L300 Go System

{0}------------------------------------------------ Image /page/0/Picture/0 description: The image contains the logos of the Department of Health & Human Services and the Food and Drug Administration (FDA). The Department of Health & Human Services logo is on the left, and the FDA logo is on the right. The FDA logo is a blue square with the letters "FDA" in white, followed by the words "U.S. FOOD & DRUG ADMINISTRATION" in blue. March 9, 2018 Bioness. Inc. Mary Dadone, Ph.D. 25103 Rye Canyon Loop Valencia, California 91355 Re: K173682 Trade/Device Name: L300 Go System Regulation Number: 21 CFR 882.5810 Regulation Name: External Functional Neuromuscular Stimulator Regulatory Class: Class II Product Code: GZI, IPF Dated: November 30, 2017 Received: December 1, 2017 Dear Dr. Dadone: We have reviewed your Section 510(k) premarket notification of intent to market the device referenced above and have determined the device is substantially equivalent (for the indications for use stated in the enclosure) to legally marketed predicate devices marketed in interstate commerce prior to May 28, 1976, the enactment date of the Medical Device Amendments, or to devices that have been reclassified in accordance with the provisions of the Federal Food. Drug, and Cosmetic Act (Act) that do not require approval of a premarket approval application (PMA). You may, therefore, market the device, subject to the general controls provisions of the Act. The general controls provisions of the Act include requirements for annual registration, listing of devices, good manufacturing practice, labeling, and prohibitions against misbranding and adulteration. Please note: CDRH does not evaluate information related to contract liability warranties. We remind you, however, that device labeling must be truthful and not misleading. If your device is classified (see above) into either class II (Special Controls) or class III (PMA), it may be subject to additional controls. Existing major regulations affecting your device can be found in the Code of Federal Regulations, Title 21, Parts 800 to 898. In addition, FDA may publish further announcements concerning your device in the Federal Register. 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For questions regarding the reporting of adverse events under the MDR regulation (21 CFR Part 803), please go to http://www.fda.gov/MedicalDevices/Safety/ReportaProblem/default.htm for the CDRH's Office of Surveillance and Biometrics/Division of Postmarket Surveillance. For comprehensive regulatory information about mediation-emitting products, including information about labeling regulations, please see Device Advice (https://www.fda.gov/MedicalDevices/DeviceRegulationandGuidance/) and CDRH Learn (http://www.fda.gov/Training/CDRHLearn). Additionally, you may contact the Division of Industry and Consumer Education (DICE) to ask a question about a specific regulatory topic. See the DICE website (http://www.fda.gov/DICE) for more information or contact DICE by email (DICE@fda.hhs.gov) or phone (1-800-638-2041 or 301-796-7100). Sincerely, # Vivek J. Pinto -S for Carlos L. Peña, PhD, MS Director Division of Neurological and Physical Medicine Devices Office of Device Evaluation Center for Devices and Radiological Health Enclosure {2}------------------------------------------------ # Indications for Use 510(k) Number (if known) K173682 Device Name L300 Go System #### Indications for Use (Describe) The L300 Go System is intended to provide ankle dorsiflexion in adult and pediatric individuals with foot drop and/or to assist knee flexion or extension in adult individuals with muscle weakness related to upper motor neuron disease/injury (e.g. stroke, damage to pathways to the spinal cord). The L300 Go System electrically stimulates muscles in the affected leg to provide ankle dorsiflexion of the flexion or extension: thus, it also may improve the individual's gait. The L300 Go System may also: - Facilitate muscle re-education - · Prevent/retard disuse atrophy - · Maintain or increase joint range of motion - · Increase local blood flow | Type of Use (Select one or both, as applicable) | <table><tr><td><div> <input checked="true" type="checkbox"/> <span>Residential Use (Part 1, CFR 201, Subpart D)</span> </div></td></tr><tr><td><div> <input type="checkbox"/> <span>On-Site Construction (Part 1, CFR 201, Subpart C)</span> </div></td></tr></table> | <div> <input checked="true" type="checkbox"/> <span>Residential Use (Part 1, CFR 201, Subpart D)</span> </div> | <div> <input type="checkbox"/> <span>On-Site Construction (Part 1, CFR 201, Subpart C)</span> </div> | |----------------------------------------------------------------------------------------------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|----------------------------------------------------------------------------------------------------------------|------------------------------------------------------------------------------------------------------| | <div> <input checked="true" type="checkbox"/> <span>Residential Use (Part 1, CFR 201, Subpart D)</span> </div> | | | | | <div> <input type="checkbox"/> <span>On-Site Construction (Part 1, CFR 201, Subpart C)</span> </div> | | | | > Prescription Use (Part 21 CFR 801 Subpart D) | | Over-The-Counter Use (21 CFR 801 Subpart C) #### CONTINUE ON A SEPARATE PAGE IF NEEDED. 