K222729

Not Found

No
The description focuses on mechanical and electrical components and standard control mechanisms (lever, tiller, electromagnetic brake). There is no mention of AI, ML, or any form of intelligent decision-making or learning within the device's operation.

No
The device is a mobility aid for individuals restricted to a sitting position, providing transportation rather than treating a medical condition or restoring function.

No

The device is a mobility scooter intended to provide mobility to individuals restricted to a sitting position, not to diagnose a medical condition.

No

The device description clearly outlines physical components such as wheels, a seat, a tiller, a control panel, and a battery, indicating it is a hardware device with integrated controls, not software-only.

No, this device is not an IVD (In Vitro Diagnostic).

Here's why:

• Intended Use: The intended use is clearly stated as providing mobility to persons restricted to a sitting position. This is a physical function, not a diagnostic test performed on samples taken from the body.
• Device Description: The description details a mobility scooter with wheels, a seat, a tiller, and controls for movement. This is a mechanical device for transportation, not equipment for analyzing biological samples.
• Lack of IVD Characteristics: There is no mention of analyzing blood, urine, tissue, or any other biological sample. There are no reagents, test strips, or analytical components typically associated with IVDs.
• Performance Studies: The performance studies focus on safety, stability, speed, range, and other physical characteristics of a mobility device, not on the accuracy or reliability of a diagnostic test.

An In Vitro Diagnostic device is used to examine specimens from the human body (like blood, urine, or tissue) to provide information for the diagnosis, prevention, or treatment of a disease or condition. This device does not perform any such function.

N/A

Intended Use / Indications for Use

The device is intended for medical purposes to provide mobility to persons restricted to a sitting position.

Product codes

INI

Device Description

WT-T4SU is for indoor or outdoor uses, and it is Lithium-ion battery powered and configured with four solid wheels, a seat, a turning tiller, and a control panel.

WT-T4SU is driven by two PU solid rear wheels (7.28" x 1.96") and steered by two PU solid castors (7.28" x 1.96"). The user can control the turning tiller to control the castors to steer the scooter's direction. Control panel has 3 functions of battery level indication, speed lever and forward/reverse selector. The user can pull the speed lever to drive forward or drive backward. Release the speed lever completely and the electromagnetic brake in the motor will be activated automatically, and the scooter will stop.

The maximum weight capacity of WT-T4SU is 264 lbs. (120 kg). Its maximum forward speed is 4 mph (6.4 km/h), and its maximum safe climbing incline angle is 6 degrees. The cruising range is 6.61 miles (10.58 km).

Mentions image processing

Not Found

Mentions AI, DNN, or ML

Not Found

Input Imaging Modality

Not Found

Anatomical Site

Not Found

Indicated Patient Age Range

Not Found

Intended User / Care Setting

Not Found

Description of the training set, sample size, data source, and annotation protocol

Not Found

Description of the test set, sample size, data source, and annotation protocol

Not Found

Summary of Performance Studies

Non-clinical performance tests were conducted based on several ISO and ANSI RESNA standards, including:

