided in the accompanying description and attachments. In one embodiment, a mat is provided for patients to lie on during medical procedures. The mat may have one or more of the following components or features: wiring for lead attachments (such as for ECG (electrocardiogram)); inflatable or moveable back supports; an entertainment and communication system; an integrated heating/cooling system; piping for oxygen; wiring for other medical devices (such as SaO2 sensors); and/or integrated medical devices such as those intended to pump fluid or monitor Doppler flow.
In one embodiment, a sterile draping system with an integrated absorbent material is provided that will absorb urine (or other biological fluids) and/or procedure fluids (e.g., contrast solution, saline). The sterile draping system may include a flap that forms a “privacy shield” to cover body parts, and/or an integrated set of containers and fasteners to hold medical equipment during medical procedures.
The details of one or more embodiments of the invention are set forth in the accompanying drawing figures and the description below. Other features, objects, and advantages will be apparent from the description and attachments. The embodiments shown and described are provided for the purposes of illustration, not limitation.
a is a top view of a medical procedure mat having detachable arm supports;
b is a cross-sectional view of a medical procedure mat having detachable arm supports;
a-3d are conceptual diagrams of a medical procedure mat incorporating physiological monitoring lines, according to one embodiment.
a is a cross-sectional side view of a medical procedure room having a table, mat, and draping system, according to one embodiment.
b-8e are top plan views of a draping system, according to several different embodiments;
Various exemplary embodiments are described herein with reference to the accompanying drawing figures in which like numbers describe like elements.
In one embodiment, a mat is provided that includes wiring, cabling, heating, cooling, grip rings, integrated devices, and/or other features. In one embodiment, a patient draping system is provided that addresses the problem of urination, and that further forms a workbench for the medical personnel. The draping system may include clips to hold wires and catheters, and may further include storage for equipment not in use. In one embodiment, the use of such a mat and/or patient draping system may help improve medical procedure efficiency by reducing procedure delays and interruptions, reducing the amount of material that may potentially fall off the table, reducing the number of personnel needed for procedures, and/or improving patient comfort.
One embodiment of a medical procedure mat may include wiring, tubes, or other lines (e.g., physiological monitoring lines) for various components, such as for the monitoring of ECG (electrocardiogram), NIBP (non-invasive measurement of blood pressure), SaO2, or O2. The medical procedure mat may stay with the patient from the medical room (such as an operating room or cardiac catheterization lab) into a recovery area, according to some embodiments of the invention. In some embodiments, the mat may have side grips for moving the patient to a gurney. In addition, one or more drapes, or a draping system, may be used in conjunction with the mat, and may be further adapted to mate to the mat in some embodiments. The drape may have a top layer that forms a workbench, and a bottom layer having an absorbent material, a privacy shield, and support for the workbench. In one embodiment, the mat may stay in the medical procedure room and does not necessarily move with the patient.
In one embodiment, cable and tubing management are provided. Quick connects and other connectors (such as reel connectors) may be provided for ECG, NIBP, SaO2, or other types of physiological monitoring lines. This embodiment may provide various advantages or benefits, such as faster throughput (allowing quicker patient hook-up time), or minimization of case disruption while cables or connectors are re-routed.
In one embodiment, an advanced workbench drape is provided that may include a wire or balloon storage, a workbench tool set, wire/catheter stabilization devices, and an absorbent material with a privacy flap. This embodiment may provide various advantages or benefits, such as improved efficiency, and reduction of case delay and complications from urine management or bladder catheterization. In addition, one individual may be able to perform catheter movements previously achievable only with involvement from two individuals.
In one embodiment, a patient comfort feature is provided. This feature may include neck or back supports, heating of the mat, and/or music with patient control. This embodiment may provide various advantages or benefits, such as increased patient loyalty and comfort. In one embodiment, a communication feature may also be provided for improved efficiency or enhanced communication. Headsets for personnel or patients may also be included.
A medical procedure mat and draping system may include a work surface, according to one embodiment of the present invention. Various features of such a system are described for the mat and draping system, which may be referred to herein as “iMAT” (integrated mat). The mat may include one or more of the following features: a raised comfort perimeter; an integrated wiring harness (for wiring and/or other connections); a wearable ambient device (such as headphones, which may be used by a patient when lying down on the mat, and which may have a wireless interface); a grab handle; a head/neck rest; an ECG wire spool or reel; a shoulder/ribcage pad; a movable padded arm rest; a movable lumbar with tailbone pad; an accessible plug port; a heat source (which may be driven electrically or by forced air, for example); a cable pass-through (for passing cables from one end of the mat to the other; and/or a removable lower portion.
The work surface of the iMAT system may include one or more of the following features: a pivoting arm that can be used to move a work surface over the table and mat, a removable tray, a removable fluid (e.g., saline) container, a removable storage container, lids, and/or an energy (e.g., light) source.
