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WO2002009802A1 - An arrangement and a method for interacting with an internal body organ - Google Patents

An arrangement and a method for interacting with an internal body organ Download PDF

Info

Publication number
WO2002009802A1
WO2002009802A1 PCT/SE2001/001538 SE0101538W WO0209802A1 WO 2002009802 A1 WO2002009802 A1 WO 2002009802A1 SE 0101538 W SE0101538 W SE 0101538W WO 0209802 A1 WO0209802 A1 WO 0209802A1
Authority
WO
WIPO (PCT)
Prior art keywords
sheath
arrangement
structural elements
distal end
passage
Prior art date
Application number
PCT/SE2001/001538
Other languages
French (fr)
Inventor
Bengt ÅGERUP
Original Assignee
Q Med Ab
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to UA2003010622A priority Critical patent/UA76423C2/en
Priority to NZ523677A priority patent/NZ523677A/en
Priority to EA200300192A priority patent/EA004013B1/en
Priority to US10/312,673 priority patent/US7156837B2/en
Priority to HU0300752A priority patent/HUP0300752A2/en
Priority to SK92-2003A priority patent/SK922003A3/en
Priority to DE60119528T priority patent/DE60119528T2/en
Priority to KR10-2003-7001145A priority patent/KR100498154B1/en
Priority to PL01365111A priority patent/PL365111A1/en
Priority to JP2002515353A priority patent/JP3863107B2/en
Application filed by Q Med Ab filed Critical Q Med Ab
Priority to AU6799501A priority patent/AU6799501A/en
Priority to CA002415091A priority patent/CA2415091C/en
Priority to BR0112762-4A priority patent/BR0112762A/en
Priority to IL15406201A priority patent/IL154062A0/en
Priority to EP01945886A priority patent/EP1303330B1/en
Priority to MXPA03000684A priority patent/MXPA03000684A/en
Priority to AU2001267995A priority patent/AU2001267995C1/en
Publication of WO2002009802A1 publication Critical patent/WO2002009802A1/en
Priority to IL154062A priority patent/IL154062A/en
Priority to NO20030377A priority patent/NO20030377L/en
Priority to HK04100295A priority patent/HK1057496A1/en
Priority to CY20061101116T priority patent/CY1105132T1/en

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/02Surgical instruments, devices or methods, e.g. tourniquets for holding wounds open; Tractors
    • A61B17/0206Surgical instruments, devices or methods, e.g. tourniquets for holding wounds open; Tractors with antagonistic arms as supports for retractor elements
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/02Surgical instruments, devices or methods, e.g. tourniquets for holding wounds open; Tractors
    • A61B17/0218Surgical instruments, devices or methods, e.g. tourniquets for holding wounds open; Tractors for minimally invasive surgery
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M31/00Devices for introducing or retaining media, e.g. remedies, in cavities of the body
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/28Surgical forceps
    • A61B17/29Forceps for use in minimally invasive surgery
    • A61B17/2909Handles
    • A61B2017/2912Handles transmission of forces to actuating rod or piston
    • A61B2017/2924Translation movement of handle without rotating movement
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/28Surgical forceps
    • A61B17/29Forceps for use in minimally invasive surgery
    • A61B2017/2926Details of heads or jaws
    • A61B2017/2932Transmission of forces to jaw members
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M25/00Catheters; Hollow probes
    • A61M25/01Introducing, guiding, advancing, emplacing or holding catheters
    • A61M25/06Body-piercing guide needles or the like
    • A61M25/0662Guide tubes
    • A61M2025/0681Systems with catheter and outer tubing, e.g. sheath, sleeve or guide tube
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M25/00Catheters; Hollow probes
    • A61M25/01Introducing, guiding, advancing, emplacing or holding catheters
    • A61M25/06Body-piercing guide needles or the like
    • A61M25/0662Guide tubes