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Send comments regarding this burden estimate or any other aspect of this information collection, including suggestions for reducing this burden, to: > Department of Health and Human Services Food and Drug Administration Office of Chief Information Officer Paperwork Reduction Act (PRA) Staff PRAStaff@fda.hhs.gov "An agency may not conduct or sponsor, and a person is not required to respond to, a collection of information unless it displays a currently valid OMB number." {3}------------------------------------------------ Image /page/3/Picture/0 description: The image contains the logo for "Bioness LiveOn". The logo consists of an abstract sun-like symbol on the left, with the word "Bioness" in bold, gray letters to the right. Below "Bioness" is the word "LiveOn" in a smaller, lighter font. The sun-like symbol is orange and has eight radiating arms. #### 510(k) Summary Bioness Inc. L300 Go System 510(k) Summary: L300 Go System | Applicant Name: | Bioness Inc. | |--------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | Contact Person(s): | Mary Dadone, Ph.D.<br>Regulatory Consultant to Bioness Inc.<br>Office Number: (661) 714-0701<br>Email: mary.dadone@bioness.com | | | Mercedes Bayani<br>Global Director, Regulatory Affairs, Bioness Inc.<br>Office Number: (661) 902-5324<br>Fax Number: (661) 362-4851<br>Email: mercedes.bayani@bioness.com<br>25103 Rye Canyon Loop<br>Valencia, CA 91355, U.S.A | | Date Prepared: | March 8, 2018 | | Trade Name: | L300 Go System | | Classification: | Name: External functional neuromuscular stimulator<br>Product Code: GZI and IPF<br>Regulation No: 21 CFR § 882.5810, § 890.5850<br>Class: II<br>Classification Panel: Neurology | #### Establishment Registration No.: 3004553866 Reason for Submission: Device Modifications Type of Submission:Traditional 510(k) #### Predicate Device: Company: Bioness, Inc. Device: L300 Go System K162407 {4}------------------------------------------------ Image /page/4/Picture/0 description: The image contains the logo for Bioness. The logo consists of an abstract sun-like symbol on the left, with the word "Bioness" in gray to the right of it. Below "Bioness" is the text "LiveOn" in a smaller font size. The sun-like symbol is made up of several orange lines arranged in a circular pattern. ## Purpose of this Traditional 510(k): This Traditional 510(k) is submitted to clear several minor modifications and to address an upgrade in the Mobile Application (MAPP) for the L300 Go System. None of these changes affect the intended use of the device nor do they alter the fundamental scientific technology of the device. ## Device Description: The L300 Go System is intended to provide ankle dorsiflexion in adult and pediatric individuals with foot drop and/or assist knee flexion or extension in adult individuals with muscle weakness related to upper motor neuron disease/injury (e.g., stroke, spinal cord injury) or other disability. The L300 Go System electrically stimulates muscles in the affected leg to provide ankle dorsiflexion of the foot and/or knee flexion or extension; thus, it also may improve the individual's gait. The L300 Go system consists of the following components: - 1) External Pulse Generator (EPG), which can be plugged into lower leg Functional Stimulation Cuff (FSC) or thigh FSC or into both cuffs. EPG contain user interface including control and indications. EPG also contains integrated motion sensors enabling detecting gait events. - 2) Lower leg FSC, including cradle for the EPG. - 3) Upper leg FSC, including cradle for the EPG. - 4) Clinician Application (CAPP), based on tablet PC. CAPP will be used by a trained clinician during configuration of the system for optimal fitting to the patient. - 5) Power supply (charger) with two USB ports and a proprietary cable to charge the EPG. - 6) L300 Go Tester. - 7) Optional Control Unit that allows simple control of the EPG(s). - 8) Optional Foot Sensor, which uses a dynamic gait tracking algorithm to detect heel events and wirelessly synchronizes stimulation. - 