• ISO 10993-5: 2009 Biological evaluation of medical devices - Part 5: Tests for in vitro cytotoxicity
• ISO 10993-10:2010 Biological evaluation of medical devices -- Part 10: Tests for irritation and skin sensitization
• ANSI RESNA WC-2:2019 Section 14 American National Standard for Wheelchairs - Volume 2: Additional Requirements for Wheelchairs (including Scooters) with Electrical Systems Section 14: Power and Control Systems for Electrically Powered Wheelchairs Requirements and Test Methods
• ANSI RESNA WC-2 SECTION 21 American National Standard for Wheelchairs - Volume 2, Additional Requirements for Wheelchairs (including Scooters) Electrical Systems Section 21: Requirements and test methods with for electromagnetic compatibility of electrically powered wheelchairs and motorized scooters
• ANSI AAMI ES 60601-1 Medical Electrical Equipment Part 1: General Requirement for Basic Safety and Essential Performance
• IEC 60601-1-2:2014/AMD1: 2020 Medical electrical equipment Part 1-2: General requirements for basic safety and essential performance - Collateral Standard: Electromagnetic disturbances - Requirements and tests
• IEC 62133-2:2017+ AMD1: 2021 Secondary cells and batteries containing alkaline or other non-acid electrolytes - Safety requirements for portable sealed secondary lithium cells, and for batteries made from them, for use in portable applications- Part 2 Lithium systems
• ISO 7176-1:2014 Wheelchairs - Part 1: Determination of static stability
• ISO 7176-2:2017 Wheelchairs - Part 2: Determination of dynamic stability of electric wheelchairs
• ISO 7176-3:2013 Wheelchairs Part 3: Determination of effectiveness of brakes
• ISO 7176-4:2008 Wheelchairs Part 4: Energy consumption of electric wheelchairs and scooters for determination of theoretical distance range
• ISO 7176-5:2008 Wheelchairs - Part 5: Determination of dimensions, mass and maneuvering space
• ISO 7176-6:2018 Wheelchairs - Part 6: Determination of maximum speed, acceleration and deceleration of electric wheelchairs
• ISO 7176-7:1998 Wheelchairs - Part 7: Measurement of seating and wheel dimensions
• ISO 7176-8:2014 Wheelchairs - Part 8: Requirements and test methods for static, impact and fatigue strength
• ISO 7176-9:2009 Wheelchairs - Part 9: Climatic tests for electric wheelchair
• ISO 7176-10:2008 Wheelchairs - Part 10: Determination of obstacle-climbing ability of electrically powered wheelchairs
• ISO 7176-13 Wheelchairs - Part 13: Determination of coefficient of friction of test surfaces
• ISO 7176-15 First edition 1996-11-15 Wheelchairs Part 15: Requirements for information disclosure, documentation and labeling
• ISO 16840-10:2021 Wheelchair seating Part 10: Resistance to ignition of postural support devices- Requirements and test method

Key Metrics

Not Found

Predicate Device(s)

K222729

Reference Device(s)

Not Found

Predetermined Change Control Plan (PCCP) - All Relevant Information

Not Found

§ 890.3800 Motorized three-wheeled vehicle.

(a)
Identification. A motorized three-wheeled vehicle is a gasoline-fueled or battery-powered device intended for medical purposes that is used for outside transportation by disabled persons.(b)
Classification. Class II (performance standards).

0

Image /page/0/Picture/0 description: The image shows the logo for the U.S. Food & Drug Administration (FDA). The logo consists of two parts: a symbol on the left and the text on the right. The symbol is a stylized representation of a caduceus, a traditional symbol of medicine, with intertwined snakes and wings. To the right of the symbol is the text "FDA U.S. FOOD & DRUG ADMINISTRATION" in blue, with "FDA" in a larger font size than the rest of the text.

January 8, 2025

W'u's Tech Co., Ltd. % Ke-Min Jen Official Correspondent Wu's Tech Co., Ltd. No. 225, Yuan Peir St. Hsin-Chu City, Taiwan 30093 Taiwan

Re: K240590

Trade/Device Name: Electrical Scooter, WT-T4SU Regulation Number: 21 CFR 890.3800 Regulation Name: Motorized Three-Wheeled Vehicle Regulatory Class: Class II Product Code: INI Dated: December 10, 2024 Received: December 10, 2024

Dear Ke-Min Jen:

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 (the 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. Although this letter refers to your product as a device, please be aware that some cleared products may instead be combination products. The 510(k) Premarket Notification Database available at https://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfpmn/pmn.cfm identifies combination product submissions. 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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Additional information about changes that may require a new premarket notification are provided in the FDA guidance documents entitled "Deciding When to Submit a 510(k) for a Change to an Existing Device" (https://www.fda.gov/media/99812/download) and "Deciding When to Submit a 510(k) for a Software Change to an Existing Device" (https://www.fda.gov/media/99785/download).