Definitions

  • the present invention relates to an arrangement to be passed through, a body cavity for interacting with an internal body organ and a method for interacting with an internal body organ.
  • the reasons for interacting with the organ may be to inject an agent into the organ, to manipulate the organ, to obtain information related to the organ by sampling, by viewing it, or by other means of sensing, etc.
  • the organ or the tissue to be accessed is often located in a narrow space which is difficult to reach. If, additionally, the organ is located deep inside the human body, special tools or pieces of equipment are required. Because of these access limiting conditions, it is often preferred to use an elongate structural element for interacting with the organ.
  • supplemental aids are often complex and expensive. They may involve identification of anatomic points by means of special complex machinery. Furthermore, the elongate structural element often needs some sort of supporting machinery.
  • the prior art devices may be quite difficult to handle correctly and efficiently, and because of their complexity they often require highly trained staff. It is not unusual that the prior art devices require at least two people for carrying out the accessing procedure. Furthermore, the prior art devices do not only involve problems for the persons carrying out the interacting procedure, they often also involve problems for the person who is subject to the interacting procedure. Because of all the extra equipment, the procedure may be quite an unpleasant, traumatic and stressful experience.
  • One object of the present invention is to provide an arrangement and a method for interacting with an internal body organ, which are simple and inexpensive. Another object of the invention is to achieve an improved procedure for interacting which is less traumatic for the person subjected to said procedure.
  • Yet another object of the invention is to achieve an arrangement which is versatile and flexible as regards the use thereof.
  • an arrangement to be passed through a body cavity for interacting with an internal body organ comprises an elongate sheath having at least one interior passage.
  • the sheath has a proximal end and a distal end, said distal end being open and in communication with said at least one passage.
  • the arrangement further comprises at least two elongate structural elements, each structural element having a proximal end and a distal end, wherein the structural elements are inserted in said at least one passage so that at least a distal portion of each element extends therethrough in the longitudinal direction of the sheath.
  • the structural elements are arranged to be displaced relative to the sheath from a first position, in which the distal end of each structural element is located inside said at least one passage and in which the arrangement is intended to be passed through a body cavity, to a second position, in which a distal portion of each structural element extends through the open distal end of the sheath and at least partly in the transverse direction away from the sheath for distending. and/or expanding interaction between the distal end of each structural element and a body organ approached by the arrangement through a body cavity.
  • this distending and/or expanding interaction is particularly suitable for injection procedures.
  • a method for interacting with an internal body organ through a body cavity.
  • the method comprises the steps of : providing an elongate tubular sheath having at least one interior passage, said sheath having a proximal end and a distal end, said distal end being open and in communication with said at least one passage; introducing at least two elongate structural elements in said at least one passage so that at least a distal portion of each element extends through said at least one passage in the longitudinal direction of the sheath, each structural element having a distal end and a proximal end, and so that the distal end of each structural element is located inside said at least one passage; inserting the sheath and the structural elements into the body cavity; displacing the structural elements relative to the sheath through said open distal end of the sheath so as to expose the distal ends of each structural element; and bringing the distal end of each structural element in the transverse direction of and away from the sheath so that the distal end of
  • the invention is thus based on the understanding that it is possible to interact efficiently with an internal body organ even with a limited number of supplemental aids.
  • the invention is further based on the insight that the organ may be effectively protected from unnecessary stress by limiting the radial extension of the elongate structural elements during their advancement through the body cavity to the internal organ.
  • organ may be interpreted as the organ per se, as well as an organ cavity or body cavity.
  • body cavity may be interpreted as a natural cavity of the body, as well as cavity produced artificially, e.g. by means of a surgical instruments.
  • distal and proximal are from an operator point of view and not from a patient point of view.
  • An advantageous feature of the present invention is that that portion of each structural element which extends through the open distal end of the sheath is beyond the sheath, i.e. the structural elements protrude through an imagined end surface of the sheath. This means that the distal ends of each structural element can, freely and undisturbed by the sheath, interact with a body organ so as to distend and/or expand it.
  • each elongate structural element can be inserted and passed through a respective sheath passage or channel to the distal end of the sheath for achieving the distending and/or expanding effect.
  • a simpler construction is a tubular sheath having a lumen or bore, wherein the elongate structural elements are inserted in one and the same "passage" .
  • the tubular sheath effectively protects the body organ and any other tissue passed by the elongate structural elements when introduced in the sheath, and also serves as a limiter or restrictor for the structural elements by keeping their ends from deviating sideways.
  • the distal ends of the elongate structural elements are displaced relative to the sheath and extend through the opening thereof, said distal ends are allowed to deflect radially so as to interact with the organ.
  • the elongate structural elements exit the sheath to interact with the body organ, they all extend through the open tip or distal end of the sheath. That is, they all extend through, preferably, one and the same opening, which has a relatively large diameter compared to the diameter of each individual elongate structural element.
  • the sheath has suitably such a small diameter as permitted by the thickness of the elongate structural elements, in order to keep the transverse dimension of the arrangement small.
  • the opening is, preferably, only defined by the wall of the sheath.
  • An arrangement according to the present invention comprises at least two elongate structural elements. Depending on the specific application the number may vary. For instance, in some cases 12 structural elements may conveniently be used, in others it may be preferable to use less, such as four.
  • the extension of the structural elements through the open distal end of the sheath and in the transverse direction away from the sheath means that the mutual distance between the distal ends of the structural elements is enabled to be larger in the spread second position, than in the cased first position inside the sheath.
  • the elongate structural elements are preferably arranged to be angularly deflected in an outward radial direction into said second position. In said second position they are preferably circumferentially spaced.
  • One way to achieve such an angular deflection is to arrange the sheath for reception of the elongate structural elements from the side of the sheath wall through lateral apertures into the lumen, as will later be described in more detail .
  • the structural elements will be forced to bend inside the sheath and thus become biased, striving for outward radial deflection.
  • Another way is to use "naturally" biased elongate structural elements, which are advanced from the proximal end of the sheath, e.g.
  • a third option is to have the proximal ends of the elongate structural elements connected to a rotating head, wherein the distal ends of the elongate structural elements can be caused to a radial change of position by rotating the head.
  • the sheath wall is provided with at least one lateral aperture in communication with said lumen, for allowing introduction of said elongate structural elements into the lumen of the sheath.
  • the elongate structural elements are introduced in the sheath from the side. Because of this lateral introduction and the small diameter of the sheath, the elongate structural elements will be somewhat bent as they are bounded or restricted by the sheath wall. Consequently, they are mechanically biased or pre-tensioned, and as a distal end of an elongate structural element exits the opening at the tip or distal end of the sheath, it will deflect or spring out radially.
  • the lateral apertures are slot-shaped with a transverse dimension substantially corresponding to the transverse dimension of the structural element to be introduced.
  • the cross section of the structural elements is suitably essentially circular, in which case the width of each aperture substantially corresponds to the diameter of the respective structural element.
  • the extension of a slot-shaped aperture would generally be in the axial direction of the sheath wall.
  • One advantage of such an aperture is that it functions well as a means of guiding for a structural element .
  • Another advantage is that it contributes in defining the limits for the displacement of the sheath. If the elongate structural elements are kept in a fixed position, the sheath can only be moved a distance that is equal to the length of the slot.
  • the sheath will be prevented from being further displaced in that direction.
  • the lateral apertures, preferably slots are in one advantageous embodiment evenly spaced around the circumference of the sheath wall. This, together with other dimensional • features of the present invention, has the effect that the elongate structural elements will be received crossed in the lumen. When the sheath releases the structural elements through its open distal end, the structural elements will come out intersecting, i.e. crossing, each other. Thus, in such an embodiment the structural elements will extend "diagonally" and essentially cut across the central longitudinal axis of the sheath.
  • the aperture preferably a slot, also serves as a stop for the elongate structural element, which will abut against the distal end of the slot when the distal end of the structural element is in said second position outside the sheath.
  • the sheath has a tubular shape, it may have alternative cross sections. Thus, it does not necessarily have to be circular, but can be adapted in accordance with the desired application.
  • the sheath may have an elliptical cross section for elliptical spaces, such as the vocal cords.
  • the cross section can be varied along the extension of the sheath.
  • the arrangement is preferably provided with a sheath holder. As the name reveals, it functions to hold the sheath. Apart from that, it will preferably also function to guide the sheath in the longitudinal centre axis direction of the sheath.
  • the elongate structural elements may be kept in a fixed position while the sheath is retracted, thereby exposing the structural elements and allowing a deflection similar to that of the opening of an umbrella.
  • the means for holding and guiding the sheath is suitably a hole in the sheath holder.
  • the hole- conveniently has a transverse dimension which substantially corresponds to the transverse dimension of the sheath, wherein at least a partial extension of the
  • SD SD rt TJ s - SD SD CQ rt 01 rr ⁇ H- oi tr tr tr SD CQ y CQ ⁇ CQ rt H3 0 rt CQ H tr 01
  • the channels of the sheath holder may be given an angle of inclination relative the centre longitudinal axis of the tubular sheath that is chosen in accordance with the particular body organ to be accessed.
  • the structural elements can be arranged at different angles of inclination from one time to another. This is practical when the invention is used as a reusable product. The arrangement may naturally be in either the form of a disposable or a reusable product.
  • the angles of the structural elements may, e.g., be adjusted by means of a screwing arrangement .
  • the channels are suitably located radially externally of the hole for guiding the sheath, and are preferably evenly spaced. However, unevenly spaced channels or asymmetrical configurations are also possible .
  • the sheath holder may of course have many alternative shapes. Suitably, it is designed to form some sort of handle for facilitating gripping and the subsequent manipulation of the arrangement components .
  • the present invention has been found very advantageous in connection with injection procedures. Cosmetic and therapeutic treatments are often carried out by injecting an agent or a substance into an organ or tissue, by means of elongate injection needles.