9) Optional Mobile Application (MAPP), based on the SmartPhone platform enabling the patients to wirelessly retrieve and monitor their daily activity. At the time of clearance of K162407, the MAPP did not include any control feature, but control features like those of the Optional Control Unit have been added to the MAPP and are part of this submission. ## Indications for Use: The L300 Go System is intended to provide ankle dorsiflexion in adult and pediatric individuals with foot drop and/or assist knee flexion or extension in adult individuals with muscle weakness related to upper motor neuron disease/injury (e.g., stroke, damage to pathways to the spinal cord). The L300 Go System electrically stimulates muscles in the affected leg to provide ankle dorsiflexion of the foot and/or knee flexion or extension; thus, it also may improve the individual's gait. {5}------------------------------------------------ Image /page/5/Picture/1 description: The image shows the logo for Bioness. The logo features a stylized sun-like symbol in orange on the left, followed by the word "Bioness" in gray, with a small orange dot above the "i". Below "Bioness" is the text "LiveOn" in a smaller, lighter gray font. The L300 Go System may also: - Facilitate muscle re-education . - Prevent/retard disuse atrophy - Maintain or increase joint range of motion - Increase local blood flow ● #### Modifications Addressed in this Traditional 510(k) This Traditional 510(k) addresses the following modifications: - Change in the External Pulse Generator (EPG) cover material . - . Firmware/Electrical Changes - . Changes in the Clinician Application (CAPP) software - Changes in the Mobile Application (MAPP) software - Labeling Changes - Packaging Changes ● #### Summary of Technological Characteristics Table 1 below summarizes the technological characteristics of new device in comparison to those of the predicate device. Summary Comparison Table | | L300 Go System (K162407) | L300 Go System after Design Modifications | |-------------------------------------------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | Manufacturer | Bioness Inc. | Bioness Inc. | | 510(k) number | K162407 | K173682 | | Product code | GZI & IPF | GZI & IPF | | | L300 Go System (K162407) | L300 Go System after Design<br>Modifications | | Intended use | The L300 Go System is intended<br>to provide ankle dorsiflexion in<br>adult and pediatric individuals with<br>foot drop and/or to assist knee<br>flexion or extension in adult<br>individuals with muscle weakness<br>related to upper motor neuron<br>disease/injury (e.g., stroke,<br>damage to pathways to the spinal<br>cord). The L300 Go System<br>electrically stimulates muscles in<br>the affected leg to provide ankle<br>dorsiflexion of the foot and/or knee<br>flexion or extension; thus, it also<br>may improve the individual's gait.<br><br>The L300 Go System may also:<br>• Facilitate muscle re-education<br>• Prevent/retard disuse atrophy<br>• Maintain or increase joint range<br>of motion<br>• Increase local blood flow | The L300 Go System is intended<br>to provide ankle dorsiflexion in<br>adult and pediatric individuals with<br>foot drop and/or to assist knee<br>flexion or extension in adult<br>individuals with muscle weakness<br>related to upper motor neuron<br>disease/injury (e.g., stroke,<br>damage to pathways to the spinal<br>cord). The L300 Go System<br>electrically stimulates muscles in<br>the affected leg to provide ankle<br>dorsiflexion of the foot and/or knee<br>flexion or extension; thus, it also<br>may improve the individual's gait.<br><br>The L300 Go System may also:<br>• Facilitate muscle re-education<br>• Prevent/retard disuse atrophy<br>• Maintain or increase joint range<br>of motion<br>• Increase local blood flow | | Number of<br>Output Modes | 2 modes: Biphasic Asymmetric<br>and Symmetric | 2 modes: Biphasic Asymmetric<br>and Symmetric | | Number of<br>Programs | • Gait<br>• Training/Exercise<br>• Clinician mode | • Gait<br>• Training/Exercise<br>• Clinician mode | | Regulated<br>Current or<br>Regulated<br>Voltage | Current | Current | {6}------------------------------------------------ Image /page/6/Picture/0 description: The image shows the logo for Bioness LiveOn. The logo consists of a stylized sunburst symbol in orange on the left, followed by the word "Bioness" in gray, with a small orange dot above the "i". Below "Bioness" is the word "LiveOn" in a smaller, lighter gray font. The overall design is clean and modern. {7}------------------------------------------------ Image /page/7/Picture/0 description: The image contains the logo for "Bioness LiveOn". The logo consists of a stylized sun-like symbol on the left, with the word "Bioness" in