12949687 (P.T.A.B. Dec. 17, 2018)

Ex Parte Makower et al

Patent Trial and Appeal BoardDec 17, 2018

12949687 (P.T.A.B. Dec. 17, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 12/949,687 11/18/2010 118733 7590 12/19/2018 Moximed, Inc 46602 Landing Parkway Fremont, CA 94539 FIRST NAMED INVENTOR Joshua Makower UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www .uspto.gov ATTORNEY DOCKET NO. CONFIRMATION NO. P048 Cl 6266 EXAMINER HOUSTON, ELIZABETH ART UNIT PAPER NUMBER 3771 NOTIFICATION DATE DELIVERY MODE 12/19/2018 ELECTRONIC Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): ip@cnmiplaw.com acermak@cnmiplaw.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte JOSHUA MAKOWER, CLINTON N. SLONE, ALAN C. REGALA, MICHAELE. LANDRY, and ANTON G. CLIFFORD 1 Appeal 2017-011158 Application 12/949,687 Technology Center 3700 Before ERIC B. GRIMES, JOHN G. NEW, and TIMOTHY G. MAJORS, Administrative Patent Judges. NEW, Administrative Patent Judge. DECISION ON APPEAL 1 Appellants identify the real party-in-interest as Moximed, Inc. App. Br. 3. Appeal 2017-011158 Application 12/949,687 SUMMARY Appellants file this appeal under 35 U.S.C. Â§ I34(a) from the Examiner's Final Rejection of claims 1-8, 10, and 13-16 as unpatentable under 35 U.S.C. Â§ I03(a) as being obvious over the combination of Colleran et al. (US 2006/0247637 Al, November 2, 2006) by ("Colleran") and Schar et al. (US 6,176,881 Bl, January 23, 2001) ("Schar"). We have jurisdiction under 35 U.S.C. Â§ 6(b). We REVERSE. NATURE OF THE CLAIMED INVENTION Appellants' invention is directed to an implantable system for manipulating energy transferred by first and second members defining a joint. Abstr. REPRESENTATIVE CLAIM Claim 1 is representative of the claims on appeal and recites: 1. An implantable system for manipulating energy transferred by first and second members defining a joint, the system comprising: a first attachment structure configured to be attached to the first member of the joint; a second attachment structure configured to be attached to the second member of the joint; and an adjustable energy manipulation device attached to the first attachment structure and second attachment structure, the adjustable energy manipulation device includes at least one spring arranged to bias the first and second attachment structures apart and one or more adjustable assemblies, wherein at least one 2 Appeal 2017-011158 Application 12/949,687 adjustable assembly of the one or more adjustable assemblies comprises a plurality of non-threaded teeth and a locking collar configured to contact the teeth to lock the adjustable energy manipulation device to adjust a size of the energy manipulation device to affect an amount of compression in the spring; wherein the spring has a size and the adjustable energy manipulation device is movable to an orientation so that the adjustable energy manipulation device has a size greater than the size of the spring and beyond which the spring is under no load. App. Br. 19. ISSUES AND ANALYSES Issue Appellants argue the Examiner erred in finding that the combined cited prior art teaches the limitation of claim 1 reciting: "wherein the spring has a size and the adjustable energy manipulation device is movable to an orientation so that the adjustable energy manipulation device has a size greater than the size of the spring and beyond which the spring is under no load. App. Br. 15. Analysis The Examiner finds that Colleran teaches, inter alia, that the spring has a size and the adjustable energy manipulation device is movable to an orientation so that the adjustable energy manipulation device has a size greater than the size of the spring and beyond which the spring is under no load. Final Act. 4. The Examiner finds that rod 1106/1108 of Colleran is longer than the length of mounted spring 1104. Id. ( citing Colleran Fig. 3 Appeal 2017-011158 Application 12/949,687 1 lA). The Examiner finds that the spring is capable of transitioning between tension and compression as a joint moves from flexion and extension, and that the transition point results in no load on a spring and the stop. Id. Appellants argue that Colleran teaches a device in which the spring 1104 is always in tension, but for a single point, and the tension of the spring can be adjusted. App. Br. 15. However, Appellants assert, the adjustment stop 1110 of Colleran's invention can at no point be put in a position or orientation at which the spring is loose, i.e., beyond which the spring exerts no force and thus transfers no load. Id. Appellants dispute as inapposite the Examiner's finding that: [T]he spring is capable from transitioning between tension and