Intra-Vaginal Devices And Methods For Treating Fecal Incontinence
Disclosed herein are devices and methods for intra-vaginal bowel control.
This application is a continuation application of and claims priority to U.S. application Ser. No. 14/181,569, filed on Feb. 14, 2014, which claims the benefit of U.S. Provisional Application No. 61/764,960, filed Feb. 14, 2013, and entitled “VAGINAL BOWEL CONTROL DEVICES AND METHODS OF USE”. The entire contents of each application is hereby incorporated by reference.
INCORPORATION BY REFERENCEAll publications and patent applications mentioned in this specification are herein incorporated by reference to the same extent as if each individual publication or patent application was specifically and individually indicated to be incorporated by reference.
FIELDThis application relates to the field of intra-vaginal devices for the treatment of fecal incontinence.
BACKGROUNDFecal incontinence (FI) is one of the most common health problems in women. The prevalence of FI is not well understood, primarily because the stigma surrounding the condition and the lack of viable treatments have deterred many women from seeking medical care. Recent general population surveys indicate the prevalence of FI at 9% to 12% and as high as 24% in older women. These studies have also shown that, although prevalence increases somewhat with age, younger women have surprisingly high prevalence rates. The condition is both physically limiting and emotionally devastating. Those afflicted are often forced to withdraw from social and professional activities and often face problems in their private personal relationships.
The cause of FI is multifactorial and not completely understood. Often times, women with FI have a history of damage to the pelvic floor stemming from pregnancy and childbirth. Damage can involve the internal and external anal sphincters, pelvic floor muscles, and associated nerves (e.g., pudendal nerve). Puerperal damage to these structures may not manifest until later in life, possibly due to age-related changes in rectal sensation, compliance, and volume, in addition to further weakening of the sphincters and pelvic floor muscles. Many women with FI have multiple defects in their continence system, making effective treatment particularly difficult.
Existing treatments include conservative management, surgical procedures, and permanent implants. These treatments all have limitations in efficacy and morbidity and most of the women with fecal incontinence go untreated. There is the need for a new therapy that is low-risk and offers a high degree of benefit. Disclosed in this application is a new way of treating fecal incontinence. Described is a non-surgical intravaginal device that can protrude into the rectum and prevent accidental bowel leakage.
SUMMARY OF THE DISCLOSUREIn one aspect, an intravaginal device for the control of stool passage is provided. The device comprises an expandable occluding body; and a stabilizing body supporting the occluding body to maintain position and stability of the occluding body in the user's vagina during repeated expansions of the occluding body in an extension direction to contact the user's recto-vaginal septum to at least partially occlude the rectum. The stabilizing body has at least two states, a perimeter of the device in a first state being greater than the perimeter of the device in a second state.
In some embodiments, a width of the stabilizing body and length of the stabilizing body can be adjusted separately between the first and second state. In some embodiments, a portion of the stabilizing body to which the occluding body is attached does not change size between the first and second state. In some embodiments, the perimeter of the stabilizing body comprises a plurality of segments that are longer in the first state than in the second state. In some embodiments, the elongation of the plurality of segments is coupled to an extension that is at least one of: in the same plane as the stabilizing body, perpendicular to the direction of elongation, and directed away from the stabilizing body. The stabilizing body can comprise a plurality of arms. In some embodiments, the stabilizing body comprises 4 arms. At least two arms can be connected by a hinge. In some embodiments, the hinge constrains the arms to rotational motion in the plane of the stabilizing body. The hinge can allow angular changes between the two arms. The stabilizing body can comprise a locking mechanism configured to maintain the two arms and the hinge in a particular angular configuration. In some embodiments, all of the arms are interconnected by hinges to form a loop. At least one arm can be extendible. In some embodiments, all arms are extendible. In some embodiments, the at least one extendible arm is configured to be extended by changing an amount of overlap of segments comprising the arm. The stabilizing body can be configured to be collapsible. The device can comprise an adjustment mechanism comprising a linkage configured to expand of contract the overall perimeter of the stabilizing body. The stabilizing body can comprise an interchangeable strut extending across the device, the strut configured to control the size of the stabilizing body. The stabilizing body can comprise a malleable frame. The stabilizing body can comprise overlapping segments configured to be pulled apart or pushed together. In some embodiments, the stabilizing body comprises a malleable wire wrapped around a flexible core. The device can comprise one or more fluid reservoirs configured to allow re-distribution of fluid throughout the device. In some embodiments, the stabilizing body comprises at least two segments that can be twisted with respect to one another. At least one of the segments can be bent. In some embodiments, the stabilizing body comprises at least two segments configured to slide past one another. The stabilizing body can comprise a tensile element configured to control a distance between at least two portions of the stabilizing body. In some embodiments, the stabilizing body comprises a tensile element forming at least one loop, wherein pulling or relaxing an end of the tensile element is configured to change the size of the stabilizing body. The stabilizing body can comprise a flexible sheath comprising a plurality of small rigid elements. In some embodiments, the stabilizing body is configured to be adjustable while the device is partially folded and is not configured to be adjustable while the device is fully relaxed or fully folded. The stabilizing body can comprise a flexible stretchable base comprising a pocket configured to accommodate at least two differently sized frames. In some embodiments, the device comprises connectors proximate to the expandable body configured to connect to at least two differently sized frames. The device can comprise an internal shape memory element. In some embodiments, the stabilizing body comprises a solid band maintained in a coil, an amount of overlap within the coil configured to be adjusted. The stabilizing body can comprise at least two segments comprising interlocking teeth. The stabilizing body can comprise a plurality of interlocking pieces. The stabilizing body can comprise a cover. The occluding body can be connected to the cover.
In another aspect, a method of selectively occluding a rectum to inhibit stool passage is provided. The method comprises inserting an intravaginal device into a user's vagina, the device comprising a stabilizing body and an occluding body; engaging vaginal anatomy with the stabilizing body to stably support the occluding body; adjusting a perimeter of the stabilizing body from a first state to a second state, the first state being greater than the second state; and extending the occluding body against a recto-vaginal septum of the user during the engaging step to at least partially occlude the rectum.
In some embodiments, adjusting the perimeter of the stabilizing body comprises adjusting a distance from the occluding body to a distal portion of the device. In some embodiments, adjusting the perimeter of the stabilizing body comprises adjusting the stabilizing body to position the occluding body so that it engages the recto-vaginal septum while the stabilizing body is engaging the vaginal anatomy. In some embodiments, a position of the occluding body relative to the stabilizing body remains constant during the adjusting step. In some embodiments, adjusting the perimeter of the stabilizing body comprises adding one or more extra pieces of material to the stabilizing body.