  • the invention could be used for injections into different, often narrow, areas such as the urethra, the rectum, some arteries and veins, the oesophagus, the external meatus of the ear, the nasal meatuses, the uterus, the vocal cords, some joints, under the skin, etc.
  • the present invention is particularly well suited for treatment of urine incontinence.
  • a treatment includes the steps of distally advancing the sheath until fluid, i.e. urine in this case, is detected.
  • the distal ends of the injection needles elongate structural elements
  • the sheath, and suitably the injection needles may be partially retracted if' necessary so that the distal end or the tip of the sheath is aligned with the leakage location of the bladder-neck.
  • the injection needles are exposed, preferably by having retracted the sheath alone, allowing the distal ends of the injection needles to deviate sideways so as to get into contact with the body tissue.
  • the needles will thus press radially against the tissue surface to be accessed with a force which, inter alia, is determined by 1) the properties of the needles, 2) the distance that the sheath has been retracted, and 3) the angle of the needles in the sheath holder.
  • a wide urethra may require a larger force, while a narrow urethra needs some caution and a smaller force.
  • the body tissue will be distended, thereby facilitating the actual injection.
  • the injection is preferably performed by doing a single reciprocating motion back and forth with each injection needle.
  • the length of such a motion should be small, and just large enough for the needles to penetrate to the correct tissue depth. This depth may depend on the condition of the mucous member and the therapeutic purpose of the procedure.
  • a great advantage of the present invention is that multiple injections may be carried out simultaneously at different tissue points. After such an injection, a new multiple injection may be performed by moving the needles. This is preferably achieved by covering the needles with the sheath, displacing the whole assembly to LJ ⁇ t to ⁇ > ⁇ >
  • Another advantage of the present invention is that, due to the relatively uncomplicated configuration, the arrangement provides excellent transmission of force, as regards the action of the elongate structural elements . This is particularly useful for distending and/or expanding body tissue as previously described.
  • the elongate structural elements used in the present invention are preferably self-springing or resilient, and at least a portion thereof has a certain degree of flexibility. This is particularly suitable in the embodiment with injection needles.
  • the sheath and the sheath holder of the present invention are suitably manufactured by injection moulding of for example plastic material, such as polypropylene, polyethylene or any other material which serves the purpose of the invention.
  • plastic material such as polypropylene, polyethylene or any other material which serves the purpose of the invention.
  • the material should be shape permanent and the sheath material should permit sterilisation, e.g. by means of autoclave or radiation treatment . It should be obvious from the foregoing that the present invention provides a simple and inexpensive product which is manageable by one person.
  • Figs. 2a and 2b illustrate schematically an arrangement according to the present invention, in a preferred application.
  • Figs. 3a-3c illustrate schematically a sheath for use in an arrangement or method according to the present invention.
  • Figs. 4a-4c illustrate schematically a sheath holder for use in an arrangement or method according to the present invention.
  • Fig. 5 illustrate schematically an example of a possible cross ' section of a sheath according to the ' present invention.
  • Fig. 6 illustrates schematically an alternative embodiment of an arrangement according to the present invention.
  • Figs, la and lb show schematically the principle of the present invention. Accordingly, in Fig. la an arrangement 1 to be passed through a body cavity for interacting with an internal body organ is shown.
  • the arrangement 1 comprises a tubular sheath 3, which has a geometrical central longitudinal axis 5 and a wall 7.
  • the wall 7 defines an interior lumen 9.
  • the sheath 3 has a proximal end 11 and a distal end 13, said distal end 13 being open.
  • the arrangement also comprises two elongate structural elements 15 having a generally circular cross section taken perpendicularly to the longitudinal elongation of the structural elements 15.
  • Each structural element 15 has a proximal end 17 and a distal end 19.
  • the structural elements 15 are received by the sheath 3 into the lumen 9 through elongate lateral apertures (not shown) in the wall 7, the apertures extending in the longitudinal direction of the wall 7.
  • elongate lateral apertures (not shown) in the wall 7, the apertures extending in the longitudinal direction of the wall 7.
  • Fig. la more than half the length of each structural element 15 is covered by the sheath 3. While the proximal end 17 of each structural element 15 is still free, the distal end 19 thereof is hidden inside the sheath 3 and is located near the open distal end 13 of the sheath 3.
  • the elongate structural elements 15 cross each other.
  • the sheath 3 has been displaced relative to the elongate structural elements 15, e.g. by retracting the sheath 3 proximally in the direction of LO LO to t ⁇ >
  • a sheath holder 37 is also provided.
  • the sheath holder 37 has a central hole 39, through which the sheath 29 extends.
  • the hole 39 allows the sheath 29 to be advanced and retracted in the longitudinal direction of the sheath 29.
  • the sheath holder 37 is also provided with two channels (not shown) for guiding the respective injection needle 31 in a direction toward the geometrical central longitudinal ' axis of the sheath 29.
  • the injecting procedure is thus started by entering the sheath 29, together with the injection needles 31, into the urethra 23 and advancing them towards the urinary bladder 25.
  • the injection needles 31 are during this advancement kept in an enclosed position, corresponding to that shown in Fig. la, inside the sheath 29.
  • urine begins to drip or flow through the lumen of the sheath 29 and is detected at the proximal end of the sheath 29.
  • the sheath 29 is retracted proximally to the position shown in Fig. 2b.
  • the injection needles 31 are thereby uncovered and, due to their biased state, they will strive to deflect radially away from the central longitudinal axis of the sheath 29.
  • the needles 31 will get into touch with the mucous member of the functional sphincter 27 and because of their inherent outwardly directed radial force, they will smooth out and distend the mucous member. This is shown in Fig. 2b. Because the mucous member has been smoothened out it can now easily be penetrated by the needles 31.
  • the needles 31 are slightly retracted so as to get an angle of penetration and are then driven forward into the body tissue, after which the bulking agent is injected by means of the needles 31.
  • the needles 31 are provided with some sort of conventional injection mechanism 41. Afterwards, by pushing the sheath 29 forward distally, the needles 31 will yet again be covered and can be taken out of the body cavity without damaging the tissue. Alternatively, the sheath 29 and the shielded needles 31 are moved a short distance to a new injection site.
  • the arrangement 21 is suitably assembled by first driving the sheath 29 through the hole 39 of the sheath holder 37. Then the injection needles 31 are driven through the channels of the sheath holder 37 and caused to enter the lumen of the sheath 29 through the lateral apertures .
  • the needles are preferably symmetrically arranged and evenly spaced, however they may have asymmetrical configurations as well, as long as the mucous member is adequately distended and the needles access the accurate injection site.
  • the needles 31 are essentially in a fixed position relative to the sheath holder 37. In other words the needles 31 are essentially immovable in the longitudinal direction as . the sheath 29 is retracted. However, they are subject to a distinct radial or angular motion.
  • each needle 31 is in a way "fixed" to the respective aperture.
  • said spot essentially abuts the proximal end of the aperture
  • said spot in the second position said spot essentially, abuts the distal end of the aperture-.
  • Figs. 3a-3c illustrate schematically a sheath 51 for use in an arrangement or method according to the present invention. Note that the different figures are not true to scale in relation to each other.
  • Fig. 3a is a side view of the tubular sheath 51, which has a wall 53 defining an interior lumen 55.
  • the sheath 51 has an open proximal end 57 and an open distal end 59.
  • the sheath 51 has an approximate length of 120 mm.
  • the wall 53 is provided with four apertures 61 (one shown) symmetrical spaced round the circumference of the wall 53.
  • Each aperture 61 has the shape of an elongate slot which extends in parallel with the geometrical longitudinal axis 63 of the sheath 51, from about 9 mm of the distal end 59 to about 46 mm from the proximal end 57 of the sheath 51.
  • the width of each aperture 61 should correspond to the diameter of an elongate structural element to be inserted. In the shown embodiment the width is about 1.2 mm.
  • Fig. 3b is a cross section of the sheath 51 taken along the central longitudinal axis 63 thereof, indicated by section B-B.
  • the sheath 51 in this figure is shown with a middle portion cut away for the sake of clarity.
  • the diameter of the sheath 51 is not constant.
  • the diameter is 6.0 mm from the distal end 59 and all the way to about 91.2 mm proximally of the distal end 59. After that there is an increased diameter of 6.3 mm for about 26 mm, and the last 2 mm, serving as a gripping means 65 with rounded out periphery, has a diameter of 10 mm.
  • the sheath holder (shown in Figs. 4a-4c) has a hole for receiving the sheath 51. For a sheath 51 according to Figs. 3a-3c, the hole of a matching sheath holder has a diameter of about
  • the sheath 51 is prevented from being retracted to far, since the proximal surface of the barbs 69 will abut against the sheath holder.
  • the mobility of the sheath 51 is further limited by the length of the slot-shaped apertures 61 (two shown in Fig. 2b) .
  • the length of the apertures 61 sets the practical sliding range of the sheath 51, since each inserted elongate structural element will come into contact with the ends 62, 64 of the respective aperture 61.
  • Fig. 3b also shows that the lumen 55 of the sheath 51 is continuous, like a through hole or through bore. Since the lumen 55 extends from the open distal end 59 to the open proximal end 57 of the sheath 51, excellent fluid communication possibilities are enabled. This is particularly advantageous for detecting urine, as has previously been described.
  • the lumen 55 has a diameter of approximately 4 mm.
  • Fig. 3c is a cross sectional view looking in the longitudinal direction of the sheath 51, taken along line C-C.
  • a geometrical x-axis and a geometrical y-axis has been added in the figure.
  • the four apertures 61 are clearly distinguished.
  • each aperture 61 has a first side 61a extending radially which is centred, i.e. aligned along the x-axis and y-axis, respectively.
  • Each aperture also have a second side 61b in parallel with and opposed to the first side 61a.
  • the second side 61b is placed left of the first side 61a when seen from the centre of the lumen. This has the effect that the apertures 61 will be somewhat offset from the x-axis and y-axis, respectively. Since no two apertures 61 are LJ co CO to ⁇ > ⁇ >
  • Fig. 4b is a cross section taken centrally along the length of the sheath holder 71, indicated by B-B. The figure shows that the sheath holder 71 has a curved handle portion 73 for facilitating gripping.
  • Fig. 5 illustrates schematically an example of a possible alternative cross section of a sheath according to the present invention.
  • the cross sections is taken transversely of the sheath, i.e. perpendicularly to the longitudinal axis thereof, similarly to Fig. 3c.
  • the previously discussed Fig. 3c illustrates a standard circular cross section of a tubular sheath, which e.g. is suitable for use in cavities, such as the urethra, having similar cross section.
  • the cross section preferably being chosen in accordance with the specific application.
  • Fig. 6 illustrates schematically an alternative embodiment of an arrangement 91 according to the present invention.
  • the structural elements 93 in this embodiment extend generally in parallel with each other.
  • the elongate structural elements 93 are inserted through apertures (not shown) in the proximal end 97 of the sheath 95, instead of through lateral apertures, and do therefore not cross each other. However, they could be arranged to cross each other.
  • a large distal part of each structural element 93 is somewhat curved. As each structural element is inserted with the distal end 93a curving away from the central longitudinal axis of the sheath, the distal end
  • each structural element 93a will be pressed against the sheath wall, wherein each structural element 93 will become biased, striving to ⁇ > ⁇ >

