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DEVICES, KITS AND METHODS RELATING TO TREATMENT OF FACET JOINTS

20190167343 ยท 2019-06-06

    Inventors

    Cpc classification

    International classification

    Abstract

    A facet joint surgical tool for treating a facet joint synovial cyst includes rotatable members disposed side-by-side through a minimally invasive sheath and rotatable to reconfigure distal end portions between a facet joint penetration configuration with a tissue piercing tip and a facet joint retraction configuration. Facet joint synovial cysts located to an anterior side of the facet joint are treated by a posterior approach with access to the cyst through the facet joint retracted by the surgical tool. Facet joint synovial cysts located to a posterior side of the facet joint are treated by direct access from a posterior approach.

    Claims

    1. A facet joint surgical tool, comprising: a proximal portion to be disposed outside of a patient during a facet joint surgical procedure; a distal portion be disposed inside a patient during a facet joint surgical procedure; a first rotatable member comprising a first distal end portion having a first distal tip, the first rotatable member being rotatable about a first axis; and a second rotatable member comprising a second distal end portion having a second distal tip, the second rotatable member being rotatable about a second axis that is different than the first axis; the first and second rotatable members being rotatable relative to each other about the first and second axes respectively to manipulate the relative positioning of the first and second distal end portions between a facet joint penetration configuration in which the first and second distal end portions are positioned to form a piercing tip to pierce through tissue and penetrate into the facet joint and a facet joint retraction configuration in which the first and second distal end portions are positioned to retract the facet joint following penetration into the facet joint.

    2. A facet joint surgical tool according to claim 1, wherein each said distal end portion of a said rotatable member comprises a beveled end of the respective said rotatable member.

    3. A facet joint surgical tool according to either one of claim 1 or claim 2, wherein each said rotatable member comprises a longitudinally extending insertion portion configured for insertion into the body during a surgical operation.

    4. A facet joint surgical tool according to claim 3, wherein the insertion portion of each said rotatable member has a substantially uniform insertion cross-section between a proximal end of the insertion portion and the said distal end portion of the said rotatable member.

    5. A facet joint surgical tool according to claim 4, wherein the uniform insertion cross-section is circular.

    6. A facet joint surgical tool according to any one of claims 3-5, wherein the insertion portion has a longitudinal length in a range of from 20 millimeters to 200 millimeters.

    7. A facet joint surgical tool according to claim 6, wherein the insertion portion of each said rotatable member has a maximum cross dimension perpendicular to the respective axis of rotation of no larger than 3.25 millimeters.

    8. A facet joint surgical tool according to any one of claims 3-7, wherein the insertion portion of each said rotatable member has a longitudinally extending lumen to provide access from outside of the body to inside of the body during a surgical procedure.

    9. A facet joint surgical tool according to claim 8, wherein each said lumen has a maximum cross dimension in a range of from 0.25 millimeter to 2.5 millimeters.

    10. A facet joint surgical tool according to either one of claim 8 or claim 9, wherein each said lumen has a longitudinal length of at least 10 millimeters.

    11. A facet joint surgical tool according to any one of claims 8-10, wherein each said lumen comprises a circular cross-section.

    12. A facet joint surgical tool according to any one of claims 8-11, wherein at least the lumen of the first rotatable member is fluidly connected with a fluid connection hub that is connectable with a fluid manipulation device to perform a fluid manipulation selected from the group consisting of fluid injection through the said lumen and out of a distal end of the said lumen adjacent the corresponding distal tip and fluid aspiration through the lumen from the distal end of the said lumen adjacent the corresponding distal tip.

    13. A facet joint surgical tool, wherein each said lumen is fluidly connected with a different said fluid connection hub.

    14. A facet joint surgical tool according to either one of claim 12 or claim 13, wherein the fluid connection hub includes a luer connector.

    15. A facet joint surgical tool according to any one of claims 12-14, comprising a fluid manipulation device with a fluid containment vessel fluidly connected with at least one said lumen through a said fluid connection hub.

    16. A facet joint surgical tool according to claim 15, wherein the fluid manipulation device comprises a syringe.

    17. A facet joint surgical tool according to either one of claim 15 or claim 16, wherein the fluid manipulation device contains a fluid composition for use in performing a medical procedure in the vicinity of a facet joint.

    18. A facet joint surgical tool according to claim 17, wherein the fluid composition comprises a member selected from the group consisting of a hyaluronidase and a collagenase.

    19. A facet joint surgical tool according to any one of claims 1-18, wherein each said rotatable member comprises a hollow tube with a beveled tip.

    20. A facet joint surgical tool according to any one of claims 1-19, wherein: when the said rotatable members are in the facet joint penetration configuration, the distal tips are adjoining; and when the said rotatable members are in the facet joint retraction configuration, the distal tips are separated by a separation distance of at least 0.5 millimeters.

    21. A facet joint surgical tool according to any one of claims 1-20, wherein when the said rotatable members are in the facet joint retraction configuration each said rotatable member is rotated 180 relative to the facet joint penetration configuration.

    22. A facet joint surgical tool according to any one of claims 1-21, wherein each said axis is a central longitudinal axis of at least a distal end portion of the respective said rotatable member.

    23. A facet joint surgical tool according to any one of claims 1-22, wherein the said longitudinal axes of the said rotatable members are parallel.

    24. A facet joint surgical tool according to any one of claims 1-23, wherein the said rotatable members are in external tangential contact for at least some longitudinal portion of each said rotatable member.

    25. A facet joint surgical tool according to any one of claims 1-24, wherein at least the first rotatable member includes an arcuate portion located proximal of the first distal tip.

    26. A facet joint surgical tool according to claim 25, wherein the arcuate portion has a radius of curvature in a range of from 5 to 25 centimeters.

    27. A facet joint surgical tool according to either one of claim 25 or claim 26, wherein: the first axis is a first longitudinal axis of a first longitudinal portion of the first rotatable member located distal of the arcuate portion; the first rotatable member includes a proximal portion located proximal of the arcuate portion and having a second longitudinal axis; and the first longitudinal axis and the second longitudinal axis intersect with an angle between them in a range of from 5 to 45.

    28. A facet joint surgical tool according to any one of claims 25-27, wherein the arcuate portion has a length along the first rotatable member in a range of from 10 to 100 millimeters.

    29. A facet joint surgical tool according to any one of claims 25-28, wherein a distal end of the arcuate portion is located a distance from the first distal tip of at least 20 millimeters.

    30. A facet joint surgical tool according to any one of claims 25-29, wherein the first rotatable member includes a longitudinally extending insertion portion according to any one of claims 3-11 and the arcuate portion is located proximal of the insertion portion of the first rotatable member.

    31. A facet joint surgical tool according to any one of claims 1-30, comprising; a first rotation actuation handle connected to the first rotatable member and hand manipulable to rotate the first rotatable member about the first axis; and a second rotation actuation handle connected to the second rotatable member and hand manipulable to rotate the second rotatable member about the second axis.

    32. A facet joint surgical tool according to claim 31, wherein when the first and second distal tips are conterminous at distal ends of the said rotatable members, the locations of connection of the first and second handles with the first and second rotatable members are at corresponding longitudinal locations along the first and second rotatable members.

    33. A facet joint surgical tool according to either one of claim 31 or 32, wherein each said rotation actuation handle projects laterally from the corresponding said rotatable member to only one side of the corresponding said axis of the said corresponding rotatable member.

    34. A facet joint surgical tool according to any one of claims 31-33, wherein each said rotatable member includes a longitudinally extending insertion portion according to any one of claims 3-11 and the rotation actuation handle of a said rotatable member is located proximal of the insertion portion of the said rotatable member.

    35. A facet joint surgical tool according to any one of claims 31-34, wherein the first rotatable member includes the arcuate portion of any one of claims 25-28 and the first rotation actuation handle is connected to the first rotatable member at a location distal of the arcuate portion.