In a further aspect, an intravaginal device is provided. The device comprises a plurality of arms interconnected by hinges, the plurality of arms comprising at least one linearly extendible and retractable arm, wherein a size of the device is adjustable via extension or retraction of the at least one extendible arm.
The device can comprise four arms. The device can be collapsible. In some embodiments, the device is configured to resist out of plane bending. The device can be planar. The device can be configured to maintain curvature at different sizes. In some embodiments, at least one hinge comprises a locking mechanism configured to prevent rotation of a first arm of the two arms about the hinge. The locking mechanism can permit the device to be locked in one or more configurations. In some embodiments, the locking mechanism comprises a latch configured to interfere with a tooth on the first segment such that the first segment is prevented from rotating. In some embodiments, the at least one extendible arm comprises two segments, an amount of overlap between the two segments configured to control extension of the at least one extendible arm. In some embodiments, a first segment of the two segments comprises gear teeth and a second segment of the two segments comprises a gear configured to rotatably engage the gear teeth. In some embodiments, a first segment of the two segments comprises an elongate member and a second segment of the two segments comprises an internal chamber fluidly connected to a port, the elongate member configured to slide within the chamber upon application of positive or negative pressure to the chamber via the port. The at least one extendible can comprise a locking feature configured to prevent relative movement between the two segments. The locking feature can comprise a tooth positioned on a first of the two segments and a plurality of pockets shaped to receive the tooth positioned along a second of the two segments. In some embodiments, the tooth is attached to a lever that can be lifted to separate the tooth from one of the plurality of pockets. In some embodiments, the locking feature comprises one or more holes on a first segment of the two segments configured to engage a feature on a second segment of the two segments. In some embodiments, the locking feature comprises a groove comprising one or more wide portions on a first arm of the two arms and a pin on a second arm of the two arms, the pin configured to slide through the groove, wherein portions of the groove other than the wide portions comprise a thickness less than a diameter of the pin. The at least one extendible arm can comprise a restraining mechanism to prevent over lengthening of the two segments. In some embodiments, the restraining mechanism comprises a slot on a first of the two arms and a pin on a second of the two arms, wherein the pin is configured to slide through the slot as the two arms move relative to one another. The two segments can comprise a rectangular or round cross-sectional profile. At least a portion of one of the two segments can be configured to slide in at least a portion of the other segment. In some embodiments, the at least one extendible arm comprises three segments, an amount of overlap between the three segments configured to control extension of the at least one extendible arm. In some embodiments, the at least one extendible arm comprises a rounding feature configured to create a rounded outer profile of the device. The rounding feature can comprise a flexible arch slidingly disposed on a ramp. The device can comprise an exterior covering. The covering can be elastomeric. The device can comprise two hinges offset from a central longitudinal axis of arms surrounding the hinges. At least two features disposed on an interior perimeter of the device can be offset from each other.
In another aspect, a method of inserting an intravaginal device is provided. The method comprises inserting the device into the vagina, the device comprising a plurality of arms interconnected by hinges, at least one arm of the plurality of arms being extendible; and adjusting a length of the at least one extendible arm, thereby changing a size or shape of the device.
In some embodiments, the adjusting step comprises locking the at least one extendible arm in an adjusted configuration. In some embodiments, the method comprises collapsing the device to a collapsible state by allowing motion at the hinges. The device can be opened after the inserting step. In some embodiments, the method comprises locking the device in an open configuration by preventing motion of at least one of the hinges.
In yet another aspect, an intravaginal device for the control of stool passage of an adult human female user is provided. The device comprises an occluding body; an intravaginal stabilizing body supporting the occluding body; a sensor positioned on the device and configured to provide data regarding a parameter; and a controller configured to receive data from the sensor.
In another aspect, an intravaginal device for the control of stool passage of an adult human female user is provided. The device comprises an expandable occluding body; and an expandable intravaginal stabilizing body supporting the occluding body having tissue engagement surfaces sized and shaped to engage with internal vaginal anatomy to maintain position and stability of the occluding body in the user's vagina during repeated expansions of the occluding body in an extension direction to contact the user's rectovaginal septum proximal to the perineal body to at least partially occlude the rectum.
In a further aspect, a tool configured to measure a dimension of a vaginal cavity is provided. The tool comprises a head configured for insertion into the vaginal cavity, the head configured to expand when inserted in an area of the vaginal cavity to be sized; and a handle configured to indicate an amount of expansion of the head. The tool can include a portion for pressing against the rectovaginal septum. The tool can be configured to measure a lateral width of the vaginal cavity simultaneous to creating a protrusion of the posterior vaginal wall into the rectal space.
In another aspect, a method of measuring a dimension of a vaginal cavity is provided. The method comprises inserting a tool into the vaginal cavity, the tool comprising a head and a handle; expanding the head of the tool within the vaginal cavity using a desired amount of force; and observing the amount of expansion of the head by viewing markings on the handle.
In some embodiments, the tool includes a portion for pressing against the rectovaginal septum. In some embodiments, the tool is configured to measure a lateral width of the vaginal cavity simultaneous to creating a protrusion of the posterior vaginal wall into the rectal space.
In a further aspect, a tool configured to measure a dimension of a vaginal cavity is provided. The tool comprises a head configured for insertion into the vaginal cavity, the head configured to expand when inserted in an area of the vaginal cavity to be sized; one or more sensors positioned on the head and configured to provide data regarding a parameter; and a controller configured to receive data from the one or more sensors and use the data to determine a dimension of the vaginal cavity.
In yet another aspect, an intravaginal device for the control of stool passage of an adult human female user is provided. The device comprises an expandable occluding body; and an intravaginal stabilizing body supporting the occluding body having tissue engagement surfaces sized and shaped to engage with internal vaginal anatomy to maintain position and stability of the occluding body in the user's vagina during repeated expansions of the occluding body in an extension direction to contact the user's rectovaginal septum proximal to the perineal body to at least partially occlude the rectum, the stabilizing body molded from at least a portion of an interior of the user's vaginal cavity.