A drape or draping system may be used alone or in conjunction with the medical procedure mat described herein. Various features are described for a top and a bottom drape, and for an integrated draping system, which may be referred to herein as “iDRAPE” (integrated drape). A drape or draping system according to embodiments of the invention may include one or more of the following features: a heat source (which may be driven electrically or by forced air, for example), a “modesty” panel to shield/hide/mask/etc. one or more portions of a patient's body, integrated absorbent briefs (to absorb bodily fluids, for example), adhesive pass thrus (for attaching to the patient), drape material (which may be transparent), perforated pass thrus (for passing through equipment or other components, for example), and an integrated bottom drape. In one embodiment, a top drape and a bottom drape are not integrated, but are attachable or connectable.
a is a top view of a medical procedure mat 10 having detachable arm supports or boards 12, as are known in the art. The medical procedure mat 10 is typically a foam mat, comprising a cushioned substrate 14 and/or a radiolucent material 12 covering the cushioned substrate 14, as is shown in the cross-sectional view of mat 10 shown in
a through 3d are conceptual diagrams of a medical procedure mat 110 incorporating one or more physiological monitoring lines (e.g., electrocardiogram or “ECG” cables, blood pressure monitoring lines, oxygen saturation monitoring, etc.), according to one embodiment. The medical procedure mat 110 includes a cushioned substrate having a top surface (for supporting a patient lying on the mat), a bottom surface that can be positioned on and supported by a medical procedure table, an inner portion, and an outer edge portion that includes sections generally corresponding to the head, foot, left and right sides of the patient.
As shown in
The proximal end of the guided portion 210 of the physiological monitoring line 200 can be adapted to facilitate connection to a monitoring device, according to some embodiments of the invention. For example, as shown in
The flexible portion 220 may be adapted to extend toward the inner portion of the cushioned substrate. This may be useful, for example, to facilitate connection or coupling to the physiological sensor 300 associated with the patient. In some preferred embodiments, the flexible portion 220 may remain substantially refracted (e.g., near or within the operative coupling 230) until a patient is situated on the top surface of the cushioned substrate. At that point, a medical staff person may couple the flexible portion 220 to the physiological sensor 300 by extending the flexible portion 220 and coupling it (e.g., by connecting, attaching, or placing in proximity) to the physiological sensor 300.
The physiological monitoring lines 200 may be adapted to communicate electrical signals (as would be the case with ECG signals, for example), or may be adapted to communicate fluid signals (e.g., blood pressure signals, or oxygen saturation signals).
Hub 240 may, for example, facilitate connection of physiological monitoring lines 200 to a monitoring device. In some embodiments, hub 240 may include more than one type of connector, for example, to allow for connection of different types of physiological monitoring lines to different types of monitors. One type of connector, for example, could be a multi-pin connector for electrically coupling ECG cables to an ECG monitor. Another type of connector could be a tubing connector (e.g., luer connector) adapted to couple a fluid signal (e.g., a blood pressure monitoring line, or an oxygen saturation monitoring line) to an appropriate monitoring device.
In one embodiment, the operative couplings 230 may comprise reel connectors that can be extended and retracted quickly and effectively. In one embodiment, the connectors may comprise coil connectors that may also be capable of being extended and retracted quickly and effectively. Such reel or coil connectors may include a housing as part of the operative coupling 230 into which the flexible portion 220 of the physiological monitoring line 200 may be retracted. In some embodiments, the operative couplings 230 are adapted to place a tension on the flexible portion 220, which effectively pulls the flexible portion 220 toward the operative coupling 230. The arrangement of physiological monitoring lines as described above (ECG “line piping”) with reel connectors or coil connectors may allow faster connections to be made, and may also help minimize the number of times medical personnel need to re-attach or re-route cables during medical procedures. The use of the connectors may help minimize cable interference with X-ray C-arms, for example, or may also minimize lead pull-offs. For example, the operative couplings 230 may include a detent position that allows an operator to selectively remove the tension on the flexible portion 220 (for example, once the flexible portion 220 is connected to the physiological sensor 300 and any slack is taken out of the flexible portion); this might decrease the likelihood of the physiological sensor 300 being pulled off of the patient by the tension supplied by the operative coupling 230. The locations, positions, and types of connectors shown in
c is a partial, cut-away cross-sectional view of a medical procedure mat 110 according to various embodiments of the invention.
d shows another possible embodiment of a conduit 250. For example, conduit 250e in
In some embodiments of the invention, the conduit 250 is a generally annular member that extends along the outer portion of the cushioned substrate. The generally annular member may typically be elongate and hollow, and may be substantially tubular or cylindrical in cross-section, for example, but could also be semi-circular or “C”-shaped in cross-section as well. In one embodiment, for example, the generally annular member is substantially tubular with a longitudinal slit or gap to allow for the addition or removal of physiological monitoring lines 200 to/from conduit 250.