Your device is also subject to, among other requirements, the Quality System (QS) regulation (21 CFR Part 820), which includes, but is not limited to, 21 CFR 820.30. Design controls; 21 CFR 820.90. Nonconforming product; and 21 CFR 820.100, Corrective and preventive action. Please note that regardless of whether a change requires premarket review, the QS regulation requires device manufacturers to review and approve changes to device design and production (21 CFR 820.30 and 21 CFR 820.70) and document changes and approvals in the device master record (21 CFR 820.181).

Please be advised that FDA's issuance of a substantial equivalence determination does not mean that FDA has made a determination that your device complies with other requirements of the Act or any Federal statutes and regulations administered by other Federal agencies. You must comply with all the Act's requirements, including, but not limited to: registration and listing (21 CFR Part 807); labeling (21 CFR Part 801); medical device reporting of medical device-related adverse events) (21 CFR Part 803) for devices or postmarketing safety reporting (21 CFR Part 4, Subpart B) for combination products (see https://www.fda.gov/combination-products/guidance-regulatory-information/postmarketing-safety-reportingcombination-products); good manufacturing practice requirements as set forth in the quality systems (QS) regulation (21 CFR Part 820) for devices or current good manufacturing practices (21 CFR Part 4, Subpart A) for combination products; and, if applicable, the electronic product radiation control provisions (Sections 531-542 of the Act); 21 CFR Parts 1000-1050.

All medical devices, including Class I and unclassified devices and combination product device constituent parts are required to be in compliance with the final Unique Device Identification System rule ("UDI Rule"). The UDI Rule requires, among other things, that a device bear a unique device identifier (UDI) on its label and package (21 CFR 801.20(a)) unless an exception or alternative applies (21 CFR 801.20(b)) and that the dates on the device label be formatted in accordance with 21 CFR 801.18. The UDI Rule (21 CFR 830.300(a) and 830.320(b)) also requires that certain information be submitted to the Global Unique Device Identification Database (GUDID) (21 CFR Part 830 Subpart E). For additional information on these requirements, please see the UDI System webpage at https://www.fda.gov/medical-device-advicecomprehensive-regulatory-assistance/unique-device-identification-system-udi-system.

Also, please note the regulation entitled, "Misbranding by reference to premarket notification" (21 CFR 807.97). For questions regarding the reporting of adverse events under the MDR regulation (21 CFR Part 803), please go to https://www.fda.gov/medical-device-safety/medical-device-reportingmdr-how-report-medical-device-problems.

For comprehensive regulatory information about medical devices and radiation-emitting products, including information about labeling regulations, please see Device Advice (https://www.fda.gov/medicaldevices/device-advice-comprehensive-regulatory-assistance) and CDRH Learn (https://www.fda.gov/training-and-continuing-education/cdrh-learn). 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 (https://www.fda.gov/medical-device-advice-comprehensive-regulatory

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assistance/contact-us-division-industry-and-consumer-education-dice) for more information or contact DICE by email (DICE@fda.hhs.gov) or phone (1-800-638-2041 or 301-796-7100).

Sincerely,

Tushar Bansal -S

for Heather Dean, PhD Assistant Director, Acute Injury Devices Team DHT5B: Division of Neuromodulation and Physical Medicine Devices OHT5: Office of Neurological and Physical Medicine Devices Office of Product Evaluation and Quality Center for Devices and Radiological Health

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Indications for Use

Form Approved: OMB No. 0910-0120 Expiration Date: 07/31/2026 See PRA Statement below.

Submission Number (if known)

K240590

Device Name

Electrical Scooter (WT-T4SU)

Indications for Use (Describe)

The device is intended for medical purposes to provide mobility to persons restricted to a sitting position.

Type of Use (Select one or both, as applicable)

Prescription Use (Part 21 CFR 801 Subpart D)

X Over-The-Counter Use (21 CFR 801 Subpart C)

CONTINUE ON A SEPARATE PAGE IF NEEDED.

This section applies only to requirements of the Paperwork Reduction Act of 1995.