In another aspect, a method of creating an intra-vaginal device is provided. The method comprises inserting a bladder in a vaginal cavity of a patient; filling the bladder with foam to a desired volume or pressure; and curing or hardening the foam in place, creating a cast of the vaginal cavity. The method can comprise removing the cast from the vaginal cavity and adding additional structural elements to the cast.
In a further aspect, a pump for use with an intravaginal device is provided. The pump comprises a compressible body configured to pump air from within the body to an output upon compression of the body; and a relief valve configured to release air upon the device pressure exceeding a predetermined limit, wherein airflow to the relief valve is configured to be suppressed during compression.
The novel features of the invention are set forth with particularity in the claims that follow. A better understanding of the features and advantages of the present invention will be obtained by reference to the following detailed description that sets forth illustrative embodiments, in which the principles of the invention are utilized, and the accompanying drawings of which:
The disclosure herein relates generally to intra-vaginal devices and methods for controlling the passage of stool. The devices are adapted to at least partially occlude the rectum to control the passage of stool while remaining stable inside the vagina.
Extensive cadaver testing and human clinical testing and trials were performed in order to understand key attributes for devices that will achieve the desired vaginal bowel control (VBC). First, the ability to achieve rectal occlusion was found to be influenced by a variety of design features that were unanticipated from knowledge of the anatomy. Second, the stability of the device not only during rectal occlusion but also when the device is not occluding the rectum turned out to be a key aspect of device function and required specific adaptations to ensure the device is stabilized when it is not occluding and when it is occluding. Finally, the devices have to be adapted to interact with the tissue in a way that is comfortable and safe to the user while achieving occlusion and stability. Through bench and human clinical testing, these discoveries of how device design impacted device performance including rectal occlusion, device stability, and user safety and comfort, led to the development of inventive and effective vaginal bowel control devices.
While the disclosure herein focuses on the control of stool passage to treat FI, the devices, systems, and methods of use herein can be used or adapted to be used in one or more other bowel control applications, such as in, for example, the treatment of irritable bowel syndrome (“IBS”), strong urgency to have a bowel movement, diarrhea, loose stools, frequent bowel movements, flatal incontinence, constipation, hard stools, irregular or infrequent bowel movements, abdominal pain or discomfort, cramps, bloating, incomplete stool evacuation, and rectoceles. By compressing the rectum, the device may mitigate the urge to have a bowel movement that comes from a distended rectum, or via some related neurological feedback disruption. In reducing the urge or mechanically blocking stool from passing, it may also increase absorption of liquids from the stool passing through the GI tract, causing less frequent stools and stools that are not as loose in nature. Since these symptoms are often associated with abdominal pain or discomfort, especially in patients with IBS, the devices may help with those symptoms. The devices may also help women become more regular if they are constipated or have hard stools by compressing and decompressing the rectum, thereby applying a regular stimulus that can encourage stool passage. In patients who have a rectocele where stool collects and they may not completely evacuate, the devices can correct the rectocele or deflect it back into a position where stool can exit normally. Additionally, the devices herein can be used or adapted to be used in the treatment of gastrointestinal conditions that may be related to bowel habits or colon and rectum function, for example diverticulitis, hemorrhoids, anal fissures.
One aspect of the disclosure is an intra-vaginal device for the control of rectal volume of an adult human female user, the device comprising a rectal compressing portion and a stabilizing portion, wherein both portions being sized and configured to maintain position and stability while fitting entirely within the vagina and compressing the rectum. Previous attempts have failed to describe or teach an entirely intra-vaginal device designed for stably compressing the rectum.
In this disclosure, the rectal compressing portion may also be referred to as an occluding portion or a force applying portion, and similarly, the act of compressing the rectum may also be referred to as occluding the rectum or applying a force towards the rectum. While most embodiments described herein are described as reversibly occluding, or having occluding and non-occluding states, it is possible for a device in a non-occluding state to still apply some small amount of force on the rectovaginal septum, creating a minor deflection or occlusion of the rectum. However, any such minor forces are inconsequential for the effects on the bowels described herein. A stabilizing body herein could also be referred to as a stabilizing portion. The stabilizing portion and occluding portion are not necessarily different parts, but rather aspects of the device named here for convenience of description. It is the design and configuration of the devices as a whole (including the configuration of the stabilizing and occluding portions and their relationship to each other) that produces the stability, occlusion, and comfort necessary for function.
One aspect of the disclosure is a rectal compressing portion that is extendable or expandable, allowing it to reversibly compress the rectum. The device is an intravaginal device adapted to maintain position and stability in both extended and non-extended states. One of the drawbacks with previous attempts at stool control is that they fail to teach or describe devices that are intra-vaginally stabilized when an expandable portion is in a non-extended state. One of the advantages of the devices herein is that they are sized and configured to stabilize and maintain the device in a desired orientation when the occluding portion is in a non-occluding state. Additionally, the devices are sized and configured to stabilize and maintain the device in the desired orientation throughout repeated changes between occluding configurations and non-occluding configurations. Additionally, the devices are sized and configured to cause the occluding portion to repeatedly extend against the recto-vaginal septum in a desired extension direction to at least partially occlude the rectum even after the occluding portion has transitioned to a non-occluding state. Additionally, the devices are sized and configured to extend against the same part of the recto-vaginal septum, and as later described, the location on the rectovaginal septum where the portion extends is important. Additionally, the devices are sized and configured to maintain the occluding portion extended against, and in a position where it can be readily extended against, rectovaginal septum in extended and non-extended states, respectively.
It has been discovered through testing that how the device is designed to engage and be positioned within the surrounding anatomy is important for stabilizing the device and occluding the rectum. One aspect of this disclosure is a device configured to fit proximal to the area of the pubic ramus in order to stabilize the device when the occluding portion is extended and non-extended. Vaginal bowel control devices designed and configured to engage the anatomy as described allow for increased stability when the occluding portion is in extended and non-extended states. It is further described below how the device is designed and configured to engage the surrounding internal vaginal anatomy for stabilization in occluding and non-occluding states.
Through the course of experimentation, another important discovery was to compress the rectum proximal to the perineal body. During human clinical testing, it was more difficult to obtain intravaginal rectal occlusion with the same posterior force application in the area of the perineal body than in the area proximal to the perineal body. This result was unanticipated because the rectal canal is narrower in the region of the perineal body. Users also felt greater discomfort when force was applied to the perineal body as compared to proximal to the perineal body. Therefore, one aspect of this disclosure is a device designed and configured to stably and repeatedly compress the rectum proximal to the perineal body. This development, as a result of clinical findings, is different than might be suggested based on other mechanisms in medical devices for bowel control. For example, the Acticon® Neosphincter, which also compresses the anorectal canal to control stool passage, is placed at the level of the perineal body.
