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K Number
K953681

Validate with FDA (Live)

Device Name
HAEMONETICS THERAPEUTIC PLASMA EXCHANGE SET
Manufacturer
HAEMONETICS CORP.
Date Cleared
1996-06-04

(302 days)

Product Code
LKN
Regulation Number
N/A
Type
Traditional
Panel
Gastroenterology/Urology
Reference & Predicate Devices
N/A
Predicate For
N/A
AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
Intended Use

TPE is performed using the Haemonetics MCS/MCS+ system to remove a significant quantity of platelet poor plasma and replace it with a solution as determined by the attending physician.

Device Description

The MCS and MCS+ systems have not been physically modified in any significant manner from the systems reviewed by the FDA under 510(k) BK900027 and BK930013. respectively. relative to standard pumps, centrifuge, electromechanical systems and donor safety monitoring systems.

Sterile Single-Use Disposable Sets:

  • List No. 780 Therapeutic Plasma Exchange Set (225 ml Latham bowl)
  • List No. 781 Therapeutic Plasma Exchange Set (125 ml Latham bowl)
  • List No. 980 Therapeutic Plasma Exchange Set (225 ml Latham bowl)
  • List No. 981 Therapeutic Plasma Exchange Set (125 ml Latham bowl)

These sets consist of a patient harness, a centrifuge blood separation chamber (Latham bowl), and a collection harness. A detached 5 liter plasma bag is also included.

AI/ML Overview

The provided text describes a 510(k) summary for new Therapeutic Plasma Exchange (TPE) disposable sets for use with the Haemonetics MCS/MCS+ system, claiming substantial equivalence to predicate devices. However, it does not contain the level of detail typically found in a study for device performance acceptance criteria as a standalone algorithm. Instead, it focuses on the safety and effectiveness of the new disposable sets in the context of TPE procedures.

Therefore, for the requested components of your prompt, some information will be absent or inferred based on the context of a 510(k) submission for disposable medical devices and the nature of therapeutic plasma exchange. This is not a study of an AI algorithm or a diagnostic device.

Here's an attempt to answer your questions based on the provided text, highlighting where information is not available:

Acceptance Criteria and Reported Device Performance

The document describes the intended use and performance within the context of a therapeutic procedure rather than typical "device performance metrics" for an algorithm. The "acceptance criteria" can be inferred as the demonstration of safety and effectiveness of the new disposable sets for TPE, comparable to existing methods.

Table 1: Acceptance Criteria (Inferred) and Reported Device Performance

Acceptance Criteria (Inferred from 510(k) Submission)Reported Device Performance
Safety: No undue adverse events related to the disposable sets or the TPE protocol.Patient vital signs, fluid intake/output, and extracorporeal volumes were monitored. Blood samples collected pre-, post-, and 18-30 hours post-procedure showed measurements of hemoglobin, hematocrit, platelet counts, LDH, IgA, IgG, and IgM levels, and haptoglobins. The data indicates the "protocol and the associated disposables can be performed safely."
Effectiveness: Ability to successfully remove a significant quantity of platelet-poor plasma as intended, without compromising patient health.TPE was performed to remove a significant quantity of platelet poor plasma. The study measured pre- and post-therapy platelet counts and other blood parameters, and the data indicates the "protocol and the associated disposables can be performed... effectively."
Substantial Equivalence: Performance comparable to predicate devices.The conclusion states: "TPE performed using the MCS+ system with the associated disposable set is substantially equivalent to TPE as performed using marketed devices." No specific direct comparisons of performance metrics to predicate devices are provided in this summary, but this is the ultimate claim for 510(k) clearance.

Study Details

2. Sample size used for the test set and the data provenance (e.g. country of origin of the data, retrospective or prospective)

  • Sample Size (Test Set):
    • 30 subjects were evaluated for TPE using the MCS with associated disposable sets.
    • 3 of these subjects were excluded from data analysis (transplant patients outside protocol). So, 27 subjects were included in the primary data analysis for the MCS.
    • A "smaller study" was conducted on healthy donors using the MCS+ (LN9000), but the exact number of subjects is not specified.
  • Data Provenance:
    • Country of Origin: Not specified in the summary, but given the sponsor (Haemonetics Corporation, Braintree, MA) and the FDA submission, it's highly likely to be United States.
    • Retrospective or Prospective: The studies were prospective as TPE was "performed on 30 subjects" and "a similar, but smaller study was conducted on healthy donors."

