13443876 (P.T.A.B. Sep. 7, 2018)

Ex Parte Youngquist et al

Patent Trial and Appeal BoardSep 7, 2018

13443876 (P.T.A.B. Sep. 7, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 13/443,876 04/10/2012 David Youngquist 86528 7590 09/11/2018 Slayden Grubert Beard PLLC 401 Congress Avenue Suite 1650 Austin, TX 78701 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. 16591.105084 4871 EXAMINER JENNESS, NATHAN JAY ART UNIT PAPER NUMBER 3762 NOTIFICATION DATE DELIVERY MODE 09/11/2018 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): trosson@sgbfirm.com patent@sgbfirm.com dallen@sgbfirm.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte DAVID YOUNGQUIST, HARVEY I-HENG LIU, JAY M. VAHLENSIECK, PATRICK REICHERT, JOHN P. BEALE, and TOBIN ISLAND 1 Appeal2018-005285 Application 13/443,876 Technology Center 3700 Before DONALD E. ADAMS, JOHN G. NEW, and RYAN H. FLAX, Administrative Patent Judges. FLAX, Administrative Patent Judge. DECISION ON APPEAL This is a decision under 35 U.S.C. Â§ 134(a) involving claims directed to a hand-held device for providing a dermatological treatment by scanning laser beams to form a pattern of treatment spots on the skin. Claims 1-3, 5, 6, 8-14, 16, and 18-21 are on appeal as rejected under 35 U.S.C. Â§ 103.2 We have jurisdiction under 35 U.S.C. Â§ 6(b). We affirm. 1 Appellants identify the Real Party in Interest as "Channel Investments, LLC." Appeal Br. 2. Herein we reference the Specification of Apr. 10, 2012 ("Spec."); the Final Office Action of May 8, 2017 ("Final Action"); the Appeal Brief of Jan. 8, 2018 ("Appeal Br."); the Examiner's Answer of Feb. 23, 2018 ("Answer"); and Reply Brief of Apr. 23, 2018 ("Reply Br."). 2 A rejection under 35 U.S.C. Â§ 112, first paragraph, for lack of written description was withdrawn. Advisory Action dated Sept. 25, 2017. Appeal2018-005285 Application 13/443,876 STATEMENT OF THE CASE The Specification describes a "device [that] provides automatically scanned and/ or pulsed energy beams to the skin to provide a fractional dermatological treatment, e.g., skin resurfacing, skin rejuvenation, wrinkle treatment, removal or reduction of pigmentation, treatment of coarse skin caused by photodamage, etc." Spec. 4:24--27. The Specification further states, The device may be configured to generate an array of MTZs [ micro thermal zones] in the skin that are laterally spaced apart from each other by volumes of untreated (i.e., non-irradiated or less irradiated) skin. For example, an application end of the device may be manually moved ( e.g., in a gliding manner) across the surface of the skin during a treatment session. An automatically scanned array of beams may be delivered to the skin (to generate an array of MTZs in the skin). Id. at 5:5-10. Independent claim 1 is representative and is reproduced below: 1. A hand-held device for providing a dermatological treatment by scanning laser beams to form a pattern of treatment spots on the skin, comprising: a laser source configured to generate an input laser beam at a wavelength in the range of 1400-1500 nm or 1800-2600 nm; and an automated scanning system including a rotating multi- sector scanning element configured to repeatedly scan the input laser beam, each scan of the input laser beam providing an array of output laser beams corresponding to the multiple sectors of the scanning element and forming a scanned row of treatment spots on the skin; wherein the rotating multi-sector scanning element is configured such that the each sector provides a constant-angular- 2 Appeal2018-005285 Application 13/443,876 direction output laser beam as that sector rotates through the input laser beam; wherein the treatment spots of each scanned row are spaced apart from each other by areas of non-treated skin to provide a fractional treatment to the skin, wherein each treatment spot is defined by a contiguous area on the skin surface receiving at least l/e2 times the maximum intensity of a respective beam pulse, and the areas of non-treated skin receive insufficient radiation to qualify as a treatment spot; and a treatment spot control system comprising hardware