It was also discovered through cadaver and human clinical testing that the device's effect on surrounding vaginal tissue affects the ability of the device to occlude the rectum. More specifically, if too much slack or redundancy is taken out of the surrounding vaginal tissue by a device distending the vaginal tissue, it makes it more difficult for the device to occlude the rectum. Furthermore, it was found to be less comfortable for the user if the device compresses the rectum when the slack has been taken out of the vaginal tissue. In addition to discomfort, this places additional strain on the tissue and could lead to pressure ulceration, necrosis, or other adverse events. The discovery of this relationship in the tissue resulted in a variety of design features in the devices herein. One aspect of this disclosure is a device designed and configured to minimize the stretch to the vaginal tissue while maintaining stability and compressing the rectum posteriorly. The balance of configuring a device to be stable in the vagina but also reducing stretch on the surrounding tissue in order to occlude the rectum was an important design development. Previous attempts have not described a vaginal device for stool control that is designed to maintain sufficient slack in the vaginal tissue. Additionally, it was found to be important to reduce the stretch on the surrounding vaginal tissue in proximity to the extendable portion during rectal compression.
A variety of device features were developed in order to minimize the stretch to the vaginal tissue while maintaining stability and compressing the rectum posteriorly. Such features, described in further detail below, include the dimensions of the stabilizing body, dimensions of the occluding portion, and the relationship between the dimensions of the stabilizing body and occluding portion; as well as their positioning, absolute and relative to each other.
One aspect of this disclosure is a device designed and configured with a flattened stabilizing portion in relation to the occluding portion. More specifically, the stabilizing body is flattened in a direction substantially perpendicular to the direction of occluder extension. More specifically, the stabilizing portion has a thickness less than the length of the occluding portion. In this disclosure, a flattened stabilizing portion can also be described as: a portion whose thickness in the direction perpendicular to its lateral span and local longitudinal axis is less than the lateral span; particular range of width, length and thickness ratios describing a reduced thickness; a cross-sectional profile (taking the cross-sectional cut with a plane normal to the longitudinal axis of the device, or a plane normal to the proximal-distal axis of the vagina when the device is in-situ) that is relatively short, compared to its width; or a generally planar shape. The elements of such a profile are important for several reasons that were discovered through clinical testing. A stabilizing portion that is flattened relative to the occluding portion, and more specifically in a direction substantially perpendicular to the direction of extension of the occluding portion, provides enough slack in the vaginal walls in order to allow the extendable portion to better and more comfortably compress the rectum. This is in contrast with work disclosed in the prior art attempts, some of which describes a bulky, tubular base. At the same time, a flattened stabilizing portion with appropriate dimensions was also found to contribute to device stability by resisting rotation and translation from forces generated by rectal occlusion, as described further below. A flattened stabilizing portion relative to a direction of extension of the occluding portion also allows the device to fit in the area between the pubic ramus and the posterior fornix. More specifically, it allows the distal end of the device to fit anteriorly in the area of the pubic notch. The positioning that is achieved based on the design contributes to device stability by keeping it snug to the surrounding tissue and better occlusion by helping keep the occluding portion proximal to the perineal body.
Exemplary intra-vaginal devices and methods are described in U.S. Publication No. 2013/0150661 (application Ser. No. 13/625,683), filed Sep. 24, 2012, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE”; U.S. Publication No. 2013/0138135 (application Ser. No. 13/679,484), filed Nov. 16, 2012, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE”; U.S. Publication No. 2013/0144112 (application Ser. No. 13/679,528), filed on Nov. 16, 2012, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE”; International Publication No. WO 2011/116108 (Int'l. App No. PCT/US2011/028691), filed on Mar. 15, 2011, entitled “INTRA-VAGINAL DEVICE FOR FECAL INCONTINENCE”; and International Publication No. WO 2013/044239 (Int'l App. No. PCT/US2012/056923), filed Sep. 24, 2012, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE”, the disclosures of which are incorporated herein in their entireties.
Adjustable Devices
In some embodiments, an adjustable intra-vaginal device is provided. Adjustable intra-vaginal devices can be configured to adjust to comprise perimeters of different sizes. Different patients may have vaginal anatomies that vary in size or shape. Instead of providing devices in multiple sizes, a single device is capable of assuming various sizes. Such an adjustable device would allow clinicians to stock fewer devices while still being able to cater to a varying patient population. An adjustable device may have an increased likelihood of correctly fitting a patient, as the different shapes and sizes it can be adjusted to may better match a patient's anatomy. Additionally, in some patients, a device may need to be inserted to determine whether the fit is proper. In this case, an adjustable device would allow for the same device to be adjusted if it is not a good fit instead of requiring a new device to be used and requiring disposal or re-processing of the initial device. Additionally, if patient anatomy changes during the use period, an adjustable device could advantageously provide an increased likelihood of maintaining a correct fit for the patient.
The proper location and positioning of the occluding member for a vaginal device for fecal incontinence can be important for successful treatment, as outlined above. Additionally, the proper shape of the device, and the relative shapes and sizes of the stabilizing body and occluding portion can be important for successful treatment, as outlined above. Therefore the use of adjustable features to better suit a device to the anatomical needs of patients is an important development in vaginal devices for fecal incontinence.
Adjustable devices may be adjusted through the use of external tools that can be inserted into the vagina. The tools can engage with the device to adjust the adjustability mechanism. In some embodiments, patients and physicians can adjust the device. In some embodiments, adjustments are made only by the physician, with or without particular tools.
In device embodiments configured to expand, such as that shown in
In some embodiments, the ability to change the shape of the device may be provided by a plurality of ball and socket segments. Such segments can allow for shape adjustment of the device by permitting the repositioning of the orientation of the ball within the socket on one or more joints. In some embodiments, the ball and socket joints are passively resistant to movement by friction. In some embodiments, the ball and socket joints are actively loosened for adjustments and tightened to secure the shape of the device. Additional ball and socket joints can be added to increase the overall size of the device. Ball and socket joints can be removed from the device to reduce the overall size of the device.
In some embodiments, the device frame can include bent or shaped segments which can be rotated or twisted with respect to each other to change the overall shape of the device.