    36. A facet joint surgical tool according to any one of claims 1-35, comprising a sheath with an internal passage through which the said rotatable members are disposed with at least said distal tips disposed distal to a distal end of the sheath.

    37. A facet joint surgical tool according to claim 36, wherein the internal passage has a minimum area cross-section through which the said rotatable members are disposed that has an aspect ratio of at least 1.5:1.

    38. A facet joint surgical tool according to claim 37, wherein the aspect ratio is no larger than 3:1.

    39. A facet joint surgical tool according to any either one of claims 37 and 38, wherein the minimum area cross-section has an oval shape.

    40. A facet joint surgical tool according to any one of claims 37-39, wherein the minimum area cross-section has a maximum cross dimension in a range of from 0.5 millimeter to 6.5 millimeters.

    41. A facet joint surgical tool according to any one of claims 37-40, wherein the minimum area cross-section is configured to constrain the said rotatable members in a side-by-side orientation through the minimum area cross-section, in which side-by-side orientation the said rotatable members are translatable through the minimum area cross-section in a longitudinal direction through the internal passage.

    42. A facet joint surgical tool according to any one of claims 37-41, wherein within the minimum area cross-section, the said rotatable members are in side-by-side orientation with a clearance fit between the said rotatable members and the sheath of no larger than 0.5 millimeter.

    43. A facet joint surgical tool according to any one of claims 37-42, wherein the cross-section of the internal passage is the minimum area cross-section for at least 5 millimeters along a length of the internal passage.

    44. A facet joint surgical tool according to any one of claims 36-43, wherein the first axis and the second axis do not cross within the internal passage.

    45. A facet joint surgical tool according to any one of claims 36-44, wherein the sheath has a longitudinally extending insertion portion for insertion into a patient's body during a surgical operation, the insertion portion of the sheath having a longitudinal length of at least 10 millimeters.

    46. A facet joint surgical tool according to claim 45, wherein the insertion portion of the sheath has an insertion cross-section with an aspect ratio of at least 1.5:1.

    47. A facet joint surgical tool according to either one of claim 45 or claim 46, wherein the insertion cross-section of the sheath has a maximum cross dimension of no larger than 8 millimeters.

    48. A facet joint surgical tool according to any one of claims 45-47, wherein the insertion portion of the sheath has an insertion cross-section that has an oval shape.

    49. A facet joint surgical tool according to any one of claims 45-48, wherein the sheath has a uniform cross-section over the entire length of the insertion portion of the sheath.

    50. A facet joint surgical tool according to any one of claims 36-48, wherein the sheath has a tapered distal end portion with an exterior cross-section that tapers to a smaller size toward a distal end of the sheath.

    51. A facet joint surgical tool according to claim 50, wherein wall thickness of the sheath decreases toward the distal end of the sheath in the tapered distal end portion.

    52. A facet joint surgical tool according to either one of claim 50 or claim 51, wherein in the tapered distal end portion the internal passage through the sheath does not taper to a smaller size toward the distal end of the sheath.

    53. A facet joint surgical tool according to any one of claims 50-52, wherein the tapered distal end portion begins at a location in a range of from 1 millimeter to 5 millimeters proximal of the distal end of the sheath.

    54. A facet joint surgical tool according to any one of claims 36-53, wherein a RF signal generator is connected with at least one of the first rotatable member, the second rotatable member and the sheath to provide a RF signal to the at least one of the first rotatable member, the second rotatable member and the sheath to perform RF ablation of tissue with the RF signal delivered from the distal end portion of the facet joint surgical tool.

    55. A facet joint surgical tool according to claim 54, wherein the RF signal generator is connected with at least one of the rotatable members proximal of the sheath.

    56. A facet joint surgical tool according to any one of claims 36-55, wherein the sheath comprises an electrically conductive body and an electrically insulating coating covering at least an exterior portion of an insertion portion of the sheath.

    57. A facet joint surgical tool according to any one of claims 36-56, wherein: each said rotatable member has a lumen with a distal end open at the said distal end portion of the rotatable member; the said rotatable members are positioned in the facet joint penetration configuration; and the tool includes a stylet disposed through each said lumen with distal tips of the stylets blocking distal ends of the lumens.

    58. A facet joint surgical tool according to claim 57, wherein each said stylet has a beveled tip that corresponds with a beveled said distal end portion of the corresponding said rotatable member.

    59. A facet joint surgical tool according any one of claims 36-58, comprising the arcuate portion of any one of claims 25-29, wherein the arcuate portion is disposed proximal of the sheath.

    60. A facet joint surgical tool according to any one of claims 36-59, comprising the first and second rotation actuation handles of any one of claims 31-34, wherein the first and second rotation actuation handles are disposed proximal of the sheath.

    61. A facet joint surgical tool according to claim 1, wherein: when the said rotatable members are in the facet joint penetration configuration, the distal tips are adjoining; and when the said rotatable members are in the facet joint retraction configuration, the distal tips are separated by a separation distance in a range of from 0.5 millimeter to 6.5 millimeters.

    62. A facet joint surgical tool according to claim 61, wherein: each said rotatable member comprises a longitudinally extending insertion portion configured for insertion into the body during a surgical operation; the insertion portion has a longitudinal length in a range of from 20 millimeters to 200 millimeters; the insertion portion of each said rotatable member has a maximum cross dimension perpendicular to the respective axis of rotation of no larger than 3.25 millimeters.

    63. A facet joint surgical tool according to claim 62, wherein: the insertion portion of each said rotatable member has a longitudinally extending lumen to provide access from outside of the body to inside of the body during a surgical procedure; each said lumen has a maximum cross dimension in a range of from 0.25 millimeter to 2.5 millimeters; and each said lumen has a longitudinal length of at least 10 millimeters.

    64. A facet joint surgical tool according to claim 63, wherein: the facet joint surgical tool comprises a sheath with an internal passage through which the said rotatable members are disposed with at least said distal tips disposed distal to a distal end of the sheath; the internal passage has a minimum area cross-section through which the said rotatable members are disposed that has an aspect ratio of at least 1.5:1: the minimum area cross-section has a maximum cross dimension in a range of from 0.5 millimeter to 6.5 millimeters; the minimum area cross-section is sized to constrain the said rotatable members in a side-by-side orientation through the minimum cross-section, in which side-by-side orientation the said rotatable members are translatable through the minimum area cross-section in a longitudinal direction through the internal passage; and the sheath has a longitudinally extending insertion portion for insertion into a patient's body during a surgical operation, the insertion portion of the sheath having a longitudinal length of at least 10 millimeters and having disposed therethrough at least a portion of the insertion portions of the said rotatable members.

    65. A facet joint surgical tool according to claim 64, wherein: the insertion portion of the sheath has an insertion cross-section with an aspect ratio of at least 1.5:1 and a maximum cross dimension in a range of from 0.7 millimeter to 8 millimeters.

    66. A facet joint surgical tool according to claim 65, wherein: each said lumen of each said rotatable member is fluidly connected with a fluid connection hub that is connectable with a fluid manipulation device to perform a fluid manipulation selected from the group consisting of fluid injection through the said lumen out of a distal end of the said lumen adjacent the corresponding distal tip and fluid aspiration through the said lumen the distal end of the said lumen.

    67. A facet joint surgical tool according to claim 66, comprising a syringe fluidly connected with at least one said lumen through a said fluid connection hub.

    68. A facet joint surgical tool according to claim 67, wherein the syringe contains a fluid composition for use in performing a medical procedure in the vicinity of a facet joint.

    69. A facet joint surgical tool according to claim 68, wherein the fluid composition comprises a member selected from the group consisting of a hyaluronidase and a collagenase.

    70. A facet joint surgical tool of claim 65, wherein a RF signal generator is connected with at least one said rotatable member to provide a RF signal to at least one of the distal tips to perform a RF ablation procedure.