circuitry configured to provide a defined non-zero minimum distance, in a direction of manual movement of the device, between corresponding treatment spots of adjacent rows of treatment spots, the corresponding treatment spots being formed by the same sector of the multi-sector scanning element during consecutive rotations of the scanning element, such that the corresponding treatment spots of adjacent rows of treatment spots are spaced apart from each other along the direction of manual movement of the device by areas of non-irradiated skin; wherein the hardware circuitry of the treatment spot control system is programmed such that during a manual movement of the device across the skin at a velocity providing less than a defined minimum displacement of the device during a period corresponding with a defined rotation of the rotating multi-sector scanning element, the treatment spot control system temporarily interrupts and then automatically restarts the formation of treatment spots on the skin by the device to achieve the defined non-zero minimum distance between corresponding treatment spots of adjacent rows of treatment spots, such that the device delivers output laser beams to the skin for any non-zero manual movement velocity of the device that results in a displacement of the device of at least the defined minimum displacement across the skin; wherein the output laser beams are delivered from an application end of the device toward the skin; and 3 Appeal2018-005285 Application 13/443,876 wherein the delivered laser beams meet the Class 1 M or better eye safety classification per the IEC 60825-1. Appeal Br. 25-26 (Claims Appendix) (emphasis added to identify the limitation argued by Appellants). The following rejections are appealed: Claims 1, 2, 5, 6, 11-14, 16, 18, and 21 stand rejected under 35 U.S.C. Â§ I03(a) over Dewey3 and Hawkins. 4 Final Action 7. Claim 3 stands rejected under 35 U.S.C. Â§ I03(a) over Dewey, Hawkins, and Batterson. 5 Id. at 13. Claims 8, 9, and 18 stand rejected under 35 U.S.C. Â§ I03(a) over Dewey, Hawkins, DeBenedictis, 6 and Waarts. 7 Id. at 14. Claim 10 stands rejected under 35 U.S.C. Â§ I03(a) over Dewey, Hawkins, and Altshuler. 8 Id. at 16. Claims 19 and 20 stand rejected under 35 U.S.C. Â§ I03(a) over DeBenedictis, Dewey, and Hawkins. Id. at 18. DISCUSSION "[T]he examiner bears the initial burden, on review of the prior art or on any other ground, of presenting aprimafacie case ofunpatentability. If that burden is met, the burden of coming forward with evidence or argument shifts to the applicant." In re Oetiker, 977 F.2d 1443, 1445 (Fed. Cir. 1992). Arguments made by Appellants in the Appeal Brief and properly presented 3 US 2012/0197357 Al (pub. Aug. 2, 2012) ("Dewey"). 4 US 2008/0262484 Al (pub. Oct. 23, 2008) ("Hawkins"). 5 US 2010/0130969 Al (pub. May 27, 2010) ("Batterson"). 6 US 2005/0141068 Al (pub. June 30, 2005) ("DeBenedictis"). 7 US 5,790,576 (issued Aug. 4, 1998) ("Waarts"). 8 US 2007/0213698 Al (pub. Sept. 13, 2007) ("Altshuler"). 4 Appeal2018-005285 Application 13/443,876 in the Reply Brief have been considered in this Decision; arguments not so- presented in the Briefs are waived. See 37 C.F.R. Â§ 41.37(c)(l)(iv) (2015); see also Ex parte Borden, 93 USPQ2d 1473, 1474 (BPAI 2010) (informative) ("Any bases for asserting error, whether factual or legal, that are not raised in the principal brief are waived."). "The combination of familiar elements according to known methods is likely to be obvious when it does no more than yield predictable results." KSR Int'! Co. v. Teleflex Inc., 550 U.S. 398,416 (2007). "In determining whether the subject matter of a patent claim is obvious, neither the particular motivation nor the avowed purpose of the patentee controls. What matters is the objective reach of the claim. If the claim extends to what is obvious, it is invalid underÂ§ 103." Id. at 419. The Examiner determined that the claims would have been obvious over the Dewey-Hawkins prior art combination, adding DeBenedictis to this prior art combination in rejecting independent claim 19, and adding Batterson, Waarts, and/or