In some embodiments, the expandable body may provide adjustability to the device. In some embodiments, an adjustable device frame can be configured to ratchet or deform open or expand upon activation of the expandable body. The opening or expansion of the frame may stop when the opening force is balanced with the force applied by the patient anatomy or when expansion stops. In some embodiments, the device retains it shape after un-expanding the expandable body. The expansion of the frame can also be reversible, for example, by unlocking the ratcheting mechanism. Alternately, or together with a mechanical means (such as unlocking a ratcheting mechanism), the expansion of the frame can be reversible by un-expanding the expandable portion.
In some embodiments, the expansion of the expandable body may drive a spring force mechanism, or a constant-force spring mechanism expanding the device frame. In such embodiments, when expansion is reversed, the device frame can also shrink.
While
In some embodiments, to prevent unintentional adjustment, adjustability can be limited to occurring only while the device frame is partially folded and prevented when the device frame is fully relaxed or fully folded. This feature may prevent unintentional adjustment while the device is in place or during insertion. Such a feature can comprise internal sliding components with keyed features.
Adjustable devices as disclosed herein may be permanently locked before insertion in a patient using secondary tools (e.g., rivets), welding, heat sealing, other mechanical means, and the like.
Adjustability performed in-situ can also help facilitate insertion and removal of the device by reducing the size of the device. It will be appreciated that adjustability can be provided in conjunction with the collapsing mechanisms provided in PCT Application No. *Unknown*, filed on Feb. 14, 2014, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE” and U.S. application No. *Unknown*, filed on Feb. 14, 2014, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE”.
In some embodiments, adjustability can be achieved using straight components configured to move relative to one another in a linear fashion. Such embodiments can incorporate a locking mechanism or use additional components to limit or allow relative movement between the straight components so that the straight components can have different amounts of overlap of segments comprising the straight components. A variety of locking mechanisms can be used, including mechanisms that are depressed, pulled or twisted to release the lock. In some embodiments, locking mechanisms move with adjustable components. In other embodiments, locking mechanisms are static relative to surrounding components.
Latch 2501 at hinge 2502 can lock the arms, preventing frame 2500 from collapsing.
The device of
The segments that comprise the arms of frame 2500 have rectangular cross-sectional profiles. This shape can help ensure uniform alignment between slidingly engaged segments and prevents rotation between slidingly engaged segments. Pin-and-slot features such as slot 2522 and pin 2520 also help ensure alignment and prevent rotation. Alignment and lack of rotation within arms can help to maintain a planar configuration. If, for example, all four arms consisted of inner and outer segments with round cross-sections and no alignment features, such that the segments forming the arms could rotate with respect to each other, the frame would allow out-of-plane motion.
While many of the above embodiments comprised 4 individually adjustable arms, it is recognized that one skilled in the art can apply the features and concepts to any number of arms. Additionally, the scope of the invention is not limited to the specific mechanisms described for adjusting and securing the amount of overlap in the segments.
A variety of joint-locking features can be used to lock the joints connecting adjacent arms to secure the frames described in the embodiments above into open and/or collapsed states. A number of these joint-locking mechanisms are described in PCT Application No. *Unknown*, filed on Feb. 14, 2014, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE” and U.S. application No. *Unknown*, filed on Feb. 14, 2014, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE”.
Disclosed herein are devices with a plurality of segments forming a frame, wherein one or more of the segments are adjustable lengthwise, and by adjusting the lengths of the segment or segments, the size and shape of the frame is changed. The stabilizing body used to secure the position of the occluding portion in the correct location can comprise the frames described herein. The length and width of the stabilizing body can be changed independently or together. In particular embodiments, the occluding body can be fixed on a portion of the stabilizing body that is at least partially decoupled from the adjustability of the frame.
In particular embodiments, the stabilizing body can be collapsible to facilitate easier insertion and removal. Designs such as those described above that utilize separate adjustable features that are interconnected by joints allowing relative motion (e.g. hinges or elastomeric connections) provide for both collapsibility and adjustability, therefore offering dual advantages. Moreover, when the joints joining the adjustable segments are configurable to different degrees of collapse or opening of the frame, a wide variety of shapes and sizes are possible (as demonstrated in
In particular embodiments, there is an advantage to maintaining a rounded exterior profile. This is important for evenly distributing forces inside the vagina. Described herein are means for creating a rounded profile when linear segments comprise the stabilizing body. Means are also disclosed for maintaining the rounded exterior profile when the device is adjusted to a variety of different shapes and sizes.
While some of the embodiments described above utilize linear segments with adjustable amounts of overlap, the invention is not limited to linear segments. Curved, or flexible segments can be used as well, preferably with means of changing and securing the amount of overlap between curved segments. In some embodiments these curved segments are joined by joints that allow relative motion to facilitate collapse of the device, or to facilitate a wider range of length-width ratios.
A general concept disclosed herein includes a plurality of arms comprising the stabilizing body for support of an occluding portion. At least one of the arms is configured to be adjustable. The arms are joined by joints that allow relative motion (e.g., angular) between adjacent arms. At least one of these joints can be locked to constrain or limit motion at that joint, having the effect of fixing the stabilizing body in one or more open configurations, and/or in a closed configuration. As an alternate to the locking joint, spring forces can be used to resist relative motion between adjacent arms.
The advantage of the general concept described above is enhanced ability to stabilize the occluding portion in the correct position in a patient's anatomy.
In some embodiments, adjustable frames incorporate passive mechanisms to lock relative motion between adjustable components. For example, friction balance, magnetic interaction, flexure features, or ball detents may be used. In some embodiments, adjustability may be provided in discrete adjustments. In some embodiments, adjustability may be provided in continuous adjustment.
The above mentioned adjustable inventions are not limited to devices for the treatment of fecal incontinence, but could potentially be used for beneficial improvements of vaginal devices in general, including pessaries for pelvic organ prolapse, pessaries for urinary incontinence, vaginal devices for contraception, vaginal devices for management of menstrual fluids, vaginal devices for post-surgical bleeding control, or vaginal devices for the delivery of pharmaceuticals.
In some embodiments, the device tilts to one side due to an anatomical feature of a particular patient.