    71. A facet joint surgical tool according to claim 65, wherein at least the first rotatable member includes an arcuate portion, the arcuate portion being located proximal of a proximal end of the sheath.

    72. A facet joint surgical tool according to claim 65, wherein: the sheath has a tapered distal end portion with an exterior cross-section that tapers to a smaller size toward a distal end of the sheath; wall thickness of the sheath decreases toward the distal end of the sheath in the tapered distal end portion; and in the tapered distal end portion the internal passage through the sheath does not taper to a smaller size toward the distal end of the sheath.

    73. A facet joint surgical tool according to claim 65, wherein: the said rotatable members are positioned in the facet joint penetration configuration; and the tool includes a stylet disposed through each said lumen with distal tips of the stylets blocking distal ends of the lumens.

    74. A facet joint surgical tool according to claim 65, comprising: a first rotation actuation handle connected to the first rotatable member and hand manipulable to rotate the first rotatable member about the first axis; and a second rotation actuation handle connected to the second rotatable member and hand manipulable to rotate the second rotatable member about the second axis.

    75. A kit useful in performance of a medical procedure in the vicinity of a facet joint, the kit comprising: the first rotatable member and second rotatable member according to any one of claims 1-74; the sheath according to any one of claims 36-60 and 64-74; wherein the first rotatable member, the second rotatable member and the sheath are assembled or assemblable into the facet joint surgical tool, or a subassembly thereof, according to any one of claims 1-74.

    76. A kit according to claim 75, comprising at least one fluid composition for use in performing a medical procedure in the vicinity of the facet joint using the surgical tool of any one of claims 1-60.

    77. A kit according to claim 76, wherein the at least one fluid composition comprises an irrigation liquid.

    78. A kit according to either one of claim 76 or claim 77, wherein the at least one fluid composition comprises a drug for treating a condition in the vicinity of the facet joint.

    79. A kit according to any one of claims 76-78, wherein the fluid composition comprises a member selected from the group consisting of a hyaluronidase and a collagenase.

    80. A kit according to any one of claims 75-79, comprising the stylets according to either one of claim 57 or claim 58.

    81. A kit according to any one of claims 75-80, wherein the said rotatable members and sheath are assembled or assemblable into the facet joint surgical tool, or a subassembly thereof, according to any one of claims 36-60 and 64-74.

    82. A method for performing a medical procedure in the vicinity of the facet joint, the method comprising: penetrating into a facet joint capsule of a facet joint using the facet joint surgical tool of any one of claims 1-74 with the said rotating members in the facet joint penetration configuration, the penetrating comprising advancing at least the distal tips of the said rotatable members into the facet joint capsule; after the penetrating, rotating the said rotatable members to reconfigure the said rotating members to the facet joint retraction configuration.

    83. A method according to claim 82, wherein the facet joint surgical tool is according to any one of claims 36-60 and 64-74 and the method comprises: after the rotating, advancing the sheath from outside to inside of the facet joint capsule.

    84. A method according to either one of claim 82 or claim 83, comprising after the penetrating, conducting a fluid composition through a lumen of a said rotatable member to exit said lumen in the vicinity of the facet joint.

    85. A method according to claim 84, comprising during the conducting, aspirating fluid from the vicinity of the facet joint through a lumen of a different one of said rotating members.

    86. A method according to any one of claims 82-85, comprising after the penetrating, conducting a medical device through a lumen of a said rotating member to the vicinity of the facet joint and performing a medical operation in the vicinity of the facet joint using the medical device.

    87. A method according to any one of claims 82-86, wherein: at least one of the first and second distal end portions of the said rotating members is a RF electrode, and the method comprises operating the RF electrode to perform a RF ablation procedure on tissue in the vicinity of the facet joint.

    88. A method according to any one of claims 82-87, comprising treating a synovial cyst in the vicinity of the facet joint.

    89. A method according to claim 86, wherein the synovial cyst is located anterior to the facet joint.

    90. A kit useful in performance of a medical procedure in the vicinity of a facet joint, the kit comprising: a first rotatable member comprising a first distal end portion having a first distal tip, the first rotatable member being rotatable about a first axis of the first rotatable member; and a second rotatable member comprising a second distal end portion having a second distal tip, the second rotatable member being rotatable about a second axis of the second rotatable member; a sheath with an internal passage through which the said rotatable members are receivable with the distal tips of the said rotatable members disposed distal to distal end of the sheath and proximal ends of the said rotatable members disposed proximal of a proximal end of the sheath, and wherein when so received through the sheath the first and second rotatable members are rotatable relative to each other about the first and second axes respectively to manipulate the relative positioning of the first and second distal end portions between a facet joint penetration configuration in which the first and second distal end portions are positioned to form a piercing tip to pierce through tissue and penetrate into the facet joint and a facet joint retraction configuration in which the first and second distal end portions are positioned to retract the facet joint following penetration into the facet joint; the sheath having a minimum area cross-section through which the said rotatable members are receivable that has an aspect ratio of at least 1.5:1 and is sized to constrain the said rotatable members in a side-by-side orientation through the minimum area cross-section with the said rotatable members being translatable through the minimum area cross-section in a longitudinal direction through the internal passage.

    91. A kit according to claim 90, wherein the minimum area cross-section has a maximum cross dimension in a range of from 0.5 millimeter to 6.5 millimeters.

    92. A kit according to claim 91, wherein: each said rotatable member has a longitudinally extending insertion portion for insertion into a patient's body during a surgical operation and which insertion portion is receivable through the internal passage of the sheath; each said insertion portion of each said rotatable member has a longitudinal length in a range of from 20 to 200 millimeters; each said insertion portion of each said rotatable member has a maximum cross dimension perpendicular to the respective axis of rotation of no larger than 3.25 millimeters; when the said rotatable members are in the facet joint penetration configuration, the distal tips of the distal end portions are adjoining; and when the said rotatable members are in the facet joint retraction configuration, the distal tips of the distal end portions are separated by a separation distance in a range of from 0.5 millimeters to 6.5 millimeters.

    93. A kit according to claim 92, wherein each said insertion portion of each said rotatable member has a longitudinally extending lumen to provide access from outside of a patient's body to inside of a patient's body during a surgical procedure.

    94. A kit according to claim 93, wherein the sheath has a longitudinally extending insertion portion for insertion into a patient's body, the insertion portion including a distal end of the sheath and further comprising: a longitudinal length of at least 10 millimeters; and an insertion cross-section with an aspect ratio of at least 1.5 and a maximum cross dimension of no larger than 8 millimeters.

    95. A kit according to claim 94, wherein the insertion portion of the sheath has a tapered distal end portion with an exterior cross-section that tapers to a smaller size toward a distal end of the sheath.

    96. A kit according to claim 94, wherein at least the first rotatable member includes an arcuate portion, the arcuate portion being located proximal of a proximal end of the sheath when the first rotatable member is received in the internal passage of the sheath with the first distal tip disposed distal of the distal end of the sheath.

    97. A kit according to claim 96, wherein the second rotatable member does not include an arcuate portion.

    98. A kit according to claim 94, comprising: a first rotation actuation handle connected to the first rotatable member and hand manipulable to rotate the first rotatable member about the first axis; and a second rotation actuation handle connected to the second rotatable member and hand manipulable to rotate the second rotatable member about the second axis; and wherein, when the first and second said rotatable members are received through the internal passage of the sheath with the first and second distal tips disposed distal of the distal end of the sheath, the first and second rotation actuation handles are disposed proximal of a proximal end of the sheath.

    99. A kit according to claim 98, wherein when the first and second distal tips are conterminous at distal ends of the said rotatable members conterminously disposed distal of the distal end of the sheath, the locations of connection of the first and second handles with the first and second rotatable members are at corresponding longitudinal locations along the first and second rotatable members.