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 is not applicable in the context of this device. This is a submission for disposable medical devices used in a therapeutic procedure (plasma exchange), not an AI algorithm or a diagnostic device where "ground truth" is established by expert review of data (e.g., medical images). The "ground truth" here is the clinical outcome of the TPE procedure on the patient, monitored by the attending physician and clinical staff.

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

Not applicable. As this is not an AI algorithm or a diagnostic imaging study requiring expert adjudication of findings, there was no adjudication method as understood in these contexts. Clinical monitoring and physician discretion guided the procedure and assessment.

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 submission is for disposable medical devices (TPE sets) for use with an existing apheresis machine. It is not an AI-assisted diagnostic or therapeutic device, and therefore, an MRMC study related to human readers and AI assistance was not performed.

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

Not applicable. This relates to disposable medical devices for a therapeutic procedure, not a standalone algorithm. The device performance is inherently "with human-in-the-loop" as an operator (healthcare professional) performs the procedure using the system and the disposable sets, and an attending physician determines the course of treatment.

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

The "ground truth" for this type of device and study relates to the clinical outcomes and physical parameters of the TPE procedure. This includes:

  • Physiological Parameters: Patient vital signs, fluid intake/output, extracorporeal volumes (monitored during the procedure).
  • Laboratory Data: Pre- and post-procedure measurements of blood components (platelets, hemoglobin, hematocrit, LDH, IgA, IgG, IgM, haptoglobins) to assess the impact and effectiveness of plasma removal and replacement.
  • Safety Outcomes: Absence of undue adverse events, and demonstration that the procedure can be performed safely.
  • Clinical Effectiveness: The successful removal of platelet-poor plasma as prescribed by the attending physician.

The "ground truth" here is multi-faceted clinical data, not a single definitive "diagnosis" established by experts or pathology alone.

8. The sample size for the training set

Not applicable. This appears to be a clinical validation study for a physical medical device (disposable sets), not a machine learning model that requires a training set. The existing MCS/MCS+ systems were already cleared, and the clinical tests focused on the new disposable sets in the context of the TPE protocol.

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

Not applicable. As there is no "training set" for an AI algorithm in this context, this question is not relevant.

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K953681

REVISED 510(k) SUMMARY

Date:May 20, 1996JUN - 6 1996
Sponsor:Haemonetics Corporation400 Wood RoadBraintree, MA 02184
Contact:Alicia R. LopezCorporate Vice PresidentTel: (617) 356-9253Fax: (617) 356-3558
Proprietary names:Therapeutic Plasma Exchange (TPE) ProtocolList No. 780 Therapeutic Plasma Exchange Set (225 ml Latham bowl)for use with the MCS®+ (List Nos. 7000 and 8100)List No. 781 Therapeutic Plasma Exchange Set (125 ml Latham bowl)for use with the MCS+ (List Nos. 7000 and 8100)List No. 980 Therapeutic Plasma Exchange Set (225 ml Latham bowl)for use with the MCS+ (List No. 9000)List No. 981 Therapeutic Plasma Exchange Set (125 ml Latham bowl)for use with the MCS+ (List No. 9000)
Classification name:automated (centrifugal) blood separator
Common names:therapeutic disposable collection sets

Predicate devices:

ProductPredicate Device
MCS/MCS+(MCS List No. 7000)(MCS+ List Nos. 8100 and 9000)COBE Spectra™Single Needle Access Accessory System for TherapeuticPlasma Exchange (BK900105)
List Nos. 780 and 980Therapeutic Plasma ExchangeSets (225 ml bowl)COBE Single Needle Access disposable set:Blood Tubing Set, List No. 777000-100Single Needle bag and "Y", List No. 777000-100Return Flow Control Assembly, List No. P951000-000(BK900105)
List Nos. 781 and 981Therapeutic Plasma ExchangeSets (125 ml bowl)COBE Single Needle Access disposable set:Blood Tubing Set, List No. 777000-100Single Needle bag and "Y", List No. 777000-100Return Flow Control Assembly, List No. P951000-000(BK900105)

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DEVICE DESCRIPTION

Equipment

The MCS and MCS+ systems have not been physically modified in any significant manner from the systems reviewed by the FDA under 510(k) BK900027 and BK930013. respectively. relative to standard pumps, centrifuge, electromechanical systems and donor safety monitoring systems.