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Surgery (AREA)
  • Veterinary Medicine (AREA)
  • General Health & Medical Sciences (AREA)
  • Biomedical Technology (AREA)
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  • Engineering & Computer Science (AREA)
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  • Medical Informatics (AREA)
  • Molecular Biology (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Anesthesiology (AREA)
  • Hematology (AREA)
  • Prostheses (AREA)
  • Surgical Instruments (AREA)
  • Processes Of Treating Macromolecular Substances (AREA)
  • Transition And Organic Metals Composition Catalysts For Addition Polymerization (AREA)
  • Absorbent Articles And Supports Therefor (AREA)
  • Media Introduction/Drainage Providing Device (AREA)
  • Medicines Containing Material From Animals Or Micro-Organisms (AREA)
  • Materials For Medical Uses (AREA)
  • Control And Other Processes For Unpacking Of Materials (AREA)
  • Fish Paste Products (AREA)
  • Infusion, Injection, And Reservoir Apparatuses (AREA)
  • Manipulator (AREA)
  • Superconductors And Manufacturing Methods Therefor (AREA)
  • Pharmaceuticals Containing Other Organic And Inorganic Compounds (AREA)
  • Medicines Containing Antibodies Or Antigens For Use As Internal Diagnostic Agents (AREA)
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  • Farming Of Fish And Shellfish (AREA)
  • External Artificial Organs (AREA)

