K991737, K010478, K001602

K991737, K010478

No
The document describes a mechanical medical device (oxygenator with heat exchanger and reservoir) and does not mention any software, algorithms, or data processing that would indicate the use of AI or ML. The modifications are physical design changes.

Yes
The device is described as an oxygenator intended to provide oxygenation and carbon dioxide removal from blood, and also includes an integrated heat exchanger for blood temperature control, which directly treats physiological conditions during cardiopulmonary bypass surgery.

No

Explanation: The device is an oxygenator used for cardiopulmonary bypass surgery, providing oxygenation, carbon dioxide removal, and temperature control. It facilitates treatment rather than providing diagnostic information.

No

The device description clearly outlines a physical medical device (oxygenator, heat exchanger, reservoir) used in cardiopulmonary bypass surgery, not a software-only application.

Based on the provided text, this device is not an IVD (In Vitro Diagnostic).

Here's why:

• Intended Use: The intended use clearly describes a device used during cardiopulmonary bypass surgery to oxygenate and remove carbon dioxide from blood outside the body. It also includes a heat exchanger for temperature control and a reservoir for collecting blood. This is a life-support device used in a surgical setting, not a device used to perform tests on samples of blood or other bodily fluids in vitro (in a lab setting).
• Device Description: The description reinforces its function as an oxygenator and reservoir for extracorporeal circulation.
• Performance Studies: The performance studies focus on the device's ability to perform its intended function (gas transfer, pressure drop, heat exchange, etc.) with blood, not on its ability to diagnose a condition or measure a substance in a sample.

IVD devices are typically used to examine specimens (like blood, urine, tissue) to provide information for diagnosis, monitoring, or screening. This device directly interacts with the patient's blood flow during surgery for life support.

N/A

Intended Use / Indications for Use

The D 100 L001 Ph.I.S.I.O. Newborn Hollow Fiber Membrane Oxygenator with Phosphorilcholine Coating is intended for use in infants who undergo cardiopulmonary bypass surgery requiring extracorporeal circulation with a maximum blood flow rate of 0.7 liters/minute. It provides oxygenation and carbon dioxide removal from venous or suctioned blood. The integrated heat exchanger provides blood temperature control and allows the use of hypothermia or aids in the maintenance of normothermia during surgery. The venous reservoir is intended to collect blood aspirated from the operating field during surgical procedures and the blood from patient's veins (gravity or vacuum assisted) during normal operation, to always assure the proper oxygenation capability of the device. The D 100 L001 Ph.I.S.I.O. should not be used longer than 6 hours. Contact with blood for longer periods is not advised.

Product codes

DTZ

Device Description

The D 100 L001 Ph.I.S.I.O Newborn Hollow Fiber Oxygenator with Integrated Hardshell Cardiotomy/Venous Reservoir with phosphory/choline coating (hereafter referred to as the D 100 Ph.I.S.I.O) is a high efficiency microporous newborn hollow fiber membrane oxygenator integrated with an heat exchanger and connected to an hardshell cardiotomy/venous reservoir. The device is a modified version of the currently marketed D 901 Ph.I.S.I.O. Newborn Hollow Fiber Membrane Oxygenator with phosphoryIcholine coating unmodified device (K991737, K010478) (hereafter referred to as the D 901 Ph.I.S.I.Q.), The modification is limited to an overall reduction in the size of the device, design change to the integrated heat exchanger and hardshell cardiotomy/venous reservoir and consequent updating of product specifications in the IFUs. The reduction in size enables the device to be better suited for surgical procedures on smaller pediatric patients (newborn) where a minimal priming volume is required. Other than this change the D 100 Ph.I.S.I.O. and the D 901 Ph.I.S.I.O. are identical in intended use, materials and manufacturing processes.

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

infants, newborn

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 Test Results: A complete battery of tests were carried out in accordance with the requirements of ISO 10993-1:2003 and the FDA May 1, 1995 Memorandum on the use of the ISO 10993 standard for biocompatibility testing on the raw materials. Testing was performed on the D 901 Ph.I.S.I.O. The aged device was tested for Hemolysis, Cytotoxicity, Irritation, Acute Systemic Toxicity and Mutagenicity. Sterility, Pyrogenicity, ETO residuals. Package integrity testing was also conducted. The results of this testing met established specifications. As no new materials are used in the D 100 L001 Ph.I.S.I.O. newborn oxygenator with respect to the D 901 Ph.I.S.I.O. data collected are considered applicable to D 100 Ph.I.S.I.O. oxygenator.

In Vitro Test Results: In vitro testing was carried out in accordance with the requirements of "Guidance for Cardiopulmonary Bypass Oxygenators 510(k) submissions – Final Guidance for Industry and FDA Staff" issued on November 13, 2000 - "Guidance for Blood Extracorporeal Blood Circuit Defoamer 510(k) Submission" Final Guidance for industry and FDA issued on November 29, 2000 - and FDA issued on November 29, 2000 and when applicable, following the ISO 7199 (1996) standard for "Cardiovascular Implants and Artificial Organs – Extra Corporeal Blood-Gas Exchangers (Oxygenator)" for providing the data necessary to demonstrate both the substantial equivalence with the unmodified and predicate devices and also complying with safety and effectiveness requirements. The device aged up to 1 year was tested for gas transfer characteristics, pressure drop, plasma leakage data, heat exchanger performance evaluation, in vitro hemolysis/cell depletion, operating blood volumes, structural integrity, mechanical integrity, venous, cardiotomy reservoir characterization (including breakthrough times and volumes, hold up, reservoir graduated scale accuracy, residual blood volume, defoaming capacity, filtration efficiency, microembolic activity and reservoir housing intearrity) and flaking and leaching studies characterization. The results of these texts my, established specifications. For comparative purposes all tests, when applicable, were carried out on sterilized aged devices comparing the D 100 Ph.I.S.I.O. and D 901 Ph.I.S.I.O. The result of the study showed that D 100 Ph.I.S.I.O. was slightly different to D 901 Ph.I.S.I.O. D 100 Ph.I.S.I.O. is smaller in overall size high a more packed design, and contains a different heat exchanger/reservoir design than D 901 Ph.I.S.I.O., therefore these results were expected.

Key Metrics

Not Found

Predicate Device(s)

K991737, K010478, K001602

Reference Device(s)

Not Found

Predetermined Change Control Plan (PCCP) - All Relevant Information

Not Found

§ 870.4350 Cardiopulmonary bypass oxygenator.

(a)
Identification. A