a bold, sans-serif font to the right of it. Below "Bioness" is the word "LiveOn" in a smaller, lighter font. The sun-like symbol is orange, while the text is gray. | | L300 Go System (K162407) | L300 Go System after Design<br>Modifications | | | |-------------------------------------------------------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|---------------------------------------------------------------------------------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | Power Source | Control Unit: Li Coin Cell, CR2032,<br>3 V, 240 mAh<br><br>EPG: Rechargeable, Li-Ion,<br>Prismatic, 3.7 V, 1000 mAh<br><br>Foot Sensor: Li Coin Cell,<br>CR2032, 3 V, 240 mAh | Control Unit: Li Coin Cell, CR2032,<br>3 V, 240 mAh<br><br>EPG: Rechargeable, Li-Ion,<br>Prismatic, 3.7 V, 1000 mAh<br><br>Foot Sensor: Li Coin Cell,<br>CR2032, 3 V, 240 mAh | | | | Microprocessor<br>-Controlled | Yes | Yes | | | | Max Output<br>Current<br>(± 10%) | Thigh FSC:<br>100 mA @ 500<br>Ohm load<br><br>L300 Lower Leg<br>FSC: 100 mA @<br>500 Ohm load | Thigh FSC:<br>100 mA @ 500<br>Ohm load<br><br>L300 Lower Leg<br>FSC: 100 mA @<br>500 Ohm load | | | | Max Average<br>Current Density<br>[mARMS/cm²]<br>[Over smallest<br>electrode] | Thigh EPG:<br>0.18 mARMS/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 74 cm²)<br><br> | Lower Leg EPG:<br>small cuff, gel<br>electrodes<br>1.27 mARMS/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 10.2<br>cm²) | Thigh EPG:<br>0.18 mARMS/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 74 cm²) | Lower Leg EPG:<br>small cuff, gel<br>electrodes<br>1.27 mARMS/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 10.2<br>cm²) | | Max Average<br>Power Density,<br>(mW/cm²) | Thigh EPG:<br>1.1 mW/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 74 cm²) | Lower Leg EPG:<br>small cuff, gel<br>electrodes<br>8.3 mW/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 10.2<br>cm²)<br>regular cuff, gel<br>electrodes<br>5.3 mW/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 15.9<br>cm²) | Thigh EPG:<br>1.1 mW/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 74 cm²) | Lower Leg EPG:<br>small cuff, gel<br>electrodes<br>8.3 mW/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 10.2<br>cm²)<br>regular cuff, gel<br>electrodes<br>5.3 mW/cm²<br>(500 Ω, Irms=13.0<br>mA, electrode<br>area of 15.9<br>cm²) | {8}------------------------------------------------ Image /page/8/Picture/0 description: The image contains the logo for Bioness. The logo consists of an orange sun-like symbol on the left, followed by the word "Bioness" in gray, and the words "LiveOn" in a smaller font below it. The logo is clean and modern, with a focus on the company name. | | L300 Go System (K162407) | L300 Go System after Design<br>Modifications | |----------------------------------------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | Stimulation<br>Channels | Thigh EPG: 1<br><br>Lower Leg EPG:<br>2 (functioning as<br>a single channel<br>with separately-<br>adjustable<br>medial / lateral<br>stimulation<br>intensity) | Thigh EPG: 1<br><br>Lower Leg EPG:<br>2 (functioning as<br>a single channel<br>with separately-<br>adjustable<br>medial / lateral<br>stimulation<br>intensity) | | Electrodes<br>used in the<br>system | Lower Leg FSC:<br>2 Hydro-Gel electrodes assembled on electrode bases, or 2 non-woven cloth electrodes assembled on electrode bases, or 2 non-woven cloth electrodes attached with snaps (also called "QuickFit" electrodes), or 3 non-woven cloth electrodes attached with snaps (segmented electrodes [also called "steering" electrodes], using common anode to allow separate adjustment of medial and lateral stimulation)<br>Thigh FSC:<br>2 single, non-woven cloth electrodes attached with snaps | Lower Leg FSC:<br>2 Hydro-Gel electrodes assembled on electrode bases, or 2 non-woven cloth electrodes assembled on electrode bases, or 2 non-woven cloth electrodes attached with snaps (also called "QuickFit" electrodes), or 3 non-woven cloth electrodes attached with snaps (segmented electrodes [also called "steering" electrodes], using common anode to allow separate adjustment of medial and lateral stimulation)<br>Thigh FSC:<br>2 single, non-woven cloth electrodes attached with snaps | | Clinician<br>Control/<br>Programming | Clinician uses the Clinician Programmer (CAPP) to set stimulation energy and temporal parameters related to the functional stimulation performance for dorsiflexion control and/or knee weakness control | Clinician uses the Clinician Programmer (CAPP) to set stimulation energy and temporal parameters related to the functional stimulation performance for dorsiflexion control and/or knee weakness control | | Clinician<br>Programmer<br>(CAPP)<br>Platform | Tablet PC | Tablet PC | | | L300 Go System (K162407) | L300 Go System after Design Modifications | | User Control | Using hand-held Control Unit or the EPG-based interface, the user can:<br>Turn system On/Off (via EPG only) and Start/Stop stimulation Select Gait/Training program Fine-tune stimulation intensity around working point set by the clinician Test L300 Lower Leg EPG & Thigh EPG stimulation before starting to ambulate | Using hand-held Control Unit, the mobile application (MAPP), or the EPG-based interface, the user can:<br>Turn system On/Off (via EPG only) and Start/Stop stimulation Select Gait/Training program Fine-tune stimulation intensity around working point set by the clinician Test L300 Lower Leg EPG & Thigh EPG stimulation before starting to ambulate | | Stimulation<br>trigger source<br>(when used for<br>gait) | In gait mode, stimulation is triggered by:<br>(1) the motion sensor embedded in the EPG; or<br>(2) Foot Sensor that detects Heel On & Heel Contact events during gait and transmits them wirelessly to the lower and thigh EPGs. | In gait mode, stimulation is triggered by:<br>(1) the motion sensor embedded in the EPG; or<br>(2) Foot Sensor that detects Heel On & Heel Contact events during gait and transmits them wirelessly to the lower and thigh EPGs. | | Communication<br>method | Control Unit – Lower Leg /Thigh EPG: wireless Bluetooth (Low Energy) communication protocol<br>Gait Sensor – Lower Leg/Thigh EPG: wireless Bluetooth (Low Energy) communication protocol<br>Clinician Programmer – EPG: wireless Bluetooth (Low Energy) communication protocol<br>MAPP – Lower Leg /Thigh EPG: wireless Bluetooth (Low Energy) communication protocol | Control Unit – Lower Leg /Thigh EPG: wireless Bluetooth (Low Energy) communication protocol<br>Gait Sensor – Lower Leg/Thigh EPG: wireless Bluetooth (Low Energy) communication protocol<br>Clinician Programmer – EPG: wireless Bluetooth (Low Energy) communication protocol<br>MAPP – Lower Leg /Thigh EPG: wireless Bluetooth (Low Energy) communication protocol | {9}------------------------------------------------ Image /page/9/Picture/0 description: The image shows the logo for Bioness. The logo consists of an orange sun-like symbol on the left, followed by the word "Bioness" in gray, with a small orange dot above the "i". Below "Bioness" is the text "LiveOn" in a smaller, lighter gray font. The logo is simple and modern, with a focus on the company name and tagline. Table 1 ends here {10}------------------------------------------------ Image /page/10/Picture/0 description: The image shows the logo for Bioness. The logo consists of a stylized sun-like symbol on the left, with the word "Bioness" in gray, bold letters to the right. Below "Bioness" is the text "LiveOn" in a smaller font size. #### Summary of Nonclinical Tests Submitted Because of a modification in the assembly process for the optional Control Unit (CU), the CU was retested for Environmental Ingress Protection by Minnetronix Inc. (Bioness development vendor) using a validated test method. The modified CU successfully passed the Environmental Ingress Protection testing. Because of a change in the Electrical Pulse Generator (EPG) housing material, the EPG was retested for Mechanical Vibration and Shock using a validated Minnetronix test method. The modified EPG successfully passed the Mechanical Vibration and Shock testing. Packaging and shipping tests were performed to address the new packaging system. These tests included Initial Manual Handling, Vehicle Stacking, Loose Load Vibration, Low Pressure, Vehicle Vibration, Concentrated Impact, and Final Manual Handling (ASTM D5276-98, Schedule A, Level III). All packaging passed all tests. Software changes were subjected to verification testing to include regression testing to ensure no loss of original functionality. In the version change from MAPP 1.0 to MAPP 2.0, new functions were introduced, and those new functions were subjected to both verification testing (including regression testing) and validation testing. Electrical safety and electromagnetic compatibility testing, including coexistence with common wireless emitters, was completed under the predicate submission and evaluated for applicability to the design modifications proposed under the current submission. #### Conclusion: The L300 Go System has been verified and validated successfully for its intended use through the combination of original bench testing, additional bench testing, engineering analysis, and thorough verification and validation testing of all software changes. Based on the results of the nonclinical testing, Bioness concludes that the device is substantially equivalent to the predicate L300 Go System.