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· Pan-retinal photocoagulation for proliferative diabetic retinopathy- with Slitlamp or Endoprobe
· Laser retinopexy for retinal tear and detachments with Slitlamp or Endoprobe
· Focal or grid photocoagulation for clinically significant macular edema (CSME)- with Slitlamp
Focal photocoagulation for choroidal neovascularization (CNV) including but not limited to CNV in the setting of wet
age-related macular degeneration (wet AMD)- with Slitlamp
· Trabeculoplasty for primary open angle glaucoma (POAG)- with Slitlamp

Device Description

LightLas 532/810 Multi-Wavelength Medical Laser System can emit 532 nm wavelength laser beam and 810 nm wavelength laser beam. The 532 nm wavelength source can be delivered through both output ports (Ports 1 and 2) of the laser console, while the 810 nm wavelength source is delivered through Port 1 only. Users may choose either wavelength from a LCD touch screen, and only one output port and one wavelength may be selected for use at a time. Laser wavelength selection of the system is indicated on the panel and controlled by system software.
LightLas 532/810 Multi-Wavelength Medical Laser System is intended for use by ophthalmologists for treatment of ocular pathology, and the system consists of the following functional components:

LCD touch panel ●
Laser Console
Ophthalmic Instrument table ●
CSO Slitlamp SL980 (K992836) ●
Endolaser probe (K133019)

AI/ML Overview

The provided text describes a medical laser system, the LightLas 532/810, and its substantial equivalence to predicate devices, but it does not contain details about acceptance criteria or a study proving that the device meets specific performance criteria in a way that aligns with your request for AI/algorithm performance analysis.

The document focuses on demonstrating that the LightLas 532/810 is substantially equivalent to existing medical laser systems (Quantel Medical Supra Twin K081946 and LightMed Corporation LightLas 532/670 K103547). The "performance data" section primarily discusses bench testing, electrical safety, EMC, and software verification and validation, which are standard regulatory requirements for medical devices. These are not clinical studies evaluating the laser's therapeutic effectiveness against predefined metrics of success for patient outcomes or diagnostic accuracy.

Therefore, I cannot provide the information requested in your table or answer the specific questions about sample size, ground truth, expert qualifications, adjudication methods, MRMC studies, or standalone algorithm performance, as these pertain to the evaluation of AI/algorithmic systems, which is not the subject of this document.

The document states: "The clinical evaluation data demonstrate that LightLas 532/810 Laser System performs comparably to the predicate devices which are currently marketed for the same intended use." However, it does not elaborate on what "clinical evaluation data" entails, what its methodology was, or what specific acceptance criteria were used for therapeutic outcome.

In summary, the provided text describes a traditional medical device (a laser system) and its regulatory review for substantial equivalence, not an AI or algorithmic device with performance criteria as you've outlined.

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K Number

K103547

Device Name

LIGHTLAS MULTI-WAVELENGTH MEDICAL LASER SYSTEM

Manufacturer

LIGHTMED CORP.

Date Cleared

2011-11-03

(336 days)

Product Code

Regulation Number

Type

Panel

Reference & Predicate Devices

K052777,K022181,K042785,K091534

Intended Use

Ophthalmology:
532nm Laser

Retinal Photocoagulation
Pan Retinal Photocoagulation
Endophotocoagulation
Macular photocoagulation to treat leaking vessels
Laser Trabeculoplasty
670nm Laser
Retinal/Pan Retinal Photocoagulation
The intended use has not changed from the predicate devices (K052777, K022181, K042785, and K091534)

Device Description

The LightLas 532/670 system consists of a Laser Console where the Multi-Wavelength Laser is housed along with the Electronic Control system and Power Supplies and various Laser Delivery Units (LDU's). The LDU's include:

Slitlamp Integrated into CSO model SL980.
Slitlamp Attachment for CSO model SL990 and other Haag Streit clones.
Slitlamp Attachment for Zeiss model SL30 Slitlamp.
Laser Indirect Ophthalmoscope (LIO) using a Heine Omega 180 BIO.
Endophotocoagulation handpieces (Endoprobes).