Inflatable Devices
In some embodiments, it may be advantageous to have a largely or completely inflatable device. For example, an inflatable device can help facilitate insertion and removal as large portions of the device can be deflated during insertion and removal. The deflation can decrease the size and cross-sectional profile of the device by 4 fold or more. Deflation can also reduce rigidity of the device, allowing it to more easily be inserted or removed from the vagina with its curves and folds, as well as allowing it to be formed into a curved or other shape to facilitate insertion In the prior art, the deformable device required the user to counter the spring opening force while orienting and inserting it. An inflatable device that utilizes air pressure to stabilize itself in the vagina, when deflated, would not present any active opening forces for the user to counter. Additionally, inflation of the device can be controlled, providing comfort to the user. Inflation can be used to control both device size and stiffness. Inflation can be reduced during times of increased sensitivity. It can then be gradually increased as the user becomes more comfortable, providing better stabilization or occlusion. An inflatable device can also provide cushioned surfaces, also providing comfort to the user. Cushioned surfaces better distribute the force of the device on the tissue and can better react to dynamic changes, reducing tissue damage and damage to the device. Inflatable design can be applied to other intra-vaginal devices, for example, pessaries. An inflatable stabilizing portion can allow better conformance to a larger variety of patient anatomies than rigid alternatives. This form can be compressed into longer or wider shapes starting from the same initial footprint. In yet other embodiments, inflatable portions are in addition to the stabilizing portion, or constitute combinations of the stabilizing, extendable, or other portions.
In some embodiments, an inflatable device can have multiple chambers.
In some embodiments, portions of the device (e.g., stabilizing body, expandable body) are configured to expand different amounts during inflation. Allowing portions of the device to expand different amounts can create unique device shapes.
Sizing Tools
Intra-vaginal devices disclosed herein may be provided in multiple sizes and/or shapes. In some embodiments, adjustable intra-vaginal devices are provided. In both cases, a particular device, size, or shape must be selected for particular patient anatomy. A tool that allows for measurement of patient anatomy may allow for increased comfort and efficiency during patient fitting. As sizing is commonly done by hand, such a tool may also standardize communications between different clinicians for patient care or instructional purposes. The tool can include a portion for pressing against the rectovaginal septum. The tool can be configured to measure a lateral width of the vaginal cavity simultaneous to creating a protrusion of the posterior vaginal wall into the rectal space.
In some embodiments, the physician or user may use tools within the vagina using only tactile feel to determine the desired force applied to the tissue. A tool utilizing reduced advantage on the tool handle may increase the clinician's sensitivity to pressure on the vaginal walls, thereby increasing device safety and repeatability. In other embodiments, a constant force or compression spring comprising an indication of force applied can be used to help ensure a proper amount of force is being applied. In these or other embodiments, the measuring tool can be configured to have a user interface or handle that is configured to react when the desired force is exceeded. For example the user may feel a decrease in resistance from the tool upon exceeding the desired pressure. Such a tool can use torque beams or similar mechanisms to achieve this effect. Such increased control over force applied can help improve patient comfort and safety and consistency of measurements.
All of the sizing tools described herein can include an extra component serving as a stand-in expandable body. Intra-vaginal devices disclosed herein may be provided with differently sized expandable bodies. As such, using an expandable body component during measuring can allow for more accurate and appropriate measurements.
An expandable body stand-in may have a fixed size. In some embodiments, the expandable body stand-in can be configured to expand to simulate the dynamic nature of the actual device, as in
During measurement of the vaginal cavity, the opening or expansion force of the sizing tools can be calibrated such that expansion is limited by a desired amount of contact force with the body. In such embodiments, the tool can open or expand under its own internal forces (e.g., spring force). The tool can continue to expand until its expansion is balanced by forces from the vaginal walls. The balance point can help determine the optimum size of the device.
In some embodiments, the sizing tools disclosed herein can be applied to the intra-vaginal device itself, effectively making the device the sizing tool.
Personalized Devices
In some embodiments, intra-vaginal devices personalized to anatomy of a particular patient can be used. Personalized devices can increased patient comfort and accommodate a greater range of anatomies.
Another embodiment of the personalized device uses information from a sizing tool to create a device body that is specific to the patient's anatomy. This device is molded using computer aided modeling of the body, generated by inputting values, or by readings from pressure transducers like those described elsewhere in this disclosure. In another embodiment, the device is hand molded from a foam or putty that is either be cured or encased in a flexible but inelastic layer to set its final geometry. This device or one molded to match it can be tested on the patient prior to finalization. In another embodiment, material is cut or machined to shape using the same models. The materials used can be compressible, or if the part is only to be used at the stabilizing body, a more rigid material such as a polymer or rubber is used.
Toggling Check Valve
An external pump can be used to inflate the expandable body to a desired pressure. Such a pump generally comprises two check valves to control the direction of air flow and prevent backflow. The pump also generally comprises a relief valve configured to ensure that the expandable body does not exceed a predetermined pressure limit. Pump designs that reduce backflow of air during pumping can increase pumping efficiency.
Alternative Pump Embodiments
Described below are several embodiments for inflating and deflating the expandable body of the device which consists of a gas or fluid reservoir. In some embodiments, the pump comprises a compressed gas cartridge with appropriate pressure limiters and relief valves. In some embodiments, the pump is electric (e.g., diaphragm pump). An electric pump can allow for various user interface control. An electric pump can also allow the clinician and/or user to set limits (e.g., pressure limits) and receive feedback regarding the state of the device or the pump.
In some embodiments, the pump comprises a hand pump with a forced completion system (e.g., a ratcheting system). Another example is a system configured to count the number of pumps and force each pump to reach completion (e.g., a linkage system).
Existing relief valves can be noisy and can often take time to reseat. In some embodiments, a pump comprises a silenced relief valve.
In some embodiments, fluid can be moved between reservoirs by a mechanism that causes one reservoir to contract in volume.
In some embodiments, a solid portion of the device, such as the stabilizing body, can act as a reservoir. The reservoir can be filled during manufacturing of the device or on an as-needed basis via a pump.
In some embodiments, the pump is configured to introduce air on both compression and retraction, increasing pump efficiency.
Smart Device
In some embodiments, the intra-vaginal device has one or more incorporated smart functions. The smart functions can include one or more sensors configured to allow for capabilities such as monitoring, notification of device status, and real time stabilization. Many of the functions can be controlled using an online interface, an attachable user interface, a computer, a tablet, a smart phone, and the like. In some embodiments, some or all functions can be locked or limited by a physician.
