Source: http://www.google.com/patents/US20040193114?dq=5,646,839
Timestamp: 2015-05-04 17:57:30
Document Index: 628373039

Matched Legal Cases: ['arts 22', 'arts 22', 'arts 22', 'arts 32', 'arts 22', 'arts 30', 'arts 30', 'art 34', 'art 30', 'arts 30', 'arts 30']

Patent US20040193114 - Apparatus and method for the insertion of a medical device - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inAdvanced Patent SearchPatentsAn apparatus and method for use in the percutaneous insertion of medical devices is disclosed. In an embodiment, the apparatus includes an access tube defining a central lumen and a retention portion disposed at a distal end of the access tube. The retention portion is reconfigurable between a first...http://www.google.com/patents/US20040193114?utm_source=gb-gplus-sharePatent US20040193114 - Apparatus and method for the insertion of a medical deviceAdvanced Patent SearchPublication numberUS20040193114 A1Publication typeApplicationApplication numberUS 10/821,866Publication dateSep 30, 2004Filing dateApr 12, 2004Priority dateApr 19, 2001Also published asDE60229626D1, EP1379180A1, EP1379180B1, US6743207, US7186238, US7959610, US20020165553, US20070142778Publication number10821866, 821866, US 2004/0193114 A1, US 2004/193114 A1, US 20040193114 A1, US 20040193114A1, US 2004193114 A1, US 2004193114A1, US-A1-20040193114, US-A1-2004193114, US2004/0193114A1, US2004/193114A1, US20040193114 A1, US20040193114A1, US2004193114 A1, US2004193114A1InventorsLinda Elbert, D. Perkins, Srinivas Nishtala, Stephane GobronOriginal AssigneeElbert Linda D., Perkins D. H., Srinivas Nishtala, Stephane GobronExport CitationBiBTeX, EndNote, RefManReferenced by (10), Classifications (12), Legal Events (3) External Links: USPTO, USPTO Assignment, EspacenetApparatus and method for the insertion of a medical device
DETAILED DESCRIPTION [0020] An embodiment of the medical device insertion apparatus 1 of the present invention, which in an exemplary embodiment will be described as a gastro-intestinal tube placement device, is shown in FIG. 1. The device includes a trocar 10, an access tube 12, and a dilating overtube 20. The placement device 1 is capable of engaging the patient's internal gastric wall during insertion, thereby preventing the gastric wall from drifting away from the patient's abdominal wall. The device 1 also allows a physician to place a gastro-intestinal tube percutaneously, without having to perform sequential dilation which can lead to many physiological maladies. [0021] The trocar 10 and access tube 12 of the placement device 1 are formed such that they can be percutaneously inserted together as an assembly through the abdominal and gastric walls. The trocar 10 can be any of a variety of medical trocars having a distal end which is capable of penetrating the abdominal and gastric walls, e.g., a sharp distal end. During the insertion process, the distal end of the trocar 10 is used to initially penetrate the abdominal wall. The assembly of the trocar 10 and access tube 12 is then pushed distally until the assembly has sufficiently penetrated the gastric wall 50. Markings can be made on the outer surface of the access tube 12 to indicate the depth of insertion. [0022] The trocar 10 and access tube 12 preferably have complementary mating parts 22, 24, respectively of a locking mechanism, as can be seen at least in FIGS. 1 and 6, which prevents those components from moving with respect to each other during insertion. The locking mechanism is preferably a twisting hub assembly of the type shown in FIG. 6, but may be any mechanism for temporarily connecting the trocar 10 and access tube 12. Prior to insertion, the mating parts 22, 24 are engaged, thus locking the trocar 10 and access 12 tube together. Once the assembly is properly in-place within the gastric wall, the mating parts 22, 24 are disengaged, allowing removal of the trocar 10 from within the access tube 12. [0023] The access tube 12 of the present invention is preferably formed of two concentric, slidable with respect to each other, malecot sheaths 14, 16, which are attached at their distal ends. Additionally, the access tube 12 has a retention portion 18 at its distal end, which is capable of being compressed or deactivated during insertion, and deployed or activated once the access tube 12 is properly placed within the gastric wall. The retention portion 18 can be made of wings such as those on a malecot-type catheter. In its deployed state, the retention portion 18 has a lateral extent which is greater than the diameter of the percutaneous penetration post-dilation. With this increased lateral extent, the practitioner performing the insertion process can pull the access tube 12 proximally, causing the retention portion 18 to engage the internal gastric wall, thereby preventing the gastric wall from drifting away from the abdominal wall. [0024] In an embodiment, the distal retention portion 18 is deployed by unlocking mating sections 30 and 32 of outer malecot sheath 16 and inner malecot sheath 14, respectively, and then by moving the outer malecot sheath 16 distally with respect to the inner malecot sheath 14. The distal movement of the outer sheath 16 causes the distal portion of the access tube 12 to form lateral wings 26, 28, which are similar to those of other malecot sheaths. FIG. 2 illustrates the retention portion 18 of the access tube 12 in its deployed, or activated, state. Although there can be any number of wings, such as two wings 26 and 28, the deployed