AI/ML Overview

This submission describes a medical laser system and focuses on its substantial equivalence to predicate devices, rather than presenting a study with specific acceptance criteria and performance metrics typically associated with AI/software devices. Therefore, much of the requested information cannot be directly extracted from the provided text.

Here is an analysis based on the available information:

Key Takeaway: The submission for the LightLas Multi-Wavelength Medical Laser System (LightLas 532/670) focuses on demonstrating substantial equivalence to existing predicate devices, rather than proving performance against specific acceptance criteria through a novel study. This means the device's performance is inferred to be similar to legally marketed devices based on shared technological characteristics and intended use, not through a separate quantitative performance study.

1. Table of Acceptance Criteria and Reported Device Performance

Feature/Metric	Acceptance Criteria (Expected/Implied)	Reported Device Performance
Intended Use	Equivalent to predicate devices	"The intended use has not changed from the predicate devices." (Explicitly stated)
Technological Characteristics	Same general design, fundamental scientific technology, functional elements (treatment wavelengths, treatment power, spot size, cooling system), control systems (door interlock, safety systems, displays) as predicate devices. No new hazards introduced.	"The LightMed Multi-wavelength Medical Laser system... has the same intended use, general design and fundamental scientific technology as the predicate devices... Also the operating controls and functions are equivalent to these products. They have the same functional elements such as treatment wavelengths, treatment power, spot size and cooling system. Control systems such as the door interlock, and the safety systems and displays are constantly monitored... There are no new hazards introduced..." (Explicitly stated)
Clinical Effectiveness	Equivalent to previously marketed products based on specifications affecting treatment modality.	"Therefore the Clinical effectiveness of the LightLas 532/670 is equivalent to the previously marketed products as these specifications are the key factors that will affect the treatment modality." (Explicitly stated)
Safety Testing	Met appropriate safety standards.	"The appropriate testing including safety, performance and functional testing to determine substantial equivalence of the LightLas 532/670..." (Implied that tests were passed, but no specific criteria or results are detailed).
Performance Testing	Met appropriate performance standards.	"The appropriate testing including safety, performance and functional testing to determine substantial equivalence of the LightLas 532/670..." (Implied that tests were passed, but no specific criteria or results are detailed).
Functional Testing	Met appropriate functional standards.	"The appropriate testing including safety, performance and functional testing to determine substantial equivalence of the LightLas 532/670..." (Implied that tests were passed, but no specific criteria or results are detailed).

2. Sample size used for the test set and the data provenance:

Not applicable / Not provided. This submission is for a physical medical laser device, not a software or AI device that would typically use a test set of data. The "testing" mentioned refers to engineering and safety performance of the hardware.

3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts:

Not applicable / Not provided. As above, this is not a data-driven AI/software device. The "ground truth" here is the established safety and effectiveness of the predicate devices in clinical practice, as recognized by the FDA through their previous clearances.

4. Adjudication method (e.g. 2+1, 3+1, none) for the test set:

Not applicable / Not provided. No specific test set with human adjudication is mentioned.

5. If a multi-reader multi-case (MRMC) comparative effectiveness study was done, If so, what was the effect size of how much human readers improve with AI vs without AI assistance:

No. This is not an AI-assisted diagnostic or therapeutic device that involves "human readers" in the sense of interpreting medical images or data. It is a direct medical laser system for ophthalmic procedures.

6. If a standalone (i.e. algorithm only without human-in-the loop performance) was done:

Not applicable / Not provided. This is not an algorithm-only device.

7. The type of ground truth used (expert consensus, pathology, outcomes data, etc.):

Indirect Ground Truth: Clinical Efficacy and Safety of Predicate Devices. The "ground truth" for this substantial equivalence claim is the well-established safety and efficacy of the predicate devices. The new device is deemed equivalent because its technological characteristics and intended use are the same, implying it will perform in a clinically similar and safe manner.

8. The sample size for the training set:

Not applicable / Not provided. There is no mention of a training set as this is not a machine learning/AI device.

9. How the ground truth for the training set was established:

Not applicable / Not provided.

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