DO NOT SEND YOUR COMPLETED FORM TO THE PRA STAFF EMAIL ADDRESS BELOW.

The burden time for this collection of information is estimated to average 79 hours per response, including the time to review instructions, search existing data sources, gather and maintain the data needed and complete and review the collection of information. 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."

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510(k) Summary (21 CFR 807.92)

● Indications for Use:

The device is intended for medical purposes to provide mobility to persons restricted to a sitting position.

● Device Description:

WT-T4SU is for indoor or outdoor uses, and it is Lithium-ion battery powered and configured with four solid wheels, a seat, a turning tiller, and a control panel.

WT-T4SU is driven by two PU solid rear wheels (7.28" x 1.96") and steered by two PU solid castors (7.28" x 1.96"). The user can control the turning tiller to control the castors to steer the scooter's direction. Control panel has 3 functions of battery level indication, speed lever and forward/reverse selector. The user can pull the speed lever to drive forward or drive backward. Release the speed lever completely and the electromagnetic brake in the motor will be activated automatically, and the scooter will stop.

The maximum weight capacity of WT-T4SU is 264 lbs. (120 kg). Its maximum forward speed is 4 mph (6.4 km/h), and its maximum safe climbing incline angle is 6 degrees. The cruising range is 6.61 miles (10.58 km).

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The following surfaces are recommended NOT to operate on:

• Sand surface �
• Wet or icy surface
• Road maintenance hole metal cover �
• � Avoid going up multiple steps.
• � Avoid using escalators. Use the elevator.
• Too steep incline over 6 degrees.
• Ground clearance to battery over 1.4"/35 mm
• Curb climbing ability: over 1.58"/40 mm

● Non-clinical performance tests

• 2-245 ISO 10993-5: 2009 Biological evaluation of medical devices - Part 5: Tests for in vitro cytotoxicity
• 2-174 ISO 10993-10:2010 Biological evaluation of medical devices -- Part 10: Tests for irritation and skin sensitization
• 16-219 ANSI RESNA WC-2:2019 Section 14 American National Standard for ● Wheelchairs - Volume 2: Additional Requirements for Wheelchairs (including Scooters) with Electrical Systems Section 14: Power and Control Systems for Electrically Powered Wheelchairs Requirements and Test Methods
• 16-224 ANSI RESNA WC-2 SECTION 21 American National Standard for Wheelchairs - Volume 2, Additional Requirements for Wheelchairs (including Scooters) Electrical Systems Section 21: Requirements and test methods with for electromagnetic compatibility of electrically powered wheelchairs and motorized scooters
• 19-46 ANSI AAMI ES 60601-1 Medical Electrical Equipment Part 1: General Requirement for Basic Safety and Essential Performance
• 19-36 IEC 60601-1-2:2014/AMD1: 2020 Medical electrical equipment Part 1-2: ● General requirements for basic safety and essential performance - Collateral Standard: Electromagnetic disturbances - Requirements and tests
• 19-33 IEC 62133-2:2017+ AMD1: 2021 Secondary cells and batteries containing alkaline or other non-acid electrolytes - Safety requirements for portable sealed secondary lithium cells, and for batteries made from them, for use in portable applications- Part 2 Lithium systems
• 16-195 ISO 7176-1:2014 Wheelchairs - Part 1: Determination of static stability,