Abstract

The present invention relates to an arrangement and a method for interacting with an internal body organ. The arrangement comprises a sheath in which at least two elongate structural elements are inserted. The structural elements each have a proximal end and a distal end. The sheath has a proximal end and a distal end, said distal end being open. When the structural elements are displaced relative to the sheath they extend through the open distal end of the sheath and at least partly in the transverse direction away from the sheath for distending and/or expanding interaction between the distal end of each structural element and a body organ.

Description

AN ARRANGEMENT AND A METHOD FOR INTERACTING WITH AN
INTERNAL BODY ORGAN
Technical Field
The present invention relates to an arrangement to be passed through, a body cavity for interacting with an internal body organ and a method for interacting with an internal body organ.
Technical Background
In the wide field of medicine it is often of great importance for a surgeon to be able to interact with a human organ through a body cavity. The reasons for interacting with the organ may be to inject an agent into the organ, to manipulate the organ, to obtain information related to the organ by sampling, by viewing it, or by other means of sensing, etc.
The organ or the tissue to be accessed is often located in a narrow space which is difficult to reach. If, additionally, the organ is located deep inside the human body, special tools or pieces of equipment are required. Because of these access limiting conditions, it is often preferred to use an elongate structural element for interacting with the organ.
However, in order to accurately interact with the organ, different types of supplemental aid are used in the prior art. These supplemental aids are often complex and expensive. They may involve identification of anatomic points by means of special complex machinery. Furthermore, the elongate structural element often needs some sort of supporting machinery. The prior art devices may be quite difficult to handle correctly and efficiently, and because of their complexity they often require highly trained staff. It is not unusual that the prior art devices require at least two people for carrying out the accessing procedure. Furthermore, the prior art devices do not only involve problems for the persons carrying out the interacting procedure, they often also involve problems for the person who is subject to the interacting procedure. Because of all the extra equipment, the procedure may be quite an unpleasant, traumatic and stressful experience.
Summary of the Invention
One object of the present invention is to provide an arrangement and a method for interacting with an internal body organ, which are simple and inexpensive. Another object of the invention is to achieve an improved procedure for interacting which is less traumatic for the person subjected to said procedure.
Yet another object of the invention is to achieve an arrangement which is versatile and flexible as regards the use thereof.
These and other objects which will become apparent in the following are achieved by means of an arrangement and a method having the features stated in the appended claims . Thus, according to one aspect of the present invention an arrangement to be passed through a body cavity for interacting with an internal body organ is provided. The arrangement comprises an elongate sheath having at least one interior passage. The sheath has a proximal end and a distal end, said distal end being open and in communication with said at least one passage. The arrangement further comprises at least two elongate structural elements, each structural element having a proximal end and a distal end, wherein the structural elements are inserted in said at least one passage so that at least a distal portion of each element extends therethrough in the longitudinal direction of the sheath. The structural elements are arranged to be displaced relative to the sheath from a first position, in which the distal end of each structural element is located inside said at least one passage and in which the arrangement is intended to be passed through a body cavity, to a second position, in which a distal portion of each structural element extends through the open distal end of the sheath and at least partly in the transverse direction away from the sheath for distending. and/or expanding interaction between the distal end of each structural element and a body organ approached by the arrangement through a body cavity.
As will later be explained, this distending and/or expanding interaction is particularly suitable for injection procedures.
According to another aspect of the invention a method is provided for interacting with an internal body organ through a body cavity. The method comprises the steps of : providing an elongate tubular sheath having at least one interior passage, said sheath having a proximal end and a distal end, said distal end being open and in communication with said at least one passage; introducing at least two elongate structural elements in said at least one passage so that at least a distal portion of each element extends through said at least one passage in the longitudinal direction of the sheath, each structural element having a distal end and a proximal end, and so that the distal end of each structural element is located inside said at least one passage; inserting the sheath and the structural elements into the body cavity; displacing the structural elements relative to the sheath through said open distal end of the sheath so as to expose the distal ends of each structural element; and bringing the distal end of each structural element in the transverse direction of and away from the sheath so that the distal end of each structural element interacts with the body organ in a distending and/or expanding manner.
The invention is thus based on the understanding that it is possible to interact efficiently with an internal body organ even with a limited number of supplemental aids. The invention is further based on the insight that the organ may be effectively protected from unnecessary stress by limiting the radial extension of the elongate structural elements during their advancement through the body cavity to the internal organ. It is to be understood that in this disclosure the term "organ" may be interpreted as the organ per se, as well as an organ cavity or body cavity. It is also to be understood that in this disclosure the term "body cavity" may be interpreted as a natural cavity of the body, as well as cavity produced artificially, e.g. by means of a surgical instruments.
It should also be understood that in this disclosure the terms "distal" and "proximal" are from an operator point of view and not from a patient point of view.
An advantageous feature of the present invention is that that portion of each structural element which extends through the open distal end of the sheath is beyond the sheath, i.e. the structural elements protrude through an imagined end surface of the sheath. This means that the distal ends of each structural element can, freely and undisturbed by the sheath, interact with a body organ so as to distend and/or expand it.
The person skilled in the art realises that each elongate structural element can be inserted and passed through a respective sheath passage or channel to the distal end of the sheath for achieving the distending and/or expanding effect. However, a simpler construction is a tubular sheath having a lumen or bore, wherein the elongate structural elements are inserted in one and the same "passage" . In the following the emphasis of this description will be on such a tubular sheath having a lumen. The tubular sheath effectively protects the body organ and any other tissue passed by the elongate structural elements when introduced in the sheath, and also serves as a limiter or restrictor for the structural elements by keeping their ends from deviating sideways. As the distal ends of the elongate structural elements are displaced relative to the sheath and extend through the opening thereof, said distal ends are allowed to deflect radially so as to interact with the organ.
As has been mentioned, .when the elongate structural elements exit the sheath to interact with the body organ, they all extend through the open tip or distal end of the sheath. That is, they all extend through, preferably, one and the same opening, which has a relatively large diameter compared to the diameter of each individual elongate structural element. However, the sheath has suitably such a small diameter as permitted by the thickness of the elongate structural elements, in order to keep the transverse dimension of the arrangement small. The opening is, preferably, only defined by the wall of the sheath.
An arrangement according to the present invention comprises at least two elongate structural elements. Depending on the specific application the number may vary. For instance, in some cases 12 structural elements may conveniently be used, in others it may be preferable to use less, such as four.
The extension of the structural elements through the open distal end of the sheath and in the transverse direction away from the sheath means that the mutual distance between the distal ends of the structural elements is enabled to be larger in the spread second position, than in the cased first position inside the sheath. There are of course a number of possibilities for achieving this, wherein only a few will be disclosed hereinafter.
The elongate structural elements are preferably arranged to be angularly deflected in an outward radial direction into said second position. In said second position they are preferably circumferentially spaced. One way to achieve such an angular deflection is to arrange the sheath for reception of the elongate structural elements from the side of the sheath wall through lateral apertures into the lumen, as will later be described in more detail . The structural elements will be forced to bend inside the sheath and thus become biased, striving for outward radial deflection. Another way is to use "naturally" biased elongate structural elements, which are advanced from the proximal end of the sheath, e.g. through apertures, and distally straight through the lumen of the sheath. A third option is to have the proximal ends of the elongate structural elements connected to a rotating head, wherein the distal ends of the elongate structural elements can be caused to a radial change of position by rotating the head.
Thus, according to a preferred embodiment of the present invention, the sheath wall is provided with at least one lateral aperture in communication with said lumen, for allowing introduction of said elongate structural elements into the lumen of the sheath. Preferably, there is one aperture for each structural element to be introduced. Thus, the elongate structural elements are introduced in the sheath from the side. Because of this lateral introduction and the small diameter of the sheath, the elongate structural elements will be somewhat bent as they are bounded or restricted by the sheath wall. Consequently, they are mechanically biased or pre-tensioned, and as a distal end of an elongate structural element exits the opening at the tip or distal end of the sheath, it will deflect or spring out radially.