Sterile Single-Use Disposable Sets

  • List No. 780 Therapeutic Plasma Exchange Set (225 ml Latham bowl) Consists of a patient harness, a 225 ml centrifuge blood separation chamber (Latham bowl) and a collection harness (tubing distal to bowl) all of which are connected during the manufacturing process. A detached 5 liter plasma bag is also included. This disposable set is for use with the MCS+ (List Nos. 7000 and 8100).
  • List No. 781 Therapeutic Plasma Exchange Set (125 ml Latham bowl) Consists of a patient harness, a 125 ml centrifuqe blood separation chamber (Latham bowl) and a collection harness (tubing distal to bowl) all of which are connected during the manufacturing process. A detached 5 liter plasma bag is also included. This disposable set is for use with the MCS+ (List Nos. 7000 and 8100).
  • List No. 980 Therapeutic Plasma Exchange Set (225 ml Latham bowl) Consists of a patient harness, a 225 ml centrifuge blood separation chamber (Latham bowl) and a collection harness (tubing distal to bowl) all of which are connected during the manufacturing process. A detached 5 liter plasma bag is also included. This disposable set is for use with the MCS+ (List No. 9000).
  • List No. 981 Therapeutic Plasma Exchange Set (125 ml Latham bowl) Consists of a patient harness, a 125 ml centrifuge blood separation chamber (Latham bowl) and a collection harness (tubing distal to bowl) all of which are connected during the manufacturing process. A detached 5 liter plasma bag is also included. This disposable set is for use with the MCS+ (List No. 9000).

Operating Protocol Summary

The MCS and MCS+ systems and associated disposable sets are used to perform therapeutic plasma exchange ("TPE") as briefly summarized below.

Protocol options. There are four TPE disposable options which are available: List Nos. 780 and 980 have a 225 ml Latham bowl and List Nos. 781 and 981 have a 125 ml Latham bowl. The smaller bowl size is used when the attending physician desires to minimize the total extracorporeal blood volume (volume temporarily out of circulation) during each processing cycle. The TPE protocol also accommodates the addition of a secondary access site for separate, continuous fluid replacement.

Preparation. The disposable set is loaded on the MCS or MCS+ system by the operator and primed with anticoagulant. With single access, the replacement fluid

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bag(s) is/are also spiked. When continuous fluid replacement is desired, replacement fluid is connected to a separate intravenous line and pumped. Thereafter the line is connected to the second lumen of a catheter (if dual-lumen) or to a second access intravenous line for gravity re-infusion.

DRAW/RETURN. Blood is pumped from the patient through the tubing directly into the Latham bowl where the components are separated by centrifugation. The plasma exits the top of the bowl and is directed to the collection bag. The system continuously monitors the outflow of the bowl through optical sensors; when the platelet-rich layer ("buffy coat") is detected, the DRAW phase stops. The blood pump reverses and the RETURN phase begins. The remaining contents of the bowl are returned to the patient with replacement fluid (if not being administered via a secondary access site). When the bowl has emptied, the next DRAW phase begins. The number of DRAW/RETURN cvcles required to complete the procedure depends upon the target volume of plasma to be removed.

Intended Use

TPE is performed using the Haemonetics MCS/MCS+ system to remove a significant quantity of platelet poor plasma and replace it with a solution as determined by the attending physician.

Clinical Tests

Haemonetics sponsored clinical evaluations to perform TPE using the MCS with the associated disposable sets.

Briefly, TPE was performed on 30 subjects for over 100 procedures using the AABB Guidelines for Therapeutic Hemapheresis (1993). Subjects were selected from patients for whom TPE was prescribed by their physician. Although enrolled, three subjects were not included in the data analysis because their status as transplant patients put them outside the disease states described by the protocol. The number of procedures and replacement fluids were at the discretion of the attending physician. Patient vital signs, fluid intake/output and extracorporeal volumes were monitored. Blood samples were collected pre- and post-procedure and 18-30 hours post-procedure for sampling. Parameters measured include pre- and post-therapy platelets counts, pre- and postprocedure LDH levels, pre-, post- and18 hour-post procedure hemoglobin and hematocrit, platelet counts, LDH, IgA, IgG and IgM levels, and pre- and posthaptoglobins.

Additionally, a similar, but smaller study was conducted on healthy donors using the MCS+ (LN9000).

The data indicates that the Haemonetics Therapeutic Plasma Exchange protocol and the associated disposables can be performed safely and effectively.

Conclusion

TPE performed using the MCS+ system with the associated disposable set is substantially equivalent to TPE as performed using marketed devices.

N/A