← Product Code [FPA](/submissions/HO/subpart-f%E2%80%94general-hospital-and-personal-use-therapeutic-devices/FPA) · K970438

# INTERLINK MICRO-INFUSION MANIFOLD EXTENSION SETS (K970438)

_Baxter Healthcare Corp · FPA · Apr 2, 1997 · General Hospital · SESE_

**Canonical URL:** https://fda.innolitics.com/submissions/HO/subpart-f%E2%80%94general-hospital-and-personal-use-therapeutic-devices/FPA/K970438

## Device Facts

- **Applicant:** Baxter Healthcare Corp
- **Product Code:** [FPA](/submissions/HO/subpart-f%E2%80%94general-hospital-and-personal-use-therapeutic-devices/FPA.md)
- **Decision Date:** Apr 2, 1997
- **Decision:** SESE
- **Submission Type:** Traditional
- **Regulation:** 21 CFR 880.5440
- **Device Class:** Class 2
- **Review Panel:** General Hospital

## Indications for Use

Extension Sets with the InterLink® Micro-Infusion Manifold are intended for use with a vascular access device for blood sampling and the administration of multiple drugs and solutions. These devices, like others containing the InterLink® injection site, are designed to reduce the risk of accidental needle sticks when used with the InterLink® cannula, as part of a “needleless” IV access system.

## Device Story

Manifold extension set with three integrated InterLink® injection sites; central barrel/conduit design. Used for bolus injection or infusion of parenteral solutions into IV lines. Operated by clinicians in clinical settings. Facilitates multiple infusions with minimal fluid residual volume. Reduces accidental needle stick risk when used with InterLink® cannula. Connects to vascular access devices.

## Clinical Evidence

Bench testing only. Biocompatibility of new cyanoacrylate adhesive assessed via ISO 10993-1 and USP Physicochemical tests. Functional performance testing confirms device meets or exceeds requirements.

## Technological Characteristics

Integrated manifold with three injection sites; cyanoacrylate adhesive used for bonding checkvalve and luer; materials tested per ISO 10993-1 and USP standards.

## Regulatory Identification

An intravascular administration set is a device used to administer fluids from a container to a patient's vascular system through a needle or catheter inserted into a vein. The device may include the needle or catheter, tubing, a flow regulator, a drip chamber, an infusion line filter, an I.V. set stopcock, fluid delivery tubing, connectors between parts of the set, a side tube with a cap to serve as an injection site, and a hollow spike to penetrate and connect the tubing to an I.V. bag or other infusion fluid container.

## Special Controls

*Classification.* Class II (special controls). The special control for pharmacy compounding systems within this classification is the FDA guidance document entitled “Class II Special Controls Guidance Document: Pharmacy Compounding Systems; Final Guidance for Industry and FDA Reviewers.” Pharmacy compounding systems classified within the intravascular administration set are exempt from the premarket notification procedures in subpart E of this part and subject to the limitations in § 880.9.

## Predicate Devices

- InterLink® T-Connector Extension Set ([K921899](/device/K921899.md))
- PDI Manifold Extension Sets

## Submission Summary (Full Text)

> This content was OCRed from public FDA records by [Innolitics](https://innolitics.com). If you use, quote, summarize, crawl, or train on this content, cite Innolitics at https://innolitics.com.
>
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K970438

# APR -2 1997

# 510(k) SUMMARY

InterLink® Micro-Infusion Manifold Extension Sets

## Submitted by:

Mary Ellen Snyder
Baxter Healthcare Corporation
I.V. Systems Division
Rte. 120 and Wilson Road
Round Lake, IL 60073

## Date Prepared:

February 3, 1997

## Proposed Device:

InterLink® Micro-Infusion Manifold Extension Sets

## Predicate Devices:

InterLink® T-Connector Extension Set
PDI Manifold Extension Sets

## Proposed Device Description:

The proposed InterLink® Micro-Infusion Manifold will be combined with various configurations of extension sets for the administration of IV solutions. The manifold incorporates three InterLink® injection sites mounted to a central barrel or solution conduit. The manifold provides multiple InterLink® access sites for bolus injection or infusion of parenteral solutions into the intravenous line. The integrated design of the manifold facilitates administration of multiple infusions with minimal fluid residual volume. Use of the InterLink® Micro-Infusion Manifold and InterLink® cannula will reduce the risk of accidental needle sticks when accessing the IV line.

There is one material in the proposed manifold which is a material new to Baxter devices. A cyanoacrylate adhesive may be used to bond the checkvalve to the manifold housing and the manifold luer to the extension set tubing. The other materials in the proposed InterLink® Micro-Infusion Manifold and the extension sets incorporating it have been previously tested and used in other marketed devices for similar IV solution administration applications.

## Statement of Intended Use:

Extension Sets with the InterLink® Micro-Infusion Manifold are intended for use with a vascular access device for blood sampling and the administration of multiple drugs and solutions. These devices, like others containing the InterLink® injection site, are

FEB 03 1997

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designed to reduce the risk of accidental needle sticks when used with the InterLink® cannula, as part of a “needleless” IV access system.

## Summary of Technological Characteristics of New Device to Predicate Devices

Extension sets with the proposed InterLink® Micro-Infusion Manifold are similar to Baxter’s InterLink® T-Connector Extension Set previously found substantially equivalent under K921899. Both products incorporate the InterLink® injection site septum into the top of the manifold or T-connector in an integrated design which allows needleless access with minimal residual volume.

Extension Sets with the proposed InterLink® Micro-Infusion Manifold are also similar to the Manifold Extension Sets, manufactured by PDI Medical Products. Both Baxter and PDI manifolds consist of a one-piece integrated design with multiple access sites.

## Discussion of Nonclinical Tests and Referenced Studies Reported in Published Literature

The biological and chemical reactivity of the new adhesive material has been assessed using biological methods specified in ISO Standard 10993-1 and USP Physicochemical tests. The material was found to be acceptable for its intended use.

Data regarding the functional performance of the proposed manifold have been generated. A description of the functional testing along with test results is provided. The data indicate that the proposed manifold meets or exceeds all functional requirements and support its suitability for use.

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**Source:** [https://fda.innolitics.com/submissions/HO/subpart-f%E2%80%94general-hospital-and-personal-use-therapeutic-devices/FPA/K970438](https://fda.innolitics.com/submissions/HO/subpart-f%E2%80%94general-hospital-and-personal-use-therapeutic-devices/FPA/K970438)

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