In some embodiments, the intra-vaginal device incorporates one or more sensors. The intra-vaginal device can include a sensor configured to indicate stool buildup or passage, for example a pressure sensor on an exterior portion of the expandable body. The device can be configured to notify the user regarding stool status. In some embodiments, stool passage can trigger training signal (e.g., stimulation) to help awareness or control of stool. In some embodiments, the device can be configured to occlude the rectum only when needed such that the user is not subject to a constant force and tissues are able to be in their natural state. For example, the stool passage sensor and on board pump can be used to deflate the expandable body when occlusion is not needed.
The device can incorporate a pressure sensor in the expandable body to sense pressure within the expandable body in real time. Sensing the pressure in the expandable body can allow for control of the pressure within the expandable body. In some embodiments, the system can be integrated with an on-board pump or drive that can be used to stabilize or modify pressure. In some embodiments, the system can allow for changes in pressure of the expandable body based on changes in activity level or other physiological changes. Pressure can be adjusted to increase comfort or efficacy of the device. Changes in pressure can either be automatic, controlled by the user, or scheduled.
In some embodiments, the device incorporates sensors to monitor patient position and activity. For example, the device can incorporate position sensors, accelerometers, force transducers, or torsion transducers. Such sensors can gather information about patient position and activity for more efficacious treatment of the patient or to gather information to improve programming for the general population. Such sensors can allow the device or system to trigger specific events based on patient activity. For example, the sensor can allow the device to trigger deflation when the patient bears down to pass stool or squats in a stool passage position. For another example, the sensors can allow the patient to be warned when activity or body position may affect efficacy.
In some embodiments, the device can include powered mechanisms for collapsing or opening the device. Such mechanisms can be controlled via a user interface or application. Control can be through a wired connection, or can be performed wirelessly. Control over collapsing and opening the device can improve comfort during device insertion or removal.
In some embodiments, the device is configured to apply local stimulation or vibration to improve comfort or reduce the risk of the device applying pressure to the same location for too long a time. This may be particularly advantageous in patients with more atrophic tissue.
The device can be configured to apply a pulse to surrounding tissues or an external sphincter. The pulse can be used to trigger a bowel movement or to trigger a reflex to prevent a bowel movement. In some embodiments, the pulse is used to strengthen and tone muscles involved with bowel control, which can aid in long term ability to control bowel movements. The pulse can also be used to stimulate the sacral or other appropriate nerves to amplify internal feedback.
In some embodiments, the device can be configured to communicate with a proximity sensor. A proximity sensor can be placed in certain locations (e.g., entryway of the bathroom). The proximity sensor can interact with the device to cause predetermined actions in certain areas around the proximity sensors. For example, the device can be configured to deflate or relax to allow stool passage when the patient enters the restroom to sit.
In some embodiments, the sensors described above can be configured to track and log information relating to bowel movements and other information relevant to patient care or diagnosis. In some embodiments, the user can input other information directly and integrate it with device software. Additional metrics such as menstrual cycle information, hormone information, and the like can also be integrated for patient care of diagnosis.
Dynamically Coupled Device Component
In some embodiments, the device can be stabilized by a dynamically coupled device component configured to engage distal vaginal anatomy. The dynamic stabilizing portion can be free to rotate in one or more directions, but maintains position proximal to the introitus. This dynamic capability can allow the device to adjust to differences in patient anatomies, and resist dislodgement due to relative motion in the body.
In some embodiments, the dynamic stabilizing portion comprises other shapes, for example a straight or curved bar.
In some embodiments, as described above with respect to the device incorporating smart functions, the device can be configured to apply electrical or mechanical stimulation. The location of the stimulation can be selectively distributed. For example the stimulation can be on the expandable body or portions of the stabilizing body near desired anatomical targets such as the rectovaginal septum, the deep vagina, or the vaginal opening. The spatial or temporal pattern of stimulation can be programmed by the user or clinician and controlled by an on board system or external device. The stimulation can be applied to enhance blood flow, improve sexual function, or aid in muscle training or toning. In some embodiments, the stimulation is used to treat Irritable Bowel Syndrome (IBS).
Obsolescence Features
In some embodiments, to prevent excessively long wear of the device or otherwise improve patient safety, a number of obsolescence features can be introduced. The obsolescence features can be used to create a planned device failure or to provide the patient or physician with a visual or other obvious marker that the device has reached the end of its useful life.
In some embodiments, the valve that connects the device to the inflation mechanism can be designed to wear out after a certain number of attachment or inflation cycles, preventing inflation. In some embodiments, the valve can exhibit a color change or other visual indication that replacement is needed.
In some embodiments, the device itself is made from a material that changes color after a certain amount of time of after a certain amount of time in contact with the in-situ environment (e.g., the vaginal cavity).
In some embodiments, the expandable body can be configured to wear out after a certain number of expansion cycles. In some embodiments, the expandable body can change color or provide another visual indication of the completion of a certain number of expansion cycles.
The inflation mechanism (e.g., pump) used with the device can also be configured to include obsolescence features. For example, a finite number of inflation or inflation and deflation or deflation cycles can be programmed into devices. Such programming can be accomplished using electromechanical components. In some embodiments, such programming is accomplished using mechanical components, such as a hard stop gear system or a spring component configured to fatigue and break after a certain number of cycles.
In some embodiments, collapsible device mechanisms (e.g., those described herein and in PCT Application No. *Unknown*, filed Feb. 14, 2014, and entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE” and U.S. application No. *Unknown*, filed on Feb. 14, 2014, entitled “INTRA-VAGINAL DEVICES AND METHODS FOR TREATING FECAL INCONTINENCE”) can be made out of a material configured to wear slightly during use and eventually lose its mechanical functionality. For example, the mechanism can lose its mating surface or detent. For another example, the mechanism can comprise a latch or frame comprising a return spring configured to plastically deform over extended use. Such materials can include a hard plastic or soft, tempered metal. After losing mechanical functionality, such device will fail to lock and collapse easily, notifying the user of the need to replace the device.
Surface Construction
In some embodiments, the intra-vaginal device can comprise a surface texture configured to reduce the coefficient of friction between the device and vaginal tissue, aiding in insertion and removal. The texture can be configured to reduce friction in dry, semi-dry, or well lubricated tissue. The texture can be provided on the entire device or just certain portions of the device. In some embodiments, portions of the device (e.g., those portions grasped by the patient during insertion or removal) can be configured to allow a higher amount of friction than surrounding areas.