compression as a joint moves from flexion and extension, the transition point resulting in no load on a spring and the stop." App. Br. 15-16 (quoting Final Act. 4). Appellants contend that the Examiner has incorrectly thus equated two entirely different physical conditions: a single "transition point" at which Colleran's spring is unloaded; and Appellants' claimed invention, which includes an entire range of positions, beyond a particular point, at which the adjustable energy manipulation device has a size greater than the size of the spring, and beyond which the spring is under no load. Id. at 16. Appellants assert that, because the claimed combination requires a range of positions, and not only the single transition point at which Colleran's spring is unloaded, the teachings of Colleran relied upon by the Examiner do not read upon the disputed limitation of Appellants' claims. Id. Appellants argue that Schar does not cure the alleged deficiencies of Colleran. App. Br. 16. Moreover, Appellants argue, Colleran and Schar are 4 Appeal 2017-011158 Application 12/949,687 each directed to different fields of endeavor: Colleran is directed to methods of decompression of the natural spine to assist disc healing, whereas Schar teaches reconstruction of the spine with an artificial, prosthetic vertebra. Id. Therefore, Appellants assert, a person of ordinary skill in the art would have found no rational reason to combine the references to reach Appellants' claimed invention. Id. The Examiner responds that Colleran teaches that the tension of the spring is adjustable and that, because the rods move within each other and the collar is adjustable, it can be adjusted to a length wherein there is no force on the spring. Ans. 7. The Examiner finds that, whereas this may not be desirable for use of the device, it may be desirable in other circumstance, such as during implantation, and, furthermore, the claim does not limit the spring having no force to any particular situation. Id. The Examiner also finds that Colleran teaches that the energy manipulation device rod 1106/1108 length in relation to spring 1104 is disclosed as adjustable (i.e., stop 1110 may be moved to adjust the tension of spring 1104, and that pin 1136 may be set telescoping member. Ans. 8 (citing Colleran ,r,r 139, 144). The Examiner finds that a surgeon would be capable of lengthening the rods, while adjusting the spring force, so that the rods are longer than the spring and there is no load in the spring. Id. The Examiner finds that Colleran further teaches that the device may be pre-calibrated with a force in the spring. Id. (citing Colleran ,r 139). The Examiner finds that this means that the device's spring may or may not be adjusted to have a load present in the spring. Id. The Examiner further finds that Colleran discloses that its device may operate inflexion and extension. Ans. 8. The Examiner notes that these 5 Appeal 2017-011158 Application 12/949,687 movements require opposite forces, such that as a patient moves from flexion to extension the spring will move from compression to tension. Id. Therefore, the Examiner reasons, there will be a transition point between the transition from flexion to extension where the spring will experience no load which will give way to the spring not being under a load but rather supplying the load. Id. We are persuaded by Appellants' arguments. Claim 1 recites, in relevant part: "wherein the spring has a size and the adjustable energy manipulation device is movable to an orientation so that the adjustable energy manipulation device has a size greater than the size of the spring and beyond which the spring is under no load." We find Figures IA and IB of Appellants' Specification instructive in the interpretation of this claim language. See Phillips v. A WH Corp., 415 F.3d 1303, 1316 (Fed. Cir. 2005) ("The Board determines the scope of claims in patent applications not solely on the basis of the claim language, but upon giving claims their broadest reasonable construction in light of the specification as it would be interpreted by one of ordinary skill in the art") (internal quotation omitted). Figures IA and IB of the Specification are reproduced below. f}G, 1,A. 6 Appeal 2017-011158 Application 12/949,687 Figure 1 A of Appellants' Specification is a perspective view depicting an embodiment of an energy absorbing system mounted at a knee joint at full extension FIG. IB is a perspective view depicting the embodiment shown in FIG. IA with the knee joint flexed to 90Â° As can be seen in Figure IA, springs 112 are connected to the piston base 114 and are in contact with the adjustable spacer 124. See Spec. ,r 112. In this