retention portion 18 preferably has a malecot-type shape. The lateral extent of the deployed retention portion 18 is sufficient to provide retention of the gastric wall during insertion of the dilating overtube 20. [0025] As mentioned above, the inner sheath 14 and outer sheath 16 preferably have mating parts 32, 30, respectively, of a locking mechanism which allow the sheaths to be attached to each other and thereby avoid relative movement with respect to each other during initial insertion. This locking mechanism can also be a twisting hub assembly, similar in structure to mating parts 22, 24 of the locking mechanism illustrated in FIG. 6. [0026] Whereas an embodiment of the present invention includes mating sections 30 and 32, it is not required that these mating sections be utilized in the present invention. [0027] After initial insertion is complete and the trocar/access tube assembly is properly in place within the gastric cavity, as discussed above, the locking mechanism formed by mating parts 30 and 32 is disengaged, such as by untwisting the twisting hub assembly if a twisting hub assembly is utilized for the locking mechanism or by pushing the outer sheath 16 distally with respect to inner sheath 14 and uncoupling a tapered, frictional engagement form-fitted structure that comprises mating parts 30 and 32. The outer sheath 16 is pushed distally to bring the additional mating locking part 34 of inner sheath 14 into contact with the mating part 30 of the outer sheath 16. By engaging mating parts 30 and 34, the sheaths 14 and 16 are locked in position with the distal retention portion 18 deployed. [0028] Again, any number of various configurations for mating parts, and thus for locking hubs, can be utilized in the present invention. For example, a slide lock similar to the type used on various handles for temporary locking of two pieces together relative to each other can be utilized in the present invention. Additionally, locking hubs such as those tightened on the outside diameter of various catheters can be used. [0029] The dilating overtube 20 is a tubular structure with a central lumen capable of passing over the access tube 12, with or without the trocar 10 within the access tube 12. As can be seen in FIG. 3, during the overtube insertion process, the overtube 20 is advanced distally over the access tube 12 until it is properly placed within the gastric wall. Preferably, the overtube 20 has slots 21, 22 at its distal end which are capable of receiving within them the deployed wings 26, 28, respectively, of the distal retention portion 18 when the overtube 20 is distally advanced over the access tube 12. [0030] The distal end of the overtube 20 is tapered to facilitate advancement of the overtube 20 through the patient's anatomy. The overtube 20 may also have a small circumferential groove 23 at its distal end which could be grasped by an endoscopic snare. In order to facilitate distal advancement of the overtube 20 during its insertion, an endoscope having a snare can be placed within the gastric cavity. The practitioner performing the insertion process can then pull the snare, causing the overtube 20 to advance distally into the gastric cavity. [0031] Once the overtube 20 is properly placed, the retention portion 18 of the access tube 12 is compressed, or deactivated, by unlocking mating parts 30 and 34 and moving outer sheath 16 proximally with respect to inner sheath 14, as can be seen in FIG. 4. Deactivation of retention portion 18 allows removal of the access tube 12 from within the penetration. With the distal portion of the overtube 20 in place within the gastric cavity, as can be seen in FIG. 5, a gastro-intestinal tube 40 can be inserted into the gastric cavity by first placing the gastro-intestinal tube 40 within the central lumen at the proximal end of the overtube 20 and then pushing the gastro-intestinal tube 40 distally until it exits the distal end of the overtube 20. [0032] The distal dilating tip of the overtube could be comprised such that it could expand if a device having a larger diameter than that of the distal dilating tip were required to be inserted through it. This expansion could be achieved by comprising the dilating tip of a semi-flexible material, providing longitudinal slits in the dilating tip, by utilizing a combination of the these two techniques, or through other known methodologies. [0033] After the distal end of the gastro-intestinal tube has exited the distal end of the overtube 20, the overtube would be removed by sliding the overtube proximally in relation to the gastro-intestinal tube. The gastro-intestinal tube remains in position in the gastric cavity due to any number of known retention mechanisms. The gastro-intestinal tube is then left in place, percutaneously inserted into the gastric cavity. [0034]FIG. 7 illustrates an alternative embodiment of a medical device insertion apparatus 100 of the present invention. In the embodiment of FIG. 7, the dilating overtube 130 also includes a retention portion 138. Retention portion 138 is included in addition to retention portion 128 of access tube 120. Retention portion 138 provides an additional mechanism for anchoring the overtube 130 within the gastric cavity and maintaining the relative positioning of the gastric wall 200 with respect to the abdominal wall 210 during removal of the access tube and/or passage of a gastro-intestinal tube through the lumen of the overtube. [0035] As can be seen in FIG. 7, retention portion 