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• 16-202 ISO 7176-2:2017 Wheelchairs - Part 2: Determination of dynamic stability of electric wheelchairs,
• 16-192 ISO 7176-3:2013 Wheelchairs Part 3: Determination of effectiveness of ● brakes,
• 16-162 ISO 7176-4:2008 Wheelchairs Part 4: Energy consumption of electric ● wheelchairs and scooters for determination of theoretical distance range,
• 16-163 ISO 7176-5:2008 Wheelchairs - Part 5: Determination of dimensions, mass and maneuvering space,
• 16-204 ISO 7176-6:2018 Wheelchairs - Part 6: Determination of maximum speed, acceleration and deceleration of electric wheelchairs,
• I 16-196 ISO 7176-7:1998 Wheelchairs - Part 7: Measurement of seating and wheel dimensions
• 16-197 ISO 7176-8:2014 Wheelchairs - Part 8: Requirements and test methods for static, impact and fatigue strength,
• 16-167 ISO 7176-9:2009 Wheelchairs - Part 9: Climatic tests for electric wheelchair,
• 16-164 ISO 7176-10:2008 Wheelchairs - Part 10: Determination of obstacle-climbing ability of electrically powered wheelchairs,
• 16-25 ISO 7176-13 Wheelchairs - Part 13: Determination of coefficient of friction of test surfaces
• 16-27 ISO 7176-15 First edition 1996-11-15 Wheelchairs Part 15: Requirements for ■ information disclosure, documentation and labeling
• 16-233 ISO 16840-10:2021 Wheelchair seating Part 10: Resistance to ignition of ● postural support devices- Requirements and test method

● Comparison table

| Devices | Subject device | Predicate device | Comparison
analysis |
|----------------------------------------|------------------------------------------------------------------------------------------------------------------|------------------------------------------------------------------------------------------------------------------|------------------------|
| Specifications | | | |
| Manufacturer | Wu's Tech Co., Ltd. | Wu's Tech Co., Ltd. | -- |
| Proprietary name | Electrical Scooter | Electrical Scooter | -- |
| Model name | wT-T4SU | WT-T4QP2 | -- |
| 510(k) No. | K240590 | K222729 | -- |
| Indications for use | The device is intended for medical purposes to provide the mobility to persons restricted to a sitting position. | The device is intended for medical purposes to provide the mobility to persons restricted to a sitting position. | Same |
| Overall dimension | 42.9" (1090 mm)
19.7" (500 mm)
35.8" (910 mm) | 36.2" (920 mm)
16.9" (430 mm)
35.8"(910 mm) | Different |
| Seat dimension | 16.7"(425 mm)
14.8" (375 mm) | 13.4"(340 mm)
9.1" (230 mm) | Different |
| Motor | 270 W x 24 VDC x 2 pcs | 180 W x 24 VDC x 2 pcs | Different |
| Battery | T4Q-2403GA
Lithium-ion battery
25.2VDC / 9.9 Ah/249.48Wh | T4Q-2403GA
Lithium-ion battery
25.2 VDC/ 9.9 Ah / 249.48 Wh | Same |
| Battery weight | 4.4 lbs. (1.98 Kg)
One battery pack | 4.4 lbs. (1.98 kg)
One battery pack | Same |
| Charger model &
rating | Input: 100-240 VAC, 50/60 Hz
Output: 24 VDC, 2 Amp | Input: 100-240 VAC, 50/60 Hz
Output: 24 VDC, 2 Amp | Same |
| Number of
Wheels | 4 | 4 | Same |
| Driving system | Direct drive on the rear wheels | Direct drive on the rear wheels | Same |
| Brake System | Electromagnetic brake | Electromagnetic brake | Same |
| Controller | Dynamic DR50 | Dynamic DR50 | Same |
| Anti- tipper | Yes | Yes | Same |
| Max Speed
(Forwards) | 4 mph (6.4 km/h) | 4 mph (6.4 km/h) | Same |
| Main frame
material | Fixed / 6063 aluminum alloy | Fixed / 6063 aluminum alloy | Same |
| Use | Indoor / outdoor | Indoor/ outdoor | Same |
| environments | | | |
| Front wheel size
& type | 7.28" x 1.96" Solid x 2 | 6.5" x 1.96" Solid x 2 | Different |
| Rear wheel size
& type | 7.28" x 1.96" Solid x 2 | 7.28" x 1.96" Solid x2 | Same |
| Maximum safe
operational
incline | 6 degrees | 6 degrees | Same |
| Manual folding | No | Yes | Different |
| Scooter Weight
without Battery | 60.5 lbs. (27.5 kg) | 41.4 lbs. (18.82 kg) | Different |
| Cruising Range | 6.6 miles (10.58 km) | 9.1 miles (14.5 km) | Different |
| Max Loading | 264 lbs (120 kg) | 250 lbs .(115 kg) | Different |
| Turning Radius | 48.2" (1225 mm) | 55.9" (1420 mm) | Different |
| Maximum
obstacle
climbing | 1.58" (40 mm) | 1.58" (40 mm) | Same |
| Ground | | | Different |