    100. A kit according to claim 94, comprising first and second stylets receivable through the lumen of the first rotatable member and the second rotatable member, respectively, with the said stylets including distal tips that block distal ends of the lumens adjacent the piercing tip in the facet joint penetration configuration.

    101. A kit according to any one of claims 90-100, comprising a fluid container containing a fluid composition to be delivered through a said lumen to the vicinity of a facet joint during a surgical procedure.

    102. A kit according to claim 101, wherein the fluid composition is an aqueous irrigation liquid.

    103. A kit according to claim 101, wherein the fluid composition comprises a hyaluronidase.

    104. A kit according to claim 101, wherein the fluid composition comprises a collagenase.

    105. A kit according to claim 101, wherein a said lumen of at least one said rotatable member is fluidly connected with a fluid connection hub that is connectable with a fluid manipulation device to perform a fluid manipulation with the fluid composition selected from the group consisting of fluid injection through the lumen out of a distal end of the lumen and fluid aspiration through the lumen from the distal end of the lumen.

    106. A kit according to claim 105, wherein the fluid container is a syringe prefilled with the fluid composition and that is fluidly connectable with the fluid connection hub to perform the fluid manipulation.

    107. A kit according to any one of claims 90-106, comprising components assembled or assemblable into the facet joint surgical tool of any one of claims 1-74.

    108. A method for treating a tissue condition in or anterior to a facet joint, the method comprising: accessing and retracting the facet joint from a posterior side opposite the synovial cyst; and with the facet joint retracted, performing a medical procedure from the posterior side through the retracted facet joint to treat tissue in or anterior to the facet joint.

    109. A method according to claim 108, wherein the medical procedure comprises applying fluid suction to the facet joint or anterior of the facet joint for aspiration of fluid.

    110. A method according to claim 109, wherein the medical procedure comprises injecting a fluid composition into the facet joint to apply fluid pressure to tissue to be treated.

    111. A method according to claim 1109, wherein the tissue condition comprises a synovial cyst and the method comprises during the injecting fluid, rupturing the synovial cyst.

    112. A method according to claim 108, wherein tissue condition comprises a synovial cyst and the medical procedure comprises injecting a fluid composition into the facet joint or directly into the synovial cyst, wherein the fluid composition comprises at least one component to liquefy or decompose tissue within the synovial cyst.

    113. A method according to claim 112, wherein the at least one component comprises a hyaluronidase.

    114. A method according to claim 112, wherein the at least one component comprises a collagenase.

    115. A method according to claim 112, comprising after the injecting, removing liquid from the facet joint or directly from the synovial cyst.

    116. A method according to claim 115, wherein the removing liquid comprises irrigating the facet joint with an aqueous irrigation liquid provided to the facet joint.

    117. A method according to claim 108, comprising after performing the medical procedure, performing a tissue ablation to ablate at least a portion of the synovium at the posterior side of the facet joint.

    118. A method according to claim 117, wherein the tissue ablation comprises RF ablation.

    119. A method according to claim 108, comprising forming a artificial cavity in or adjacent to the posterior side of the facet joint to provide a volume for collection of synovial fluid as an alternative to collection on the anterior side of the facet joint.

    120. A method according to claim 108, comprising: prior to the retracting, penetrating into tissue of a patient with a distal piercing tip of a facet joint surgical tool, the facet joint surgical tool comprising: a distal portion insertable into a patient during a surgical procedure; a proximal portion to remain outside of a patient during a surgical procedure; a first rotatable member comprising a first distal end portion having a first distal tip, the first rotatable member being rotatable about a first axis; and a second rotatable member comprising a second distal end portion having a second distal tip, the second rotatable member being rotatable about a second axis that is different than the first axis; and the first and second rotatable members being rotatable relative to each other about the first and second axes respectively to manipulate the relative positioning of the first and second distal end portions between a facet joint penetration configuration in which the first and second distal end portions are positioned to form the piercing tip and a facet joint retraction configuration in which the first and second distal end portions are positioned to retract tissue; after the penetrating, advancing the piercing tip through tissue of the patient to the posterior side of the facet joint; and after the advancing, performing the retracting with the facet joint surgical tool, wherein the retracting comprises rotating the said rotatable members to reposition the said distal tips from the facet joint penetration configuration to the facet joint retraction configuration to retract the facet joint.

    121. A method according to claim 120, wherein each said rotatable member has a lumen to provide access from outside of the patient to inside of the patient, the lumen having a distal end adjacent the distal tip of the said rotatable member; and during the penetrating, the facet joint surgical tool comprises a stylet disposed through each said lumen with a distal end of a said stylet blocking a distal end of the corresponding lumen adjacent the piercing tip.

    122. A method according to claim 121, comprising after the advancing, removing the stylets from the lumens.

    123. A method according to claim 120, comprising after the rotating, advancing the sheath to retract the facet joint with the sheath.

    124. A method according to claim 123, comprising, with the facet joint retracted by the sheath: removing at least one of the said rotatable members from the internal passage of the sheath comprising after the; and with the at least one of the said rotatable members removed from the internal passage, advancing an insertable surgical tool from outside of the patient through the internal passage of the sheath and out a distal end of the internal passage into the retracted facet joint.

    125. A method according to claim 124, wherein the tissue condition comprises a synovial cyst and the method comprises advancing a distal end of the insertable surgical tool through the facet joint and into the synovial cyst.

    126. A method according to claim 124, wherein the tissue condition comprises a synovial cyst and the insertable surgical tool comprises a RF electrode and the method comprises performing a RF ablation of tissue in the synovial cyst.

    127. A method according to any one of claims 120-126, comprising performing the medical procedure with access to the retracted facet joint through the sheath while the facet joint is retracted by the distal tips of the said rotatable members in the retraction position or by the sheath advanced into the facet joint.

    128. A method according to claim 127, wherein the medical procedure comprises injecting a fluid composition into the facet joint from a lumen of at least one of the said rotatable members disposed through the sheath.

    129. A method according to claim 120, comprising RF ablation of tissue in or adjacent to the posterior side of the facet joint using at least one of the rotatable members as a RF electrode.

    130. A method according to claim 129, wherein the sheath has an exterior coating of an electrically insulating material.

    131. A method according to any one of claims 120-130, wherein the facet joint surgical tool is according to any one of claims 1-74.

    132. A method according to any one of claims 108-131, wherein the tissue condition comprises a synovial cyst anterior to the facet joint and the method comprises performing the medical procedure to treat the synovial cyst.

    133. A method for treating a facet joint synovial cyst, comprising introducing into tissue of the synovial cyst a fluid composition including at least one component to decompose or liquefy the tissue.

    134. A method according to claim 133, wherein the at least one component comprises a hyaluronidase.

    135. A method according to claim 133, wherein the at least one component comprises a collagenase.

    136. A method according to either one of claim 134 or claim 135, comprising after the introducing, removing tissue from the synovial cyst.

    137. A method according to claim 133, wherein the synovial cyst is disposed on an anterior side of a facet joint.

    138. A method according to claim 133, wherein the synovial cyst is disposed on a posterior side of a facet joint.

    139. A method according to claim 133, comprising prior to the delivering, applying suction to the synovial cyst to aspirate fluid.

    140. A method according to claim 133, comprising rupturing the cyst with mechanical penetration or applied fluid pressure.

    141. A method according to claim 133, comprising ablating tissue of the synovial cyst.

    142. A method according to claim 133, wherein the introducing comprises delivering the fluid composition to the synovial cyst or to adjacent the synovial cyst from a minimally invasive surgical tool inserted through tissue of a patient.

    143. A method according to any one of claims 133-142, wherein the introducing comprises delivering the fluid composition to the synovial cyst or to adjacent the synovial cyst through a surgical tool of any one of claims 1-74.

    144. Use of a hyaluronidase for treatment of a facet joint synovial cyst.

    145. Use of a collagenase for treatment of a facet joint synovial cyst.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0051] FIG. 1 illustrates generally facet joints.