With reference back to
In one particularly preferred embodiment of the invention, the medical procedure mat 110 includes two conduits: a first conduit running generally along the left side of the outer edge portion, and a second conduit running generally along the right side of the outer edge portion, each of the conduits being capable of guiding at least one physiological monitoring line between an area near the foot and an area near the head of the outer edge portion. In one example of such an embodiment, the guided portion of one of the physiological monitoring lines runs from the left side to the right side near the foot of the outer edge portion.
In some embodiments, additional functionality and/or capabilities may be provided by mat 110. For example, in embodiments in which the mat 110 stays with a given patient (e.g., a mat 110 with handgrips 470 that may travel with the patient from the medical procedure room to a recovery room), one or more detectors or alarms may be incorporated into mat 110, for example, to detect patient bleeding or other conditions. In some embodiments, the mat 110 may receive a signal from a sensor adapted to sense patient bleeding, and may provide an alert signal in response to a detected bleeding condition.
In some embodiments, a patient bleeding sensor may include a skin patch adapted to detect bleeding, for example, by detecting extravasation at an insertion point on the patient, or by detecting a strain signal at the insertion point by stretching of the skin patch. Examples of skin patches that detect extravasation at an insertion point by monitoring changes in impedance are provided in U.S. Pat. Nos. 5,947,910 and 5,964,703, the contents of which are incorporated by reference herein. The alert signal provided in response to a detected bleeding condition may be provided at the mat 110 itself (e.g., via audible alarm, or lights, or other cues), and/or it may be transmitted to a remote monitoring station, such as a nurses station, which may be helpful during patient recovery, for example. With reference back to
Wireless ECG may also be provided, according to some embodiments of the invention. In addition, Doppler may be implemented or used for pedal pulse monitoring of the patient. In some embodiments, the mat 110 having detectors and/or alarms may stay within the medical procedure room, and would not necessarily travel with the patient.
Various embodiments of a medical procedure mat are contemplated herein. Certain embodiments include one or more features that are shown in
a is a cross-sectional side view of a medical procedure room having a medical procedure table 478, mat 110, and draping system, according to one embodiment. In the example shown, a patient lies on the table 478 within the room and is exposed to X-ray radiation, such as for a diagnostic or therapeutic procedure. The X-ray equipment (e.g., C-arm) may include a collimator 492 and an image intensifier 488, for example. The patient may lie on any embodiment of the mat 110 previously described (or on a mat including a combination of features from various embodiments described herein). In addition, a draping system may be used. As shown in
The bottom drape may include two or more holes or vents 490, which may allow for passage of physiological monitoring lines therethrough. For example, a physiological monitoring line 200, such as an ECG cable, may pass from the mat 110 to a location above the top surface of the bottom drape 480. The holes 490 in the bottom drape 480 may be arranged or positioned such that they are generally aligned with physiological monitoring lines of the mat 100, according to certain embodiments. For example, the holes 490 may be aligned with one or more operative couplings 230 of the mat 110. In some embodiments, the bottom drape 480 may be coupled to the mat 110 (or to the cushioned substrate of the mat 110), for example, by using hook and loop fasteners positioned to facilitate alignment between the holes in the bottom drape and the operative couplings of the mat 110.
In some embodiments, a bottom drape 480 may also include an absorbent material portion 484 to capture patient bodily fluids, such as urine, and/or medical procedure fluids (e.g., contrast solution, saline, etc.). The absorbent material portion 484 may be made of a material similar to that used in diapers, and may be integrated into the design of bottom drape 480. Bottom drape 480 may also include a privacy shield 482 to shield a patient's private parts or bodily areas. Privacy shield 482 may be formed of a flexible material coupled to the top surface of the bottom drape 480, for example. In some embodiments, the privacy shield 482 may be positioned (e.g., using fasteners, or an adhesive, or tape) to at least partially cover the patient's private parts (e.g., groin area), for example. In the embodiment shown in
b-8e show various configurations of a bottom drape 480 according to embodiments of the invention. For example,
In some embodiments, the bottom drape 480 may also be capable of mating with a top drape (to be described further below with reference to
The foregoing description addresses examples encompassing the principles of various embodiments of the present invention. The embodiments may be changed, modified and/or implemented using various types of arrangements. In particular, one or more embodiments may be combined in a single mat and/or mat and draping system. Those skilled in the art will readily recognize various modifications and changes that may be made to these embodiments of the invention without strictly following the exemplary embodiments and applications illustrated and described herein, and without departing from the scope of the invention. Accordingly, it is not intended that the invention be limited, except as by the appended claims.
This application claims priority to U.S. Provisional Patent Application Ser. No. 60/888,810, filed Feb. 8, 2007, the contents of which are incorporated by reference herein in their entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US08/53366 | 2/8/2008 | WO | 00 | 9/19/2009 |
Number | Date | Country | |
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60888810 | Feb 2007 | US |