Suitably, the lateral apertures are slot-shaped with a transverse dimension substantially corresponding to the transverse dimension of the structural element to be introduced. The cross section of the structural elements is suitably essentially circular, in which case the width of each aperture substantially corresponds to the diameter of the respective structural element. The extension of a slot-shaped aperture would generally be in the axial direction of the sheath wall. One advantage of such an aperture is that it functions well as a means of guiding for a structural element . Another advantage is that it contributes in defining the limits for the displacement of the sheath. If the elongate structural elements are kept in a fixed position, the sheath can only be moved a distance that is equal to the length of the slot. As an elongate structural element bars against the respective ends of the slot, the sheath will be prevented from being further displaced in that direction. The lateral apertures, preferably slots, are in one advantageous embodiment evenly spaced around the circumference of the sheath wall. This, together with other dimensional • features of the present invention, has the effect that the elongate structural elements will be received crossed in the lumen. When the sheath releases the structural elements through its open distal end, the structural elements will come out intersecting, i.e. crossing, each other. Thus, in such an embodiment the structural elements will extend "diagonally" and essentially cut across the central longitudinal axis of the sheath.
The aperture, preferably a slot, also serves as a stop for the elongate structural element, which will abut against the distal end of the slot when the distal end of the structural element is in said second position outside the sheath. This means that it is possible to accurately anticipate the second position of the distal end of the elongate structure already when it is in the first position, i.e. inside the sheath. If the slot is made shorter or is partly clogged or packed, then the structural elements will be "shorter" as well, i.e. they will not extend as far distally as with a longer or an unclogged slot. It is also possible to split one slot into two slots arranged in series, one after the other. This enables, for instance, two elongate structural elements to be placed generally in parallel, one slightly above the other.
Even though the sheath has a tubular shape, it may have alternative cross sections. Thus, it does not necessarily have to be circular, but can be adapted in accordance with the desired application. For instance, the sheath may have an elliptical cross section for elliptical spaces, such as the vocal cords. Also, the cross section can be varied along the extension of the sheath. In order to, inter alia, provide stability, the arrangement is preferably provided with a sheath holder. As the name reveals, it functions to hold the sheath. Apart from that, it will preferably also function to guide the sheath in the longitudinal centre axis direction of the sheath. This enables the relative displacement of the distal ends of the structural elements from said first position to said second position, and vice versa. Accordingly, the elongate structural elements may be kept in a fixed position while the sheath is retracted, thereby exposing the structural elements and allowing a deflection similar to that of the opening of an umbrella.
The means for holding and guiding the sheath is suitably a hole in the sheath holder. The hole- conveniently has a transverse dimension which substantially corresponds to the transverse dimension of the sheath, wherein at least a partial extension of the
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are suitably inserted at a certain angle (e.g. between 8° -20°) when one wishes to access the rectum, and at another angle when one wishes to access the urethra. Similar considerations may have to be taken if the procedure is to be carried out on a child instead of on an adult. Accordingly, the channels of the sheath holder may be given an angle of inclination relative the centre longitudinal axis of the tubular sheath that is chosen in accordance with the particular body organ to be accessed. By configuring the channels with an elongate slitlike cross section or a "sliced" bore, the structural elements can be arranged at different angles of inclination from one time to another. This is practical when the invention is used as a reusable product. The arrangement may naturally be in either the form of a disposable or a reusable product. The angles of the structural elements may, e.g., be adjusted by means of a screwing arrangement .
The channels are suitably located radially externally of the hole for guiding the sheath, and are preferably evenly spaced. However, unevenly spaced channels or asymmetrical configurations are also possible .
The sheath holder may of course have many alternative shapes. Suitably, it is designed to form some sort of handle for facilitating gripping and the subsequent manipulation of the arrangement components .
The present invention has been found very advantageous in connection with injection procedures. Cosmetic and therapeutic treatments are often carried out by injecting an agent or a substance into an organ or tissue, by means of elongate injection needles. Thus, the invention could be used for injections into different, often narrow, areas such as the urethra, the rectum, some arteries and veins, the oesophagus, the external meatus of the ear, the nasal meatuses, the uterus, the vocal cords, some joints, under the skin, etc. LO L to t μ> H
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As mentioned, the present invention is particularly well suited for treatment of urine incontinence. Such a treatment includes the steps of distally advancing the sheath until fluid, i.e. urine in this case, is detected. During this advancement the distal ends of the injection needles (elongate structural elements) may be in a fixed position relative to the sheath and enclosed by the same. Upon detection of fluid the sheath, and suitably the injection needles, may be partially retracted if' necessary so that the distal end or the tip of the sheath is aligned with the leakage location of the bladder-neck. Then the injection needles are exposed, preferably by having retracted the sheath alone, allowing the distal ends of the injection needles to deviate sideways so as to get into contact with the body tissue. The needles will thus press radially against the tissue surface to be accessed with a force which, inter alia, is determined by 1) the properties of the needles, 2) the distance that the sheath has been retracted, and 3) the angle of the needles in the sheath holder. A wide urethra may require a larger force, while a narrow urethra needs some caution and a smaller force.
Since at least two injection needles are used the body tissue will be distended, thereby facilitating the actual injection. The injection is preferably performed by doing a single reciprocating motion back and forth with each injection needle. The length of such a motion should be small, and just large enough for the needles to penetrate to the correct tissue depth. This depth may depend on the condition of the mucous member and the therapeutic purpose of the procedure.
A great advantage of the present invention is that multiple injections may be carried out simultaneously at different tissue points. After such an injection, a new multiple injection may be performed by moving the needles. This is preferably achieved by covering the needles with the sheath, displacing the whole assembly to LJ ω t to μ> μ>
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Φ rt 0 - 3
SD μ- ti Φ rt <! 03 3 tr Φ 3 a rt
Φ Ω 03 ti Ω SD tr
0 O a 3
3 01 SD SD
Ω 03
0 Φ Hi ^ a TJ 0 01 Q rt ti φ φ
Φ a . ii 0 rt 01 LQ , .
Hi SD 0 μ> tr tv H it. o CQ μ- 01 μj TJ a μ-
Pi ti CQ Hi 3
01 Φ 0 Ω
SD 01 ti μj rt P. TJ a tr μ- Φ Ω φ a Ω tr Φ
3 LQ μ- Φ
3 3 μ- tr rt Φ μ- 3
SD tr a Ω Hi
Ω φ CQ SD o μ-1 ti
• φ 0 3 μj ii TJ SD o ti rt a 01 O μ-
LQ SD tr O
SD 3 μ- 3 rt TJ φ μ-1 a
LQ φ
03 o
- ii
Figure imgf000016_0001
Another advantage of the present invention is that, due to the relatively uncomplicated configuration, the arrangement provides excellent transmission of force, as regards the action of the elongate structural elements . This is particularly useful for distending and/or expanding body tissue as previously described.
The elongate structural elements used in the present invention are preferably self-springing or resilient, and at least a portion thereof has a certain degree of flexibility. This is particularly suitable in the embodiment with injection needles.
The sheath and the sheath holder of the present invention are suitably manufactured by injection moulding of for example plastic material, such as polypropylene, polyethylene or any other material which serves the purpose of the invention. The material should be shape permanent and the sheath material should permit sterilisation, e.g. by means of autoclave or radiation treatment . It should be obvious from the foregoing that the present invention provides a simple and inexpensive product which is manageable by one person.
Brief description of the drawings Figs, la and lb illustrate schematically the principle of the present invention.
Figs. 2a and 2b illustrate schematically an arrangement according to the present invention, in a preferred application. Figs. 3a-3c illustrate schematically a sheath for use in an arrangement or method according to the present invention.
Figs. 4a-4c illustrate schematically a sheath holder for use in an arrangement or method according to the present invention. Fig. 5 illustrate schematically an example of a possible cross' section of a sheath according to the' present invention.
Fig. 6 illustrates schematically an alternative embodiment of an arrangement according to the present invention.
Detailed description of the drawings