Altshuler to the prior art combination regarding certain limitations of dependent claims. Final Action 7-22 and Answer 2- 11 (collectively citing Dewey ,r,r 15, 20, 29, 33, 41, 42, 45, 48, 52, 53, 56- 59, 74, 78, 87, 88, 90, 93, 97; figures 2--4; Hawkins ,r,r 11, 29, 34, 36, 39, 41, 43, figure 3; DeBenedictis ,r,r 4, 29, 52-54, figure 6; Batterson ,r,r 44, 50, 63, 64, 79-89, figures 7 A-7C; Waarts abstract, 1: 13-29; and Altshuler ,r,r 18- 20, 75, 82, 89, 96, 129, 141, figures 1, 3, 6); see also, supra, Statement of the Case. We discern no error in the Examiner's determinations. We adopt the Examiner's findings of fact and rationale in this Decision. Final Action 7-22; Answer 2-11. We address Appellants' arguments below. 5 Appeal2018-005285 Application 13/443,876 Appellants argue the patentability of the claims as a group and we find that claim 1 is representative. Therefore, all claims stand or fall with claim 1. Appellants focus their arguments on appeal on the contention that the independent claims (1, 19, and 21) are nonobvious over Dewey and Hawkins (regarding independent claim 19, Appellants note that DeBenedictis is also a part of the prior art combination of the respective rejection, but the reference is not pertinent to or discussed in Appellants' arguments). Appeal Br. 13. Appellants argue: a key feature of the invention is that the claimed device delivers laser beams to the skin for any non-zero manual movement velocity of the device, while also ensuring a minimum (non-zero) distance between the treatment spots of adjacent rows, e.g., between spots 70A and 70B shown in Figure 5B copied above [ see below]. In particular, if the user is moving the device across the skin at a very low velocity that would fail to achieve the minimum distance between adjacent treatment spot rows ( e.g., if the device moves less than a defined minimum distance during a defined angular rotation of the rotating scanning element), the device temporarily interrupts and then automatically restarts the delivery of laser beams to the skin to thereby achieve the defined non-zero minimum distance between adjacent treatment spot rows. The cited references, in particular Dewey (US 2012/0197357) in view of Hawkins, fail to teach or make this feature obvious. Id. at 14. Figure 5B from the Specification, referenced above, is reproduced below: 6 Appeal2018-005285 Application 13/443,876 â€¢ l ' 7~r ( 70 70 r; â€¢ â€¢ 728 70A r; â€¢ â€¢ 72C 70B ti (./ .. â€¢ â€¢ â€¢ â€¢ â€¢ â€¢ .. 70C .. â€¢ ii â€¢ â€¢ â€¢ I GLIDE 700 â€¢ D!RECTION â€¢ â€¢ â€¢ â€¢ .. â€¢ ,. â€¢ SCAN DIRECT!ON FIG. 5B Figure 5B "illustrate[s] the general concept of creating rows of treatment spots on the skin using a scanned-beam radiation-based treatment device" and shows rows of treatment spots 70, produced by a laser, aligned in a "glide direction" and diagonally aligned in a "scan direction," dependent on glide speed, scanning rate, displacement-based control, and other factors. Spec. 11: 16-17; 44:3--45:9. Appellants contend Dewey teaches preventing radiation delivery when a glide speed of its device is below a minimum velocity whereas the claim requires temporarily interrupting and then automatically restarting treatment during a low manual movement velocity. Appeal Br. 14. Appellants' argument is that, because Dewey discusses ( a nonspecific and undefined, generic) velocity range for activating and deactivating its laser, Dewey teaches there are velocities outside that range and so not any non- zero velocity or movement will trigger the laser. 