    [0052] FIG. 2 illustrates a facet joint with a synovial cyst located anterior to the facet joint.

    [0053] FIG. 3 illustrates rotatable members useful for a facet joint surgical tool.

    [0054] FIG. 4 illustrates the rotatable members of FIG. 3 oriented in a facet joint penetration configuration with a piercing tip.

    [0055] FIG. 5 illustrates the rotatable members of FIG. 4 being reconfigured from a facet joint penetration configuration to a facet joint retraction configuration.

    [0056] FIG. 6 illustrates a facet joint surgical tool with rotatable members disposed through a sheath and configured with a piercing tip penetrating into a facet joint from a posterior side.

    [0057] FIG. 7 illustrates the facet joint surgical tool of FIG. 6 with rotatable members reconfigured to retract a facet joint.

    [0058] FIG. 8 illustrates the sheath of the facet joint surgical tool of FIGS. 6 and 7 after advancement of the sheath to retract the facet joint and removal of the rotatable members from the sheath.

    [0059] FIG. 9 illustrates rotation of the sheath of FIG. 8 to adjust retraction of a facet joint with the sheath.

    [0060] FIG. 10 illustrates passage of a surgical tool through the sheath of the facet joint surgical tool of FIGS. 6 and 7 with the rotatable members removed.

    [0061] FIG. 11 illustrates circulation of liquid, such as irrigation liquid, using lumens of rotatable members.

    [0062] FIGS. 12-15 illustrate a kit and components thereof.

    [0063] FIGS. 16 and 17 illustrate an assembled facet joint surgical tool using components of the kit of FIGS. 12-15 with rotatable members configured in a facet joint penetration configuration and facet joint retraction configuration, respectively.

    [0064] FIG. 18 illustrates another kit and components thereof.

    [0065] FIG. 19 illustrates an assembled facet joint surgical tool using components of the kit of FIG. 18.

    [0066] FIGS. 20-28 illustrate use of a facet joint surgical tool to treat from a posterior side a synovial cyst located anterior of a facet joint.

    [0067] FIG. 29 illustrates use of a rotatable member of a facet joint surgical tool as a RF electrode for performance of a RF tissue ablation procedure.

    DETAILED DESCRIPTION

    [0068] For a more complete understanding of the invention and aspects thereof, reference is now made to the following Detailed Description taken in conjunction with the figures.

    [0069] In one embodiment, an access device is formed by two elongated round hollow metal tubes of circular cross-section. The ends of the tubes may be cut at an angle. The tube edges may be sharpened, such as a pointed tip of a spinal needle or hypodermic needle. The two tubes may be inserted through and constrained by a smooth outer sheath. Thus the outer sheath may be oval shaped in cross section and rigid. The rigid sheath may prevent the tubes from crossing or overlapping during insertion or rotation of the tubes. The sheath may be sized to allow the tubes to freely rotate. Before the access device is inserted into the skin and deep tissues, the angled ends of the tubes may first be rotated to face in opposite directions. The two sharpened edges may now form a single blade-like surface. For convenience such a device may be referred to as a rotatable blade access device (Rbad for short). The sharpened tip of the Rbad acting like a single needle allows the two tubes to pierce the skin and tissues and be placed smoothly into the desired location. The tip of the Rbad is placed in the facet joint. In one method the device Rbad is placed with the blade edges parallel to the facet joint surface. After the Rbad tip is placed in the facet joint then the two tubes are each rotated 180 degrees. The blade tips are now separated forcing the two articular surfaces of the facet joint apart creating a retracted working space for instruments or medications and also forming a slit in the joint capsule. The maximum distance the tips of the tubes may be separated, and therefore the two surfaces of the facet joints separated, is equal to the sum of the outer diameters of the tubes. If desired the tubes may be rotated separately or in increments. Therefore the facet joint may be widened gradually ranging from the minimal width of the thin tip of the Rbad before rotation to the maximal width equal to the sum of the outer diameters of the two tubes. In one embodiment the outer sheath is made of metal and is rigid and formed from a material such as stainless steel. The metal oval sheath may then be wedged into the joint, and the sheath may then serve as a portal allowing for passage of other larger instruments into the joint during treatment. After a cyst is treated the sheath may then be rotated 90 degrees, so that the long axis of the oval shaped cross section of the sheath is now parallel to the joint surfaces to allow for easy removal of the sheath from the facet joint.

    [0070] In one embodiment of a method, the blade-like dual lumen tip of the Rbad is placed perpendicular to the facet surface. The blades may then be rotated and thus opened to incise a slit in the facet capsule parallel to the surfaces of the facet joint. Then the oval outer sheath may be pushed, wedged or hammered into the joint. Then the oval shaped sheath may be rotated 90 degrees to widen the facet joint opening.

    [0071] In some patients joints may be severely arthritic. Bony osteophytes or spurs may bridge and therefore obstruct access to the joint. In these patients the same oval access sheath trocar may be used. The Rbad is placed against the back of the facets and then the rotatable tubes are rotated rapidly to drill and remove the bone over the back of the facet. Alternatively, instead of using the Rbad two drill bits of similar diameter to the tubes may be used to remove the bone covering the back of the narrow joints. Then in either case the Rbad may be positioned to retract the joint or the oval access sheath may be wedged and rotated to widen the joint.

    [0072] All these methods and devices allow access to the now widened facet joint. Then if desired, another instrument such as, for example a radiofrequency ablation electrode, coaxial trocar or endoscopy, may be passed either into the retracted open joint or navigated into or near to the facet capsule or synovial cyst.

    [0073] If RF ablation is used in another embodiment, the outer sheath may be made of plastic or other electrically insulating material. Alternatively the Rbad, except for a distal portion, may covered with an insulating material and the tip may then be used as a RF ablation device.

    [0074] In another embodiment of a method, the joint is accessed with the Rbad and the joint directly aspirated. Synovial cysts communicate with the adjacent joint and therefore the synovial cyst may be aspirated indirectly when the joint is aspirated. If the fluid is too thick to aspirate, then a hyaluronidase may be injected. The dual tube design allows for easy injection of hyaluronidase or other treatment composition into the joint. The retractor opens the joint and widens the communication between the cyst and joint and allows the medication (e.g., hyaluronidase) to more easily flow into the cyst. Hyaluronidases are enzymes that are used for digesting proteins. This has been used clinically to reduce scar formation in the cornea and also to remove excess collagen from cosmetic procedures. Also collagenases have been used clinically to reduce and dissolve scar tissue in peronie's disease and dupuytren's contracture. A collagenase safely digests the collagen in scar tissue Hyaluronidase safely digests proteins liquifying the viscid synovial fluid in the joint and cyst. This facilitates aspirating the very thick, gel-like synovial fluid within the cyst through the small tubes of an Rbad or, if desired, through the outer oval sheath.

    [0075] The wall of a synovial cyst is typically thinner and weaker than the capsule of the adjacent joint. In another embodiment of a method a fluid, such as for example saline, is injected through the Rbad to distend and pressurize the capsule and communicating cyst until there is a sudden loss of resistance in the system indicating cyst rupture. The pressure on the spinal canal is then relieved. Myelogram contrast media may be injected into the joint to visualize the cyst and joint capsule. A successful endpoint of such a treatment may be visualization of contrast in the epidural space of the spinal canal. This procedure may be referred to as a trans-facet epidurography. The trans-facet epidurogram can be imaged with either CT, fluoroscopy or MRI. In another embodiment, after the cyst is ruptured a hyaluronidase and/or a collagenase is injected through the facet into the epidural space to reduce adhesions, scarring and recurrence of the cyst.