Figs, la and lb show schematically the principle of the present invention. Accordingly, in Fig. la an arrangement 1 to be passed through a body cavity for interacting with an internal body organ is shown. The arrangement 1 comprises a tubular sheath 3, which has a geometrical central longitudinal axis 5 and a wall 7. The wall 7 defines an interior lumen 9. The sheath 3 has a proximal end 11 and a distal end 13, said distal end 13 being open. The arrangement also comprises two elongate structural elements 15 having a generally circular cross section taken perpendicularly to the longitudinal elongation of the structural elements 15. Each structural element 15 has a proximal end 17 and a distal end 19. The structural elements 15 are received by the sheath 3 into the lumen 9 through elongate lateral apertures (not shown) in the wall 7, the apertures extending in the longitudinal direction of the wall 7. As can be seen in Fig. la more than half the length of each structural element 15 is covered by the sheath 3. While the proximal end 17 of each structural element 15 is still free, the distal end 19 thereof is hidden inside the sheath 3 and is located near the open distal end 13 of the sheath 3. It should also be noted that, because of the lateral insertion through the apertures and the limited diameter of the sheath 3, the elongate structural elements 15 cross each other. In Fig. lb, the sheath 3 has been displaced relative to the elongate structural elements 15, e.g. by retracting the sheath 3 proximally in the direction of LO LO to t μ>
LΠ o LΠ o en o LΠ
Ω μ- ϋ Φ μ- ti 3 Φ rt
0 Ω φ Q
03 rt Φ 3
03 tr μ- φ
3 φ <; 3 0 μ- Φ rt 3
03 01 & 03 CQ
Φ tr
Φ μ- μ> rt
Ω SD a LΠ a
0 rt α a tr rt μ- μ- tr 3 3 s: φ SD
CQ SD SD a ϋ a SD
S • 3 μ- X rt φ X μ- a φ
0 a CQ rt LΠ
0 tr TJ -
SD -• ti 0
CO o 03 ^ rt a μ- tr μ- tr LQ rt μ- a Φ tr μ- μ-. μ>
0 φ -^
<τs μ- a
Φ SD a *
CQ Φ rr φ
Φ φ ti ω TJ μ» φ μ-
SD 03 SD Ω
- TJ a
SD LQ
CO Φ 3
£ H ti rt tr rt tr tr μ- tr a φ Φ
Ω SD H tr <! φ 03 01 φ CQ φ rt μ- φ ti
03 SD . — a a a - Ω
CQ 0 rt μ- rt rt C
3 tr ti μ- 03 φ SD tr
SD 0 ti 1
Figure imgf000019_0001
particularly favourable for this illustrated application. In order to facilitate the handling of the arrangement, a sheath holder 37 is also provided. The sheath holder 37 has a central hole 39, through which the sheath 29 extends. The hole 39 allows the sheath 29 to be advanced and retracted in the longitudinal direction of the sheath 29. The sheath holder 37 is also provided with two channels (not shown) for guiding the respective injection needle 31 in a direction toward the geometrical central longitudinal' axis of the sheath 29.
The injecting procedure is thus started by entering the sheath 29, together with the injection needles 31, into the urethra 23 and advancing them towards the urinary bladder 25. The injection needles 31 are during this advancement kept in an enclosed position, corresponding to that shown in Fig. la, inside the sheath 29. When the open distal end of the sheath 29 reaches the point of leakage of the functional sphincter 27, urine begins to drip or flow through the lumen of the sheath 29 and is detected at the proximal end of the sheath 29.
This means that the arrangement 21 is already in place at the desired injection site, and no adjustment in the longitudinal direction is necessary.
Subsequently, when the urine is detected, the sheath 29 is retracted proximally to the position shown in Fig. 2b. The injection needles 31 are thereby uncovered and, due to their biased state, they will strive to deflect radially away from the central longitudinal axis of the sheath 29. The needles 31 will get into touch with the mucous member of the functional sphincter 27 and because of their inherent outwardly directed radial force, they will smooth out and distend the mucous member. This is shown in Fig. 2b. Because the mucous member has been smoothened out it can now easily be penetrated by the needles 31. The needles 31 are slightly retracted so as to get an angle of penetration and are then driven forward into the body tissue, after which the bulking agent is injected by means of the needles 31. The needles 31 are provided with some sort of conventional injection mechanism 41. Afterwards, by pushing the sheath 29 forward distally, the needles 31 will yet again be covered and can be taken out of the body cavity without damaging the tissue. Alternatively, the sheath 29 and the shielded needles 31 are moved a short distance to a new injection site.
The arrangement 21 is suitably assembled by first driving the sheath 29 through the hole 39 of the sheath holder 37. Then the injection needles 31 are driven through the channels of the sheath holder 37 and caused to enter the lumen of the sheath 29 through the lateral apertures . The needles are preferably symmetrically arranged and evenly spaced, however they may have asymmetrical configurations as well, as long as the mucous member is adequately distended and the needles access the accurate injection site. It should also be noted that in Figs. 2a and 2b the needles 31 are essentially in a fixed position relative to the sheath holder 37. In other words the needles 31 are essentially immovable in the longitudinal direction as . the sheath 29 is retracted. However, they are subject to a distinct radial or angular motion.
It should further be noted that each needle 31 is in a way "fixed" to the respective aperture. In other words, while the sheath 29 is retracted from the first shielding position to the second exposing position, it is essentially the same spot on the needle 31 that is to be found in the actual aperture. However, in the first position, said spot essentially abuts the proximal end of the aperture, and in the second position said spot essentially, abuts the distal end of the aperture-. Figs. 3a-3c illustrate schematically a sheath 51 for use in an arrangement or method according to the present invention. Note that the different figures are not true to scale in relation to each other.
Fig. 3a is a side view of the tubular sheath 51, which has a wall 53 defining an interior lumen 55. The sheath 51 has an open proximal end 57 and an open distal end 59. The sheath 51 has an approximate length of 120 mm. The wall 53 is provided with four apertures 61 (one shown) symmetrical spaced round the circumference of the wall 53. Each aperture 61 has the shape of an elongate slot which extends in parallel with the geometrical longitudinal axis 63 of the sheath 51, from about 9 mm of the distal end 59 to about 46 mm from the proximal end 57 of the sheath 51. The width of each aperture 61 should correspond to the diameter of an elongate structural element to be inserted. In the shown embodiment the width is about 1.2 mm.
Fig. 3b is a cross section of the sheath 51 taken along the central longitudinal axis 63 thereof, indicated by section B-B. The sheath 51 in this figure is shown with a middle portion cut away for the sake of clarity. As can be seen from this figure, the diameter of the sheath 51 is not constant. The diameter is 6.0 mm from the distal end 59 and all the way to about 91.2 mm proximally of the distal end 59. After that there is an increased diameter of 6.3 mm for about 26 mm, and the last 2 mm, serving as a gripping means 65 with rounded out periphery, has a diameter of 10 mm. The sheath holder (shown in Figs. 4a-4c) has a hole for receiving the sheath 51. For a sheath 51 according to Figs. 3a-3c, the hole of a matching sheath holder has a diameter of about
6 mm. Thus, this allows for the distal end 59 of the sheath 51 to be inserted in the hole and the sheath 51 may be advanced. However, the slight increase from 6.0 mm to 6.3 mm is enough to prevent the sheath 51 from being advanced to far distally. Said slightly enlarged diameter of the sheath 51 thus provides an annular stop lug 67. Another stopping arrangement is provided about 19 mm from the distal end 59 of the sheath 51. It comprises two barbs 69, preferably somewhat flexible, which allow the sheath 51 to be advanced through the hole of the sheath holder. Once the barbs 69 have been passed through the hole, the sheath 51 is prevented from being retracted to far, since the proximal surface of the barbs 69 will abut against the sheath holder. Apart from these physical stops, i.e. the annular stop lug 67 and the distal barbs 69, the mobility of the sheath 51 is further limited by the length of the slot-shaped apertures 61 (two shown in Fig. 2b) . The length of the apertures 61 sets the practical sliding range of the sheath 51, since each inserted elongate structural element will come into contact with the ends 62, 64 of the respective aperture 61.
Fig. 3b also shows that the lumen 55 of the sheath 51 is continuous, like a through hole or through bore. Since the lumen 55 extends from the open distal end 59 to the open proximal end 57 of the sheath 51, excellent fluid communication possibilities are enabled. This is particularly advantageous for detecting urine, as has previously been described. The lumen 55 has a diameter of approximately 4 mm.
Fig. 3c is a cross sectional view looking in the longitudinal direction of the sheath 51, taken along line C-C. For the sake of understanding a geometrical x-axis and a geometrical y-axis has been added in the figure. In this figure the four apertures 61 are clearly distinguished. As can be seen, each aperture 61 has a first side 61a extending radially which is centred, i.e. aligned along the x-axis and y-axis, respectively. Each aperture also have a second side 61b in parallel with and opposed to the first side 61a. The second side 61b is placed left of the first side 61a when seen from the centre of the lumen. This has the effect that the apertures 61 will be somewhat offset from the x-axis and y-axis, respectively. Since no two apertures 61 are LJ co CO to μ> μ>
LΠ o LΠ o LΠ o LΠ
Figure imgf000024_0001
do not have to be symmetrically arranged around the hole 77.
Fig. 4b is a cross section taken centrally along the length of the sheath holder 71, indicated by B-B. The figure shows that the sheath holder 71 has a curved handle portion 73 for facilitating gripping.
Fig. 5 illustrates schematically an example of a possible alternative cross section of a sheath according to the present invention. The cross sections is taken transversely of the sheath, i.e. perpendicularly to the longitudinal axis thereof, similarly to Fig. 3c. The previously discussed Fig. 3c illustrates a standard circular cross section of a tubular sheath, which e.g. is suitable for use in cavities, such as the urethra, having similar cross section. Fig. 5, however, illustrates an elliptical cross section of a tubular sheath. This would for instance be suitable for accessing the vocal cords, or other similarly shaped space. There are of course a great number of other possible alternatives, the cross section preferably being chosen in accordance with the specific application.
Fig. 6 illustrates schematically an alternative embodiment of an arrangement 91 according to the present invention. Instead of the previously shown crosswise configuration of the elongate structural elements, the structural elements 93, in this embodiment extend generally in parallel with each other. The elongate structural elements 93 are inserted through apertures (not shown) in the proximal end 97 of the sheath 95, instead of through lateral apertures, and do therefore not cross each other. However, they could be arranged to cross each other. A large distal part of each structural element 93 is somewhat curved. As each structural element is inserted with the distal end 93a curving away from the central longitudinal axis of the sheath, the distal end
93a will be pressed against the sheath wall, wherein each structural element 93 will become biased, striving to μ> μ>
LΠ o CJl
Figure imgf000026_0001

