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510(k) Data Aggregation
(93 days)
The Linear Health Science™ Orchid Safety Release Valve™ is a tension-activated accessory for single patient use and placed between the existing IV administration set and IV extension. The Orchid SRV™ is intended for use with electronic IV pumps in peripheral IV catheter applications where tension may act on the IV tubing. The Orchid SRVTM is designed to allow flow to an IV catheter. When excessive tension acts on the line, the Orchid SRV™ separates and closes the flow path in both directions. The Orchid SRV™ can be used during intermittent infusion and continuous infusion.
The Orchid SRV™ is intended to aid in reduction of peripheral IV mechanical complications requiring IV replacement.
The Orchid SRVTM is for use with patients two (2) weeks of age and older.
The Orchid Safety Release Valve™ or Orchid SRV™ connects via standard luer-locking connection, allowing flow during IV therapy. The Orchid SRV™ is designed to allow the device to separate into two halves when longitudinal tension exceeds the SRV tension window, automatically closing the flow path to both IV extension set and IV administration set. Following separation, a component of the Orchid SRV™ is left attached to each side of the infusion system to protect the intraluminal pathway. Upon separation, replacement of the SRV™ is necessary. Follow institutional policy to replace the SRV™, or at least every seven (7) days.
This document does not contain acceptance criteria or study results that demonstrate the device meets those criteria.
The information provided confirms that the Orchid Safety Release Valve™ (K230266) is substantially equivalent to its predicate device, also named Orchid Safety Release Valve™ (K212064). The only difference between the proposed device and the predicate is an update to the Indications for Use to include pediatric patients two (2) weeks of age and older, whereas the predicate was for patients eighteen (18) years of age and older.
The justification for this expanded indication is that "Pediatric extrapolation results supported safety and effectiveness of the Orchid SRV in pediatric patients." Additionally, the submission states that "The device performance of the subject and predicate device are identical and compatible with IV therapy in adult and pediatric patients. The results of pediatric extrapolation supported the similarities in risk profiles across all patient populations. Therefore, the change in indication does not questions of safety or effectiveness."
Here's what can be extracted based on your request, though limited by the document's content:
1. A table of acceptance criteria and the reported device performance:
The document does not explicitly state specific acceptance criteria in a numerical or measurable format for performance, nor does it provide a table reporting on these. It generally asserts that the device is identical in performance to its predicate. The only performance-related characteristic mentioned is:
| Characteristic | Acceptance Criteria (Implied) | Reported Device Performance |
|---|---|---|
| Separation Force | The document states the predicate had a separation force of "1-4.2 lbf" and that the proposed device has "same". | "1-4.2 lbf" |
| Safety and Effectiveness | Demonstrated through pediatric extrapolation, implying comparability to adult use. | Supported by pediatric extrapolation results, with no new or different questions of safety or effectiveness. |
2. Sample size used for the test set and the data provenance (e.g. country of origin of the data, retrospective or prospective):
The document does not specify a sample size or data provenance for any test set. It mentions "Pediatric extrapolation results," but no details on how these results were obtained (e.g., sample size, type of study).
3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts (e.g. radiologist with 10 years of experience):
This information is not provided in the document. The concept of "ground truth" and expert involvement in a test set as typically found in AI/imaging studies is not relevant to this device's submission, which relies on demonstrating substantial equivalence to a predicate.
4. Adjudication method (e.g. 2+1, 3+1, none) for the test set:
This information is not provided as there is no described test set or adjudication process in the context of this 510(k) submission.
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:
This is not applicable as the device (Orchid Safety Release Valve™) is a physical, tension-activated accessory, not an AI or imaging device involving human readers.
6. If a standalone (i.e. algorithm only without human-in-the-loop performance) was done:
This is not applicable as the device is not an algorithm.
7. The type of ground truth used (expert consensus, pathology, outcomes data, etc):
The concept of "ground truth" in the context of an algorithm's performance is not applicable here. The safety and effectiveness for the expanded pediatric indication were supported by "pediatric extrapolation results," implying an analysis of existing data or principles rather than a new data collection with a "ground truth" as typically defined for AI/diagnostic studies.
8. The sample size for the training set:
There is no mention of a training set in this document as the device is not an AI algorithm.
9. How the ground truth for the training set was established:
This is not applicable as there is no training set mentioned.
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(305 days)
The Linear Health Sciences™ Orchid Safety Release Valve™ is a tension-activated accessory for single patient use and placed between the existing IV administration set and IV extension set connection. The Orchid SRV™ is intended for use with electronic IV pumps in peripheral IV catheter applications where tension may act on the IV tubing. The Orchid SRV™ is designed to allow flow to an IV catheter. When excessive tension acts on the line, the Orchid SRV™ separates and closes the flow path in both directions. The Orchid SRV™ can be used during intermittent and continuous infusion.
The Orchid SRV™ is intended to aid in reduction of peripheral IV mechanical complications requiring IV replacement.
The Orchid SRV™ is for use with patients eighteen (18) years of age and older.
The Orchid Safety Release Valve™ or Orchid SRV™ connects via standard luer-locking connection, allowing flow during IV therapy. The Orchid SRV™ is designed to allow the device to separate into two halves when longitudinal tension exceeds the SRV tension window (between 1-4.2 lbf), automatically closing the flow path to both IV extension set and IV administration set. Following separation, a component of the Orchid SRV™ is left attached to each side of the infusion system to protect the intraluminal pathway. Upon separation, replacement of the SRV™ is necessary. Follow institutional policy to replace the SRV™, or at least every seven (7) days.