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● Substantial equivalence discussion

We will not discuss the items same or similar in this substantial equivalence discussion section. We will discuss the items different, i.e., Overall dimension, Seat dimension, Motor, Front wheel size, Manual folding, Scooter weight, Cruising range, Maximum loading, Turning radius, Ground clearance.

Overall dimension: The differences between overall dimensions in width will lead to different comfort, and difference in length will lead to different sizes of scooter, thus we can tell that the subject device is a bigger-size scooter than the predicate device. There is no any new safety and effectiveness concerns raised for the subject device.

Seat dimension: The differences between seat dimensions in width and in depth will lead to different comfort to the users, that is bigger seat dimensions will have more comfort feeling

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for supporting the users' weight. Thus the subject device has more comfort feeling than the predicate device, there is no any new safety and effectiveness concerns raised for the subject device.

Motor: it is 270 W for the subject device and 180 W for the predicate device. Because the subject device is a larger-size scooter than the predicate device. it is necessary to use a motor with larger power to drive the scooter. This difference of the motor will not raise any new safety and effectiveness concerns for the subject device.

Front wheel size: Front wheel sizes, which are 7.28" x 1.96" PU solid tire type x 2 for the subject device and 6.5" x 1.96" PU solid tire type x 2 for the predicate device, are different for both devices. As seen from the data. the differences of the front wheel sizes are minor, and front wheels are used for steering scooter's direction, and the difference of front wheel size will lead to the minor difference of ground clearance, and they will not raise any new safety and effectiveness concerns for the subject device.

Manual folding: There is no manual folding function for the subject device and there is manual folding function for the predicate device. This difference will lead to less convenience of storage or transfer for the subject device, and this result will not raise any new safety and effectiveness concerns for the subject device.

Scooter weight: It is 60.5 lbs. for the subject device and 41.4 lbs. for the predicate device. Because the subject device is designed to be a larger-size scooter than the predicate device, the scooter weight of the subject device is surely heavier than the predicate device. There is no new safety and effectiveness concern raised for the subject device.

Cruising range: It is 6.6 miles for the subject device and 9.1 miles for the predicate device. The difference of cruising range is due to the use of same battery and motor and different loading or weight of the scooter. The subject device is a heavier scooter than the predicate device and uses the same battery and motor as the predicated device, so according to the conservation of work energy principle, the cruising range will be shorter than the predicate device. There are no any new safety and effectiveness concerns raised by the less cruising range of the subject device.

Maximum loading: It is 264 lbs. for the subject device and 250 lbs. for the predicate device. Because the subject device is a bigger-size scooter than the predicate device, the maximum loading of the scooter surely will be larger than the predicated device. and there are no any new safety and effectiveness concerns raised by the different maximum loading for the subject device.

Turning radius: It is 48.2" for the subject device and 55.9" for the predicate device. The less turning radius of the subject device than the predicate device will bring more space than the predicate device to make a turn, it means there is more safety for the subject device. There are no any new safety and effectiveness concerns raised by the different turning radius of the subject device.

Ground clearance: it is 1.4" for the subject devise and 1.1" for the predicate device. This

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difference of the ground clearance will lead to more moving space for the subject device than the predicate device. This difference will not raise any new safety and effectiveness concerns for the subject device.

CONCLUSIONS ●

The subject devices, WT-T4SU, are as safe and effective as, and function in a manner equivalent to the predicate device, WT-T4QP2 (K222729). The conclusions drawn from the non-clinical tests demonstrate that the devices perform as well as the legally marketed device identified in the submission.