138 may consist of laterally extending wings 136, 137 of malecot-type, which may be similar to wings 26, 28 of the previous embodiment. Additionally, retention portion 128 of access tube 120 may also consist of laterally extending wings 126, 127 of malecot-type, which also may be similar to wings 26, 28. Both retention portion 128 and retention portion 138 are moveable between a first configuration of reduced lateral extent and a second configuration of increased lateral extent. Retention portions 128 and 138 are moved between their first and second configurations in the same manner as was described for retention portion 18. Similar to the previously described embodiment, overtube 130 includes slots in its distal end to provide for receiving the deployed wings of retention portion 128 within them. [0036] In the embodiment of FIG. 7, as in the previous embodiment, trocar 110 is movably disposed within access tube 120. Access tube 120 includes an inner sheath 121 and an outer sheath 122. Retention portion 128 is disposed at a distal end of outer sheath 122. Retention portion 128, in its second configuration, as described above, extends through an aperture, or slots, included in the distal end of overtube 130. [0037] Overtube 130 also includes an inner sheath 131 and an outer sheath 132. Retention portion 138 is disposed at the distal end of outer sheath 132. Retention portion 138, in its second configuration, is disposed distally of retention portion 128. [0038] Finger grips 123 and 133 are provided on access tube 120 and overtube 130, respectively, to aid in medical device insertion apparatus 100. [0039] As described above, in practicing a method in accordance with the principles of the present invention, the method includes the steps of inserting the trocar and access tube through a body wall of a patient, where the trocar is disposed within the access tube and where a retention portion disposed at a distal end of the access tube is configured in a first configuration of reduced lateral extent. The retention portion is then configured in a second configuration of increased lateral extent and pulled outward to compress, in an embodiment, the gastric, or stomach, wall against other body tissues, e.g., the abdominal wall. The trocar is removed from the access tube. An overtube is inserted around the access tube and through the body wall, where the access tube is received within a central lumen of the overtube and where the retention portion is received through a slot defined by the overtube. The retention portion is returned to the first configuration of reduced lateral extent. The access tube is removed from the central lumen of the overtube, the overtube is pushed inward, in an embodiment, to maintain access as the stomach assumes a normal position in the body in the absence of being retained by the retention portion of the access tube, and a medical device is inserted within the central lumen of the overtube and through the body wall. The overtube is then removed. [0040] The disclosed embodiments are illustrative of the various ways in which the present invention may be practiced. Other embodiments can be implemented by those skilled in the art without departing from the spirit and scope of the present invention. For example, whereas an apparatus and method of the present invention has been described for use in the percutaneous placement of a gastro-intestinal device, e.g., a gastro-intestinal tube through the gastric wall, the principles of the present invention can be utilized for placement of any type of device into any hollow internal organ. Examples of other hollow internal organs into which devices can be inserted with the present invention include the liver, kidney, small or large intestine, bladder, etc. Referenced byCiting PatentFiling datePublication dateApplicantTitleUS7549200May 27, 2005Jun 23, 2009Kimberly-Clark Worldwide, Inc.Clamp for flexible tubeUS7582098Aug 28, 2006Sep 1, 2009Kimberly-Clark Wolrdwide, Inc.Percutaneous gastrointestinal anchoring kitUS7625355Nov 17, 2005Dec 1, 2009Chun Ho YuEasy drainage catheter assemblyUS7763008Sep 11, 2009Jul 27, 2010Chun Ho YuMethod employing a drainage catheter assembly for delivering a catheter to a bodyUS7819842 *Nov 21, 2006Oct 26, 2010Medtronic, Inc.Chronically implantable guide tube for repeated intermittent delivery of materials or fluids to targeted tissue sitesUS8974379 *Mar 5, 2009Mar 10, 2015Cook Medical Technologies LlcMedical systems for accessing an internal bodily openingUS20090227836 *Mar 5, 2009Sep 10, 2009Wilson-Cook Medical Inc.Medical systems for accessing an internal bodily openingWO2006130213A1 *Mar 30, 2006Dec 7, 2006Kimberly Clark CoGastric fastening systemWO2007056945A1 *Nov 15, 2006May 24, 2007Chunho YuEasy drainage catheter assemblyWO2012106200A2 *Jan 27, 2012Aug 9, 2012Tyco Healthcare Group LpFistula catheter* Cited by examinerClassifications U.S. Classification604/164.1, 604/506International ClassificationA61J15/00, A61M25/08, A61B17/34Cooperative ClassificationA61J15/0038, A61B17/3417, A61B17/3415, A61B2017/3484, A61J15/0015European ClassificationA61J15/00G, A61B17/34ELegal EventsDateCodeEventDescriptionAug 6, 2014FPAYFee paymentYear of fee payment: 8Aug 24, 2010FPAYFee paymentYear of fee payment: 4Nov 20, 2006ASAssignmentOwner name: BOSTON SCIENTIFIC SCIMED, INC., MINNESOTAFree format text: CHANGE OF NAME;ASSIGNOR:SCIMED LIFE SYSTEMS, INC.;REEL/FRAME:018618/0014Effective date: 20041222RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services