    [0076] It is observed that anterior cysts are rarely seen associated with posterior located cysts. The anterior cysts are usually symptomatic because the nerves and sensitive tissues are located in front of the joint. A further use of the device is to create an artificial cyst along the back of the joint to reduce the pressure in the anterior joint and help prevent recurrence. In one embodiment of a method, after treatment the Rbad is positioned on the back of the facet capsule and the blades are rotated either in the same direction or in opposite directions rapidly creating a cavity. Fluid is injected through one lumen and aspirated by vacuum through the other lumen. In another embodiment of a method the Rbad is positioned just within or posterior to the joint and a radiofrequency lesion is performed ablating the posterior capsule and synovium and creating an artificial cyst-like cavity. One or more lesions may be created. The artificial cysts act as reservoirs thus decreasing the pressure in the joint and anterior capsule reducing the risk of recurrence of the symptomatic anterior cyst. If desired, surgery, focused ultrasound, coblation techniques or laser energy may be used to create such an artificial posterior cyst cavity.

    [0077] In a further embodiment, the Rbad dual tubes may function as either a unipolar or bipolar RF electrode, and the tubes may be either slowly or rapidly rotated. This may provide an improvement relative to stationary RF electrodes as rotating electrodes distribute the RF energy more uniformly. Also certain trajectories of motion distribute energy more uniformly and efficiently than others.

    [0078] In another embodiment of a method, the cyst is directly accessed and treated with the Rbad with a or coaxial tube or insulated wire inserted through a tube or sheath of the Rbad.

    [0079] In another embodiment of a method, the neck of a cyst may be accessed by a Rbad or coaxial tube or insulated wire inserted through a tube of sheath of the Rbad. The cyst is first aspirated and/or ruptured and then the neck of the cyst is ablated preventing recurrence. The neck of the cyst may be treated for example with RF ablation or cryoablation to occlude the channel between the cyst and joint.

    [0080] The synovium of the joint produces the fluid filling the joint and distending the cyst. In one preferred embodiment, the cyst wall and facet capsule may be ablated with RF energy. This embodiment is specifically directed at synovial ablation. Conductive fluid such as saline may be circulated through the system increasing the effective size of the Rbad electrode allowing for ablation of more synovium. This partially ablates the synovium, reducing the production of synovial fluid and reducing the risk of recurrence of the cyst. This also treats pain by reducing capsular distension and treating posterior capsular structures. In variations of this embodiment the Rbad may be used either as the primary method of percutaneous treatment or prior to, after or during an open surgical procedure to reduce the risk of recurrent synovial cysts of the facet joints after surgery.

    [0081] Since there are two tubes, which may be in the form of needles (e.g., spinal needles or hypodermic needles), forming the tip of the Rbad device, fluid may be circulated in the system by injecting or pumping fluid through one tube and aspirating fluid by suction or vacuum through the other tube. This allows the operator to remove debris, small bone or cartilage fragments and blood by circulating fluid thus flushing and cleaning both the joint and cyst.

    [0082] The Rbad is a multipurpose device that may function as a tissue resector, trocar, drill, access device, retractor, irrigator and/or RF ablation electrode.

    [0083] FIG. 1 illustrates a portion of a vertebral column showing the general location of facet joints 102 between superior and inferior processes of the vertebrae. FIG. 2 is an illustration of a portion of a vertebral column as shown in FIG. 1, but showing a synovial cyst 104 located anterior to a facet joint 102. FIG. 3 is an illustration of two rotatable hollow members 106 (e.g., tubes, needles) with pointed distal portions 108 that may be used as rotatable members, or tubes, of an Rbad. FIG. 4 shows the same two hollow members 106 as shown in FIG. 3 in adjacent relation as they may be constrained within a sheath of a Rbad and with the hollow members 106 rotated to relative positions where the distal portions 108 are in a facet joint penetration configuration with distal portions positioned to form a piercing tip to pierce through tissue and penetrate into a facet joint. In a preferred facet joint penetration configuration the hollow members are adjoining, with no or essentially no gap between them as constrained within a sheath. FIG. 5 is an illustration of the same hollow members 106 as shown in FIGS. 3 and 4 and showing rotation of the hollow members 106 about their respective longitudinal axes to change the positioning of the distal portions 108 between a facet joint penetration configuration 110 and a facet joint retraction configuration 112. Arrows in FIG. 5 show an example of relative rotation of the hollow members 106 to change from the facet joint penetration configuration 110 to the facet joint retraction configuration 112.

    [0084] FIG. 6 is an illustration showing a facet joint surgical tool 120 (e.g., a Rbad) with two rotatable hollow members 122 disposed through a sheath 124 and positioned in a facet joint penetration configuration with a tissue piercing tip that has penetrated into the facet joint 102. FIG. 7 shows the same surgical tool 120 with the hollow members 122 rotated to position the pointed distal portions of the hollow members in a facet joint retraction configuration to widen the facet joint 102 following penetration into the facet joint 102. FIG. 8 shows the sheath 124 of the same surgical tool 120 after the sheath 124 has been advanced into the facet joint to maintain retraction of the facet joint. As shown in FIG. 8, the hollow members 122 have been removed from the sheath 124, permitting the sheath 124 to be used as a conduit for conduction other medical tools or fluid compositions into or through the retracted facet joint 102. The arrow in FIG. 8 shows that the sheath 124, which has an oval cross section, may be rotated between retracting and non-retracting positions, which are illustrated in FIG. 9. In a retracting position, the major, or long, axis of the oval cross-section of the sheath 124 is perpendicular to the facets of the facet joint, and the ends of the sheath 124 at opposite ends of the long axis of the oval cross-section push against the facets and wedge the facet joint into a retracted, or widened position. In a non-retracting position, the minor, or short, axis of the oval-cross section of the sheath 124 is perpendicular to the facets and the facet joint 102 is in an unretracted or less retracted situation. The non-retracting position of the sheath may be beneficial, for example, to permit easier withdrawal of the sheath 124 from the facet joint 102, for example at the conclusion of a surgical procedure. FIG. 10 shows the sheath 124 used as a conduit to conduct a medical tool 126 (e.g., a wire) to the facet joint 102 and through the facet joint 102 to the vicinity of the cyst 104, for example to perform a surgical operation on or in the vicinity of the cyst 104 (e.g., to puncture the cyst).

    [0085] FIG. 11 shows adjacent rotatable hollow members 130 with pointed distal end portions positioned in a facet joint retraction configuration, and with arrows showing a possible fluid circulation path with fluid being delivered from one hollow member 130b and aspirated through the other hollow member 130a. Such fluid circulation may, for example, be used to irrigate in the vicinity of a facet joint.

    [0086] Reference is now made FIGS. 12-17 illustrating one example embodiment of a kit with components useful for performance of a medical procedure in the vicinity of a facet joint, for example to treat a synovial cyst. Shown in FIG. 12 is an example kit 150 with components assemblable into facet joint surgical tool configurations. The kit 150 include first and second rotatable working pieces 152a,b, each having a distal end 154a,b and a proximal end 156a,b and with a rotatable member 158a,b, fluid connection hub 160a,b and rotation actuation handle 162a,b. The rotatable members 158a,b include insertion portions 164a,b disposed distal of the corresponding rotation actuation handle 162a,b and non-insertion proximal portions including connection locations for the rotation actuation handles. As shown in FIGS. 13C and 14C, the rotatable members 158a,b include distal portions 166a,b that taper toward the distal tips 154a,b. The rotatable member 158a of the working piece 152a includes an arcuate portion 168 with a bend that helps to keep the fluid connection hubs 160a and 160b from interfering when the rotatable members 158a and 158b are rotated relative to one another. The bend of the arcuate portion 148 also makes it easier to connect the fluid hubs 160a, 160b with fluid manipulation devices (e.g., syringes) without the fluid manipulation devices interfering with each other.