In some embodiments, the device comprises a coating configured to reduce or enhance friction as described above. The coating can be applied to the entire device or just portion of the device. Coatings configured to reduce friction can include a hydrophilic or amino-active coating, which can become slippery in an aqueous environment.
In some embodiments, the stabilizing body comprises material configured to provide comfortable contact with patient anatomy. For example, the stabilizing body can comprise a padding comprising a soft and thick material. For another example, the stabilizing body can comprise a padding comprising a thin material with a high durometer. The paddings can encase a fluid (e.g., air), a gel (e.g., silicone or the like), closed cell foam (e.g., silicone, polyurethane, and the like), or an open cell foam. In some embodiments, the stabilizing body comprises layers of increasing durometer. For example, the stabilizing body can comprise a high durometer polymer overmolded or sheathed with lower durometer silicone.
In some embodiments, the stabilizing body comprises large surface texture configured to improve atraumicity. For example, the stabilizing body can comprise soft bumps or ridges on the padded surfaces. For another example, the stabilizing body can comprise small concave pockets, holes, or through features that can create regional suction when tissue contacts the device surface. For yet another example, the stabilizing body can comprise large pockets, holes, or through features intended for folds of surrounding tissue to invade, increasing stability.
The ability of surface pockets to provide suction or allow tissue ingress can be increased by actively increasing the size of a flexible pocket.
While multiple embodiments are disclosed, still other embodiments of the present invention will become apparent to those skilled in the art from this detailed description. The invention is capable of myriad modifications in various obvious aspects, all without departing from the spirit and scope of the present invention. Accordingly, the drawings and descriptions are to be regarded as illustrative in nature and not restrictive.
When a feature or element is herein referred to as being “on” another feature or element, it can be directly on the other feature or element or intervening features and/or elements may also be present. In contrast, when a feature or element is referred to as being “directly on” another feature or element, there are no intervening features or elements present. It will also be understood that, when a feature or element is referred to as being “connected”, “attached” or “coupled” to another feature or element, it can be directly connected, attached or coupled to the other feature or element or intervening features or elements may be present. In contrast, when a feature or element is referred to as being “directly connected”, “directly attached” or “directly coupled” to another feature or element, there are no intervening features or elements present. Although described or shown with respect to one embodiment, the features and elements so described or shown can apply to other embodiments. It will also be appreciated by those of skill in the art that references to a structure or feature that is disposed “adjacent” another feature may have portions that overlap or underlie the adjacent feature.
Terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. For example, as used herein, the singular forms “a”, “an” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms “comprises” and/or “comprising,” when used in this specification, specify the presence of stated features, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, steps, operations, elements, components, and/or groups thereof. As used herein, the term “and/or” includes any and all combinations of one or more of the associated listed items and may be abbreviated as “/”.
Spatially relative terms, such as “under”, “below”, “lower”, “over”, “upper” and the like, may be used herein for ease of description to describe one element or feature's relationship to another element(s) or feature(s) as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is inverted, elements described as “under” or “beneath” other elements or features would then be oriented “over” the other elements or features. Thus, the exemplary term “under” can encompass both an orientation of over and under. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly. Similarly, the terms “upwardly”, “downwardly”, “vertical”, “horizontal” and the like are used herein for the purpose of explanation only unless specifically indicated otherwise.
Although the terms “first” and “second” (or primary and secondary) may be used herein to describe various features/elements, these features/elements should not be limited by these terms, unless the context indicates otherwise. These terms may be used to distinguish one feature/element from another feature/element. Thus, a first feature/element discussed below could be termed a second feature/element, and similarly, a second feature/element discussed below could be termed a first feature/element without departing from the teachings of the present invention.
As used herein in the specification and claims, including as used in the examples and unless otherwise expressly specified, all numbers may be read as if prefaced by the word “about” or “approximately,” even if the term does not expressly appear. The phrase “about” or “approximately” may be used when describing magnitude and/or position to indicate that the value and/or position described is within a reasonable expected range of values and/or positions. For example, a numeric value may have a value that is +/−0.1% of the stated value (or range of values), +/−1% of the stated value (or range of values), +/−2% of the stated value (or range of values), +/−5% of the stated value (or range of values), +/−10% of the stated value (or range of values), etc. Any numerical range recited herein is intended to include all sub-ranges subsumed therein.
Although various illustrative embodiments are described above, any of a number of changes may be made to various embodiments without departing from the scope of the invention as described by the claims. For example, the order in which various described method steps are performed may often be changed in alternative embodiments, and in other alternative embodiments one or more method steps may be skipped altogether. Optional features of various device and system embodiments may be included in some embodiments and not in others. Therefore, the foregoing description is provided primarily for exemplary purposes and should not be interpreted to limit the scope of the invention as it is set forth in the claims.
The examples and illustrations included herein show, by way of illustration and not of limitation, specific embodiments in which the subject matter may be practiced. As mentioned, other embodiments may be utilized and derived there from, such that structural and logical substitutions and changes may be made without departing from the scope of this disclosure. Such embodiments of the inventive subject matter may be referred to herein individually or collectively by the term “invention” merely for convenience and without intending to voluntarily limit the scope of this application to any single invention or inventive concept, if more than one is, in fact, disclosed. Thus, although specific embodiments have been illustrated and described herein, any arrangement calculated to achieve the same purpose may be substituted for the specific embodiments shown. This disclosure is intended to cover any and all adaptations or variations of various embodiments. Combinations of the above embodiments, and other embodiments not specifically described herein, will be apparent to those of skill in the art upon reviewing the above description.
Claims
1. An intravaginal device for the control of stool passage, the device comprising
- an expandable occluding body; and
- a stabilizing body supporting the occluding body to maintain position and stability of the occluding body in the user's vagina during repeated expansions of the occluding body in an extension direction to contact the user's recto-vaginal septum to at least partially occlude the rectum,
- wherein the stabilizing body has at least two states, a perimeter of the device in a first state being greater than the perimeter of the device in a second state.
Type: Application
Filed: Jun 6, 2018
Publication Date: May 9, 2019
Inventors: Miles Harris Rosen (Palo Alto, CA), Steven Lawrence Herbowy (Palo Alto, CA), Jared Goor (Sunnyvale, CA), Narvel M. Brooks, III (Sunnyvale, CA)
Application Number: 16/001,022