Claims

Claims
1. An arrangement to be passed through a body cavity for interacting with an internal body organ, comprising: an elongate sheath having at least one interior passage, said sheath having a proximal end and a distal end, said distal end being open and in communication with said at least one passage; and at least two elongate structural elements, each structural element having a proximal end and a distal end; wherein the structural elements are inserted in said at least one passage so that at least a distal portion of each element extends therethrough in the longitudinal direction of the sheath; wherein the structural elements are arranged to be displaced relative to the sheath from a first position, in which the distal end of each structural element is located inside said at least one passage and in which the arrangement is intended to be passed through a body cavity, to a second position, in which a distal portion of each structural element extends through the open distal end of the sheath and at least partly in the transverse direction away from the sheath for distending and/or expanding interaction between the distal end of each structural element and a body organ approached by the arrangement through a body cavity.
2. The arrangement as claimed in claim 1, wherein the sheath is tubular and has a lumen as said at least one passage.
3. The arrangement as claimed in any one of claims 1 - 2, wherein each elongate structural element is tubular, preferably in the form of a cannula, especially an injection needle for injecting a substance into said body organ.
4. The arrangement as claimed in any one of claims 1
- 3, wherein said elongate structural elements are mechanically biased in said first position and strive to deflect past the circumference of the sheath in the transverse direction thereof so that the structural elements reach said second position when being displaced relative the sheath through the open distal end thereof.
5. The arrangement as claimed in any one of claims 1
- 4, wherein, in said second position, the distal end of each structural element is located beyond the transverse extent of the sheath.
6. The arrangement as claimed in any one of claims 1
- 5, wherein, in said first position, the sheath is arranged to be proximally retracted relative to the structural elements so that they will have said second position.
7. The arrangement as claimed in any one of claims 1
- 6, wherein said sheath is provided with at least one lateral aperture through which said elongate structural elements are inserted into said at least one passage, there being preferably one aperture for each structural element .
8. The arrangement as claimed in claim 7, wherein said at least one lateral aperture is shaped as a slot extending generally in the longitudinal direction of the sheath, wherein the transverse dimension of said slot essentially corresponds to the transverse dimension of a structural element inserted therethrough so that the structural element can be displaced along the length of the slot.
9. The arrangement as claimed in claim 8, wherein the structural element abuts against the distal end of the slot when the structural element is in said second position.
10. The arrangement as claimed in any one of claims 7 - 9, wherein a plurality of lateral apertures are circumferentially spaced round the sheath, and wherein at least two of the elongate structural elements, being received through different apertures, intersect each other crosswise in said at least one passage.
11. The arrangement as claimed in any one of claims 1 - 10, wherein the proximal end of the sheath is open and said at least one passage extends between the proximal end and the distal end of the sheath, thereby allowing fluid communication between the two ends via said at least one passage.
12. The arrangement as claimed in any one of claims 1 - 11, wherein the transverse dimension of said at least one passage essentially corresponds to the total transverse dimension of the inserted structural elements.
13. The arrangement as claimed in any one of claims
1 - 12, further comprising a sheath holder for holding and guiding the sheath in the longitudinal direction of the sheath.
14. The arrangement as claimed in claim 13, wherein said sheath holder has a hole having a transverse dimension which substantially corresponds to the transverse dimension of the sheath, wherein said sheath is allowed to be at least partially passed through said hole.
15. The arrangement as claimed in any one of claims 13 - 14, wherein a proximal stop is provided on the outside of the sheath, at a proximal portion thereof, for interaction with the sheath holder so as to limit distal advancement of the sheath relative to the sheath holder.
16. The arrangement as claimed in any one of claims 13 - 15, wherein stopping means is provided on the outside of the sheath, preferably at a distal portion thereof, for interaction with the sheath holder so as to limit proximal retraction of the sheath relative to the sheath holder.
17. The arrangement as claimed in any one of claims 13 - 16, wherein said sheath holder is further arranged to guide and align said elongate structural elements in a direction towards said at least one passage.
18. The arrangement as claimed in claim 17, wherein said sheath holder has a channel for each structural element, the transverse dimension of each channel essentially corresponding to the transverse dimension of the structural element inserted in said channel, wherein each structural element extends at least from said channel, through said aperture in the sheath, and into said at least one passage.
19. The arrangement as claimed in claim 18, wherein said channels are located radially externally to said hole and extend generally in the longitudinal direction of the sheath, said channels being preferably evenly spaced.
20. The arrangement as claimed in any one of claims 18 - 19, wherein the channels are straight and have an angle of inclination relative to the longitudinal direction of the sheath, such that the channels converge distally, wherein said angle preferably is chosen in accordance with the particular body organ to be accessed, preferably 8°- 20°.
21. The arrangement as claimed in any one of claims 18 - 20, wherein the channels have an elongate slit-like cross section perpendicular to the longitudinal direction of the sheath allowing the structural elements to be arranged with different angles of inclination.
22. The arrangement as claimed in any one of claims 17 - 21, wherein the sheath holder is arranged for keeping the elongate structural elements unmoved relative to the sheath holder, when the sheath is retracted relative to the sheath holder.
23. The arrangement as claimed in any one of claims 1 - 22, wherein at least a portion of each elongate structural element is flexible.
24. The arrangement as claimed in any one of claims 1 - 23, wherein the elongate structural elements are circumferentially distributed, preferably evenly spaced, in relation to the sheath, the number of the structural elements preferably being 2-12, more preferably 3-8, especially 4.
25. The arrangement as claimed in any one of claims 1 - 24, wherein at least one of said elongate structural elements includes information transfer means, such as a sensor for chemical probing or a light guide, or sampling means .
26. A method for interacting with an internal body organ through a body cavity, comprising the steps of: providing an elongate tubular sheath having at least one interior passage, said sheath having a proximal end and a distal end, said distal end being open and in communication with said at least one passage; introducing at least two elongate structural elements in said at least one passage so that at least a distal portion of each element extends through said at least one passage in the longitudinal direction of the sheath, each structural element having a distal end and a proximal end, and so that the distal end of each structural element is located inside said at least one passage; inserting the sheath and the structural elements into the body cavity; displacing the structural elements relative to the sheath through said open distal end of the sheath so as to expose the distal ends of each structural element; and bringing the distal end of each structural element in the transverse direction of and away from the sheath so that the distal end of each structural element interacts with the body organ in a distending and/or expanding manner.
27. The method as claimed in claim 26, wherein a tubular sheath is used having a lumen as said at least one passage.
28. The method as claimed in any one of claims 26 -
27, wherein tubular elongate structural elements are used, preferably in the form of a cannula, especially an injection needle for injecting a substance into said body organ.
29. The method as claimed in any one of claims 26 -
28, wherein said elongate structural elements are brought to a mechanically biased state when the distal ends are inside said lumen so that they strive to deflect past the circumference of the sheath in the transverse direction thereof, wherein a deflection follows automatically after the exposure of the distal ends of the structural elements as they are displaced through the opening.
30. The method as claimed in any one of claims 26 - 29, wherein said step of relatively displacing includes proximally retracting the sheath so as to expose the distal ends of the structural elements.
31. The method as claimed in any one of claims 26 - 30, wherein said step of inserting includes distally advancing the sheath and the structural elements until fluid, entering said at least one passage through the open distal end of the sheath from said body cavity, is detected.
32. The method as claimed in claim 31, wherein the fluid is detected at the proximal end of the sheath, said proximal end being open and in communication with said at leas one passage.
33. The method as claimed in any one of claims 26 -
32, wherein said distending and/or expanding is followed by a step of injecting a medical agent through said elongate structural elements into the body organ, preferably after performing a reciprocating motion back and forth with the elongate structural elements.
34. The method as claimed in any one of claims 26 -
33, wherein said elongate structural elements are introduced laterally into said at least one passage.
35. The method as claimed in claim 34, wherein said elongate structural elements are circumferentially distributed, preferably evenly spaced, in relation to the sheath so that the introduced elongate structural elements intersect, i.e. cross, each other, in said at least one passage.
36. An elongate tubular sheath for use in an arrangement or a method as claimed in any one of claims 1 - 35, said sheath having: a wall defining an interior lumen; at least one aperture in the wall, for allowing elongate structural elements to be inserted in said lumen so that at least a distal portion of each element extends through the lumen in the longitudinal direction of the sheath; and an open distal end in communication with said lumen for allowing the distal end of each structural element to protrude therethrough.
37. The sheath as claimed in claim 36, wherein said at least one aperture is laterally located in the wall, said aperture being shaped as a slot extending generally in the longitudinal direction of the sheath, the transverse dimension of said slot essentially corresponding to the transverse dimension of the structural element to be introduced.
38. The sheath as claimed in any one of claims 36 - 37, wherein the sheath has an open proximal end in communication with said lumen.
39. Use of an arrangement as claimed in any one of claims 1 - 25 for injecting a substance into the tissue of an internal body organ, such as the urethra, the functional sphincter, the rectum or the uterus.
PCT/SE2001/001538 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ WO2002009802A1 (en)

Priority Applications (21)

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UA2003010622A UA76423C2 (en) 2000-07-27 2001-04-07 Arrangement and method for interacting with internal body organ and elongated sheath
CA002415091A CA2415091C (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
EA200300192A EA004013B1 (en) 2000-07-27 2001-07-04 An arrangement and method for interacting with an internal body organ
HU0300752A HUP0300752A2 (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
SK92-2003A SK922003A3 (en) 2000-07-27 2001-07-04 Device for interacting with an internal body organ, a method for interacting with an internal body organ through a body cavity and extended tubular sheath
DE60119528T DE60119528T2 (en) 2000-07-27 2001-07-04 Arrangement and method for interaction with an internal body organ
KR10-2003-7001145A KR100498154B1 (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
PL01365111A PL365111A1 (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
BR0112762-4A BR0112762A (en) 2000-07-27 2001-07-04 Arrangement to be passed through a body cavity to interact with an internal body organ, pope method to interact with an internal body organ through a body cavity, elongated tubular sheath for use in an arrangement or method, and, use of an arrangement
NZ523677A NZ523677A (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
AU6799501A AU6799501A (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
US10/312,673 US7156837B2 (en) 2000-07-27 2001-07-04 Arrangement and a method for interacting with an internal body organ
JP2002515353A JP3863107B2 (en) 2000-07-27 2001-07-04 Device acting on internal organs and annular sheath used for the device
IL15406201A IL154062A0 (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
EP01945886A EP1303330B1 (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
MXPA03000684A MXPA03000684A (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ.
AU2001267995A AU2001267995C1 (en) 2000-07-27 2001-07-04 An arrangement and a method for interacting with an internal body organ
IL154062A IL154062A (en) 2000-07-27 2003-01-20 An arrangement and method for interacting with an internal body organ
NO20030377A NO20030377L (en) 2000-07-27 2003-01-24 Apparatus and method for manipulating an internal body organ
HK04100295A HK1057496A1 (en) 2000-07-27 2004-01-15 An arrangement and method for interacting with an internal body organ
CY20061101116T CY1105132T1 (en) 2000-07-27 2006-08-09 ARRANGEMENT AND METHOD FOR INTERVENTION ON AN INTERSITE BODY ORGAN

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PL365111A1 (en) 2004-12-27
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ATE325635T1 (en) 2006-06-15
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AU6799501A (en) 2002-02-13
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ZA200300515B (en) 2004-03-02
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AU2001267995C1 (en) 2006-03-16
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CN1264580C (en) 2006-07-19
CY1105132T1 (en) 2010-03-03
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