    [0087] The kit 150 includes a sheath 174 including a distal end 176 and a proximal end 178. The sheath 174 includes an internal passage therethrough sized to receive and constrain in a side-by-side relationship the insertion portions 164a and 164b of the rotatable members 158a,b. The sheath 174 includes a tapered distal end portion 182 adjacent the distal end 176 of the sheath 174. In the tapered distal end portion 182, the exterior cross-section of the sheath 174 reduces in size toward the distal end 176 as the thickness of the sheath wall is reduced toward the distal end 176 along the tapered distal end portion 182. The cross-section of the internal passage 180 is constant through the entire length of the sheath 174. The sheath 174 includes a maximum exterior cross-section, as best shown in FIG. 15C, that includes a larger first cross dimension OD1 than the second cross dimension OD2. So that the maximum exterior cross-section of the sheath 174, and therefore also the insertion cross-section of the sheath 174, has an aspect ratio (OD1/OD2) of larger than one. Likewise, the minimum area cross-section within the internal passage 180 includes a first cross dimension ID1 that is larger than the second cross dimension ID2 and therefore also has an aspect ratio (ID1/ID2) of greater than one.

    [0088] The kit 150 also includes two stylets 190a,b including solid needle insert members 192a,b extending from hand-manipulable heads 194a,b. The stylets 190a,b include pointed distal tips 196a,b. The stylets 190a,b are configured for insertion of the needle insert members 192a,b through the working pieces 152a,b with the distal tips 196a,b corresponding with the distal ends of lumens through the rotatable members 158a,b adjacent the distal tips 154a,b, to block the distal ends of the lumens to prevent tissue coring when the rotatable members 158a,b are positioned in a piercing configuration and used to pierce through tissue during a surgical procedure. The fluid connection hubs 160a,b and the heads 194a,b of the stylets 190a,b may have corresponding keyed features that properly align beveled stylet ends at the distal tips 196a,b with beveled needle points of the distal end portions 166a,b or the rotatable members 158a,b when the insertion needle members 192a,b are fully inserted through the rotatable working pieces 152a,b with the heads 194a,b engaged with the fluid connection hubs 160a,b.

    [0089] FIGS. 16 and 17 illustrate an example facet joint surgical tool 200 including an assembly of the working pieces 152a,b, sheath 174 and stylets 190a,b of the kit 150. In the assembly of the facet joint surgical tool 200, the insertion portions of the rotatable members 158a,b are disposed through the internal passage of the sheath 174 with the distal tips 154a,b disposed distal of the distal end 176 of the sheath 174. The rotation actuation handles 162a,b are disposed proximal of the proximal end 178 of the sheath 174. The needle insert members 192a,b (not shown in FIGS. 16 and 17) are inserted through the working pieces 152a,b with the heads 194a,b engaged with the fluid connection hubs 160a,b of the working pieces 152a,b. FIG. 16 shows the facet joint surgical tool 200 with the rotatable members 158a,b rotated to relative positions where the distal end portions 166a,b are in a facet joint penetration configuration with a piercing tip to pierce though tissue and penetrate into a facet joint as needed for a facet joint surgical procedure. FIG. 17 shows the rotatable members 158a,b rotated to relative positions with the distal end portions 166a,b in a facet joint retraction configuration with the distal tips 154a,b separated by approximately the combined diameters of the rotatable members 158a,b. As shown in FIG. 17, in the facet joint retraction configuration the rotatable members 158a,b have each been rotated 180 relative to positioning shown in FIG. 16 through manipulation of the rotation actuation handles 162a,b, as shown by the rotational arrows in FIG. 17. In either of the configurations shown in FIGS. 16 and 17, the stylets 190a,b may be removed from one or both of the working pieces 152a,b to open the lumen through the respective rotatable member 158a,b to permit access for medical procedures during a surgical operation.

    [0090] Referring now to FIG. 18, another example kit 210 is shown that includes the working pieces 152a,b, the sheath 174, and the stylets 190a,b shown in FIGS. 12-17. The kit 210 shown in FIG. 18 also includes a fluid manipulation device in the form of a syringe 212, which may be pre-filled with a fluid composition for use during a facet joint synovial cyst surgical operation. The syringe 212 includes a fluid connector 214 configured to engage with an end portion of the fluid connection hubs 160a,b to permit the syringe 212 to be used to manipulate fluid through the lumen of a rotatable member 158. Such a kit 210 may include multiple ones of such a fluid manipulation device as the syringe 212, with different ones of such syringes 212 including different fluid compositions for use during a surgical operation. For example, a syringe 212 may be pre-filled with an irrigation liquid, such as a saline solution, and another such syringe 212 may be pre-filled with a fluid composition including an active component, for example a collagenase or a hyaluronidase, used to treat a facet joint synovial cyst. FIG. 19 illustrates an example facet joint surgical tool 218 including assembled components from the kit 210, including the working pieces 152a,b, sheath 174 and syringe 212. The sylets 190a,b are not included in the assembly of the surgical tool 218. As shown in FIG. 19, the rotatable members 158a,b have relative positioning so that the distal end portions 166a,b are in a facet joint retraction configuration, similar to as shown in FIG. 17, but without the sylets 190a,b received through the working pieces 152a,b and with the syringe 212 fluidly connected with working piece 152a through the fluid connection hub 160a to permit manipulation of fluid by the syringe through the lumen of the rotatable member 158a.

    [0091] Reference is now made to FIGS. 20-28 illustrating some example surgical procedures using a facet joint surgical tool of this disclosure to treat an anterior facet joint synovial cyst. FIG. 20 shows a portion of a facet joint surgical tool 300 inserted through the skin 330 of a patient through tissue of the patient to a posterior side of a facet joint 302 between a superior articular process 304 and an inferior articular process 306 of adjacent vertebrae. The synovial membrane, or synovium, 308 secretes synovial fluid to lubricate the facet joint 302. A synovial cyst 310 is located to the anterior side of the facet joint 302 and is fluidly connected with the interior of the facet joint 302 through a small opening through a neck 332. For illustration, the synovial cyst 310 is depicted in FIG. 20 as a true cyst lined with synovial cells, but alternatively the synovial cyst 310 could be a pseudocyst formed in tissue anterior to the synovium on the anterior side of the facet joint 302. Shown in FIG. 20 is an inserted portion of the surgical tool 300 including a portion of a sheath 316 having disposed therethrough two rotatable members 318 and 320 with distal end portions 322 and 324 configured to form a piercing tip. As shown in FIG. 20, the piercing tip of the facet joint surgical tool 300 has been advanced to a point where distal tips 326 and 328 of the rotatable members 318 and 320 project into the facet joint 302 from the posterior side. The facet joint surgical tool 300 may, for example, be the facet joint surgical tool 200 configured in the facet joint penetration configuration as shown in FIG. 16, or may be of a different design. In a preferred implementation, when penetrating through tissue to the facet joint 302, the surgical tool 300 may be configured with sylets disposed through lumens of the rotatable members 318 and 320 to close off distal ends of the lumens to prevent tissue coring during tissue penetration.

    [0092] FIG. 21 shows the facet joint surgical tool 300 at the same point of advancement as shown in FIG. 20, except that the rotatable members 318 and 320 have been rotationally repositioned so that the distal end portions 322 and 324 are in a facet joint retraction configuration to retract the facet joint 302, to provide a larger opening through the facet joint 302 for performance of medical procedures directed towards treatment of the synovial cyst 310. The retraction may also help to increase the opening through the neck 332 into the synovial cyst 310. Stylets through lumens of the rotatable members 318 and 320 may be removed before or after rotating the rotatable members 318 and 320 to reconfigure the distal end portions 322 and 324 from the facet joint penetration configuration to the facet joint retraction configuration.