7 Appeal2018-005285 Application 13/443,876 Appellants also argue Dewey and Hawkins cannot be combined because the claimed invention is "antithetical" to Dewey's teachings, i.e., Dewey teaches away. Appeal Br. 23. Appellants argue, in any event, Hawkins fails to teach automatically temporally interrupting and automatically restarting a laser, as claimed. Id. Appellants' arguments are not persuasive. We conclude that, in agreement with the Examiner's determinations, Dewey teaches and suggests, and renders obvious the claim element "the device delivers output laser beams to the skin for any non-zero manual movement velocity of the device that results in a displacement of the device of at least the defined minimum displacement across the skin." Upon review of the reference, Dewey teaches a device having hardware programmed to control the functioning of a laser diode in real-time based on the movement of the laser device across a user's skin to ensure that a desired dose of radiation (microscopic treatment zones) is delivered and not exceeded. Dewey ,r,r 29, 56-59, 78, 93, fig. 2. For example, Dewey discloses, "[t]he controller 36 is also configured to prevent the laser 16 from actuating if the handheld apparatus 10 is not being moved by the consumer at an appropriate velocity relative to the consumer's skin surface SS during treatment." Id. ,r 56. Further, Dewey discloses: If the consumer moves the handheld apparatus 10 too slowly or not at all, the dosage of the treatment should be limited. Thus, it is desirable to compensate the control of the laser 16 for the various application velocities, as long as the velocity of the handheld apparatus 10 stays within a desired range (determined 8 Appeal2018-005285 Application 13/443,876 by treatment effectiveness). To this end, the movement and/or velocity of the handheld apparatus 10 may be detected. Id. ( emphasis added). The use of such a laser apparatus is well summarized by Dewey as follows: In summary, the handheld apparatus 10 may be used by a consumer to perform a dermatological treatment, such as fractional skin resurfacing. During treatment, the consumer moves the tip 26 of the handheld apparatus 10 over a treatment area of the skin surface SS. Pulses from the laser 16 are deflected by the optical pattern generator 14 into the skin surface S S to form a plurality of microscopic treatment zones (MfZs) dispersed among and surrounded by non-treated areas of minimally- damaged or undamaged tissue. The velocity of the tip 26 is detected by the mouse detector 82, and the laser 16 is controlled according to this detected velocity. Consequently, a generally constant amount of energy per unit of skin surface S S is deposited regardless of velocity variations during treatment. Dewey ,r 104. Dewey teaches and suggests that movement dropping as low as none at all will cause the controller to tum off the laser and, conversely, essentially any movement can cause the controller to actuate a laser. See id. ,r 93. While not explicit that any movement above none at all will trigger laser activation, Dewey's disclosure certainly contemplates a desired movement-trigger range where any velocity and any movement could be within the desired range, and most certainly contemplates any such triggering movements that are possible by the manual manipulation of the device by a person. "[W]here the general conditions of a claim are disclosed in the prior art, it is not inventive to discover the optimum or workable ranges by routine experimentation." In re Aller, 220 F.2d 454,456 (CCPA 1955). Because, as taught by Dewey, the triggering of laser activation or inactivation based on 9 Appeal2018-005285 Application 13/443,876 the velocity or displacement of the laser is a result effective variable relating to radiation dosing by the laser, determining that "any movement" as claimed is optimal, as compared to Dewey's generic "desired range ( e.g., above zero and above a minimum hand speed," is not a patentable distinction over the prior art. Therefore, we agree with the Examiner's determination that Dewey teaches and suggests the claimed limitation at lSSUe. For the reasons above, we are unpersuaded by Appellants' arguments that neither Dewey nor Hawkins teaches or suggested the claim element at issue, that Dewey teaches away from such an element and the combination of the two prior art references, or that the skilled artisan would not have combined Dewey and Hawkins. SUMMARY The obviousness rejections under 35 U.S.C. Â§ 103 are each affirmed. TIME PERIOD FOR RESPONSE No time period for taking any subsequent action in connection with this appeal may be extended under 3 7 C.F .R. Â§ 1.13 6( a )(1 )(iv). AFFIRMED 10