position, the adjustable spacer 124 can be adjusted to tighten the springs so that the spring is biased towards pushing the spacer 124 away from the piston base 126, as required by claim 1. Id. The pistons 126 are contained inside the springs 112 and are not visible in this view. Id. During flexion and extension of the knee joint, piston shafts 126 of the piston base slide within arbor shafts of the arbor base, as can be seen in Fig IB. During flexion of the joint, the pistons 126 extend beyond the length of the spring, such that the adjustable spacer 124 is no longer in contact with the ends of the springs. See Spec. ,r 113. When, during flexion, the springs 112 are no 7 Appeal 2017-011158 Application 12/949,687 longer in contact with the adjustable spacer 124, i.e., when "the adjustable energy manipulation device has a size greater than the size of the spring," then at that position of flexion and beyond, "the spring is under no load." We contrast this with the dynamic spine stabilization device taught by Colleran, an embodiment of which is depicted in Figures lB and 1 C below. 128 138b FIG.1B FIG.1C Figures 1 B and 1 C of Colleran depict side views of a dynamic stabilization device illustrating two dimensional rotation of adjacent vertebrae In the dynamic spine stabilization device of Colleran: [T]he brace 136 may include an upper elongated portion 138 and a lower elongated portion 140. The upper elongated portion 138 is free to move with respect to the lower elongated portion 140 along its longitudinal axis in a telescoping manner. This motion may be limited or controlled, in part, by a spring 142. In some embodiments, a stop 144 may allow the spring 142 ( or springs) to be effectively lengthened or shortened. This lengthening or shortening may change the range of motion and, in certain embodiments, may change the force the spring exerts. Colleran ,r 36. Furthermore, Colleran teaches: [T]he dynamic stabilization device 130 includes the spring 142, which in certain embodiments, may act in compression as a 8 Appeal 2017-011158 Application 12/949,687 progressive breaking mechanism or an extension limiter to limit the compression applied to nerves extending from the region 129. Note that as between FIGS. lA and lB, the respective pedicles have separated by approximately 8 mm. The range shown (31 mm to 39 mm) is but one example. Other patients may have other starting and ending points depending upon their particular physical structure and medical condition. Id. at ,r 39. Note that, in both Figures IB and IC, the spring 142 is attached at both ends of the telescoping shaft 13 8 and 140 to the anchors 13 8a and 138b, securing the dynamic stabilization to the spinous process of each vertebra. Consequently, when spine is flexed, the spring 142 is extended (Figure IB) and exerts a force in the opposite direction, whereas when the spine is not flexed (Figure 1 C), the spring 142 is compressed. But the Examiner points to no teaching or suggestion of Colleran in which the spring is not attached at either end so that, as in the claimed invention, the springs are not in contact with the anchors (or adjusting device 144) such that there is no load on the spring beyond that point. The Examiner tacitly concedes this point, by finding that, between extension and flexion of the spine: "there will be a transition point between the transition from flexion to extension where the spring will experience no load, which will give way to the spring not being under a load but rather supplying the load." See Ans. 8. However, the language of the claims expressly requires that: "the adjustable energy manipulation device has a size greater than the size of the spring and beyond which the spring is under no load." Contrary to the Examiner's findings, the dynamic spinal stabilization device of Colleran does not possess a size greater that the size of the spring, because the spring is attached at both ends and stretches or compresses with extension and flexion of the spine - indeed, the spring can 9 Appeal 2017-011158 Application 12/949,687 act a limiting device on the amount of permitted extension and flexion of the spine. Furthermore, we find that a spring under a negative load (i.e., an extended spring supplying the load) is, nevertheless, a spring under a load. We cannot discern any teaching or suggestion in Colleran that persuades us that the device of Colleran can have a "size greater than the size of the spring and beyond which the spring is under no load." We consequently reverse the Examiner's rejection of the claims. DECISION The Examiner's rejection of claims 1-8, 10, and 13-16 under 35 U.S.C. Â§ 103(a) is reversed. REVERSED 10