    [0093] FIG. 22 shows the facet joint surgical tool 300 advanced deeper into the facet joint 302 to a point where the sheath 316 is jammed into the joint to keep the joint open, permitting the rotatable members to be moved, repositioned or removed from the sheath 316 as needed for performing medical procedures while maintaining the facet joint 302 in a retracted position. FIG. 23 shows the facet joint surgical tool 300 in the same positioning as shown in FIG. 22, except with suction being applied through the lumen of one or both of the rotatable member 318 and 320 to aspirate fluid that is amendable to aspiration from the facet joint 302 and the synovial cyst 310. Aspiration is shown with the distal end portions 322 and 324 in the retraction configuration, but such aspiration could also be performed with the distal portions positioned in the piercing configuration or in a different configuration. Because of the highly viscous nature of material in the facet joint 302 and the synovial cyst 310, and the often restricted opening between the two, such aspiration may often not remove a significant amount of fluid or provide enhancement of fluid communication into the facet joint 302 from the synovial cyst 310.

    [0094] FIG. 24 shows the facet joint surgical tool 300 in the same position as shown in FIGS. 22 and 23, but with a fluid composition being injected into the facet joint 302 through the lumen of one or both of the rotatable members 318 and 320. The fluid composition may include an active component to help liquefy or to decompose tissue within the facet joint 302 and/or the synovial cyst 310, such as for example a hyaluronidase or a collagenase. Fluid pressure from the fluid injection alone or together with liquefying action of an active component in the fluid composition may help to improve fluid communication to the synovial cyst 310. Such fluid pressure may alternatively be provided by injecting irrigation liquid as the fluid composition, for example apply fluid pressure to help increase the fluid opening to the synovial cyst 310 or even to rupture the synovial cyst 310.

    [0095] When the fluid composition includes an active component to help liquefy the material within the synovial cyst, the procedure may be discontinued for a wait time to allow the action component time to work before attempting to further remove material from the synovial cyst 302. Following such a wait time after injecting such a fluid composition, the joint may be aspirated, for example in a manner as shown in FIG. 23, to remove liquefied material, either due to viscosity reduction, such as through the addition of hyaluronidase, or through lower viscosity material resulting from digestion of tissue, for example using a collagenase. When using a collagenase, the tissue may alternatively be not aspirated and maybe left to digest and be removed by normal metabolic activity. In addition to or as an alternative to aspiration in a manner as shown in FIG. 23, the facet joint 302 and synovial cyst 310 may be irrigated with an irrigation liquid to help remove tissue from the synovial cyst 310, either before or after injection of a fluid composition such as shown in FIG. 24. In one variation, such an active fluid composition may be injected as shown in FIG. 23 and then after some wait time, the facet joint 302 and synovial cyst 310 may be irrigated with an irrigation liquid as shown in FIG. 25 to help flush reduced viscosity tissue from the synovial cyst 310 for removal through the rotatable member 320 while irrigation liquid is introduced through the other rotatable member 318.

    [0096] Referring now to FIG. 26, the facet joint surgical tool 300 is shown following treatment of the synovial cyst 310 and showing the synovial cyst 310 significantly reduced in size due to removal of material from the volume of the synovial cyst 310. In FIG. 25, the facet joint surgical tool 300 has been withdrawn to a more posterior position at which one or both of the rotatable members 318 and 320 are used as a RF electrode for performing a RF ablation procedure at the posterior edge of the facet joint 302 to create an artificial cavity. For example, the rotatable members 318 and 320 may be made of a metallic material (e.g., stainless steel) useful for transmitting RF signals. The RF ablation procedure ablates tissue at the posterior edge of the facet joint 302 to create an ablated tissue volume 340 to provide an artificial cavity to provide a volume to receive excess synovial fluid as an alternative to synovial cyst recurrence on the anterior side of the facet joint 302. Following creation of the artificial cavity of the ablated tissue volume 340, the facet joint surgical tool 300 may be further withdrawn from the patient.

    [0097] Reference is now made to FIG. 27 in which the facet joint surgical tool 300 has been further withdrawn to a more posterior location relative to the ablated tissue volume 340. At this location, a further tissue ablation procedure may be performed as shown in FIG. 27 to prepare a second ablated tissue volume 342, such as by RF ablation that may again use one or both of the rotatable members 318, and 320 as a RF electrode for transmitting RF energy for the second ablation procedure. This second RF ablation procedure may be targeted to destroy or significantly impair activity of the synovium located on the posterior side of the facet joint 302, to reduce potential for generating synovial fluid that could fill the artificial cavity or that could migrate through the facet joint 302 to the anterior side to promote recurrence of a synovial cyst on the anterior side of the facet joint 302. After performing this second RF tissue ablation procedure, the facet joint surgical tool 300 may be completely withdrawn from the patient, as shown in FIG. 28.

    [0098] Referring now to FIG. 29, an example is shown of a facet joint surgical tool with one of the rotatable members connected to a RF signal source for use of the rotatable member as a RF electrode for performing a RF ablation procedure. As shown in FIG. 29, a facet joint surgical tool 400 includes two rotatable members 402 and 404 constrained in a side-by-side relationship through a sheath 406. The rotatable member 404 is electrically connected through an electrical connector 408 with a RF signal generator 410 to provide a RF signal to the rotatable member 402 to be transmitted to a distal end of the rotatable member 402 to emit RF energy for RF tissue ablation.

    [0099] Any feature of any aspect or any embodiment disclosed herein may be combined in any combination with any feature or features of any other aspect(s) or embodiments(s), and may be applied in like manner to treatment of synovial cysts at synovial joints other than the facet joints.

    [0100] The foregoing discussion of the invention and different aspects thereof has been presented for purposes of illustration and description. The foregoing is not intended to limit the invention to only the form or forms specifically disclosed herein. Consequently, variations and modifications commensurate with the above teachings, and the skill or knowledge of the relevant art, are within the scope of the present invention. The embodiments described hereinabove are further intended to explain best modes known for practicing the invention and to enable others skilled in the art to utilize the invention in such, or other, embodiments and with various modifications required by the particular applications or uses of the present invention. It is intended that the appended claims be construed to include alternative embodiments to the extent permitted by the prior art. Although the description of the invention has included description of one or more possible implementations and certain variations and modifications, other variations and modifications are within the scope of the invention, e.g., as may be within the skill and knowledge of those in the art after understanding the present disclosure. It is intended to obtain rights which include alternative embodiments to the extent permitted, including alternate, interchangeable and/or equivalent structures, functions, ranges or steps to those claimed, whether or not such alternate, interchangeable and/or equivalent structures, functions, ranges or steps are disclosed herein, and without intending to publicly dedicate any patentable subject matter. Furthermore, any feature described or claimed with respect to any disclosed implementation may be combined in any combination with one or more of any other features of any other implementation or implementations, to the extent that the features are not necessarily technically incompatible, and all such combinations are within the scope of the present invention.

    [0101] The terms comprising, containing, including and having, and grammatical variations of those terms, are intended to be inclusive and nonlimiting in that the use of such terms indicates the presence of some condition or feature, but not to the exclusion of the presence also of any other condition or feature. The use of the terms comprising, containing, including and having, and grammatical variations of those terms in referring to the presence of one or more components, subcomponents or materials, also include and is intended to disclose the more specific embodiments in which the term comprising, containing, including or having (or the variation of such term) as the case may be, is replaced by any of the narrower terms consisting essentially of or consisting of or consisting of only (or the appropriate grammatical variation of such narrower terms). For example, a statement that some thing comprises a stated element or elements is also intended to include and disclose the more specific narrower embodiments of the thing consisting essentially of the stated element or elements, and the thing consisting of the stated element or elements. Examples of various features have been provided for purposes of illustration, and the terms example, for example and the like indicate illustrative examples that are not limiting and are not to be construed or interpreted as limiting a feature or features to any particular example. The term at least followed by a number (e.g., at least one) means that number or more than that number. The term at least a portion means all or a portion that is less than all. The term at least a part means all or a part that is less than all.

    [0102] The features in the drawings are shown for illustration purposes and to generally show relative positioning and interaction, and the features shown are not necessarily to scale and depictions may not be complete in every detail.