The provided text describes the Orchid Safety Release Valve™ (Orchid SRV™), a medical device intended to reduce peripheral IV mechanical complications. The information focuses on its substantial equivalence to a predicate device (SafeBreak® Vascular) and outlines various performance and safety tests.
Here's a breakdown of acceptance criteria and associated study information based on the provided text:
1. Table of Acceptance Criteria and Reported Device Performance
| Acceptance Criteria / Performance Aspect | Subject Device (Orchid Safety Release Valve™) Performance | Predicate Device (SafeBreak® Vascular) Performance (for comparison) | Substantial Equivalence Determination / Comment |
|---|---|---|---|
| Intended Use | Tension-activated accessory for single patient use, placed between IV administration set and IV extension set connection. Designed to allow flow, separate and close flow path in both directions when excessive tension acts on the line. Intended to aid in reduction of peripheral IV mechanical complications requiring IV replacement. For use with patients 18 years and older. | Separates when excessive tension is exerted across a peripheral IV administration set. Stops fluid flow from infusion pump and blood flow from patient's IV catheter. Intended to aid in reduction of peripheral IV mechanical complications requiring IV replacement. For use on peripheral IV catheters in adults and adolescent populations 18 years and older receiving intermittent or continuous infusions with an electronic pump. | Same intended use; subject device has a lower separation force designed to prevent dislodgement with lower pull-force securement methods. |
| Separation Force | 1-4.2 lbf | 4 ± 1 lbf | The lower limit of the Orchid SRV's separation force (1-4.2 lbf) was specifically designed to provide separation prior to securement device failure, even for securement devices with lower pull forces used for fragile skin. Performance testing demonstrated device conforms to this specification. |
| Functional Testing | - Tensile Strength Testing (ISO 8536-4 A-3) - Air Leakage Device Not Activated (ISO 80369-20:2015 Annex D) - Force to Disconnect - Air Leakage Device Activated (ISO 80369-20:2015 Annex D) - Water Leakage Device Not Activated (ISO 80369-20:2015 Annex C) - Water Leakage Female (ISO 80369-20:2015 Annex C) - Water Leakage Male (ISO 80369-20:2015 Annex C) - Flow Rate - Re-assembly Prevention - Assembly Weight - Particulate Testing (USP <788>) | Not explicitly stated in the comparison table, but implied similar functionalities. | These tests were performed to demonstrate that the proposed Orchid SRV™ met applicable design and performance requirements. |
| Usability Testing | Performed | Not specified | Performed. |
| Clinical Simulation Testing | Performed | Not specified | Performed. |
| Sterilization | Ethylene Oxide, SAL 10⁻⁶ | Ethylene Oxide, SAL 10⁻⁶ | Same. Sterilization validation followed AAMI TIR28:2016 and ISO 14937:2009 (half dose method, overkill approach). |
| Biocompatibility | Meets requirements outlined in ISO 10993-1:2018 for externally communicating, prolonged exposure device indirectly contacting the blood path. Required tests (Cytotoxicity, Sensitization, Irritation/Intracutaneous Reactivity, Acute Systemic Toxicity, Material-Mediated Pyrogenicity, Subacute/Subchronic Toxicity, Haemocompatibility) were performed. | Not specified, but generally a requirement for such devices. | Biocompatibility testing performed on the final Orchid Safety Release Valve™ demonstrates compliance. |
2. Sample size used for the test set and the data provenance
The document does not specify the exact sample sizes (number of devices or cases) for each performance test. It only lists the types of tests performed. The data provenance (e.g., country of origin, retrospective/prospective) is also not mentioned for the performance testing.
3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts
This information is not provided in the document. The listed tests are primarily engineering and laboratory-based performance evaluations, rather than studies requiring expert interpretation of diagnostic inputs or outcomes.
4. Adjudication method (e.g. 2+1, 3+1, none) for the test set
Not applicable. The tests described are objective performance evaluations based on established international standards (ISO, ASTM, USP) and device specifications, not subjective assessments requiring adjudication by multiple experts.
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
Not applicable. This device is a mechanical IV accessory, not an AI-powered diagnostic tool. Therefore, MRMC studies and "human readers with AI assistance" are not relevant to its evaluation.
6. If a standalone (i.e. algorithm only without human-in-the-loop performance) was done
Not applicable. The device is a mechanical component and does not involve an algorithm. The performance evaluation is inherently "standalone" in the sense that it assesses the device's functional characteristics directly.
7. The type of ground truth used (expert consensus, pathology, outcomes data, etc.)
The "ground truth" for the performance tests is derived from:
- Engineering specifications and design requirements: For parameters like separation force.
- International standards (ISO, ASTM, USP): These standards define acceptable methodologies and thresholds for various tests (e.g., tensile strength, air/water leakage, sterilization, biocompatibility).
- Functional objectives: The device must reliably separate and close flow paths under specific tension.
8. The sample size for the training set
Not applicable. This device is a mechanical component, not a machine learning model, so there is no concept of a "training set" in the context of its development or validation.
9. How the ground truth for the training set was established
Not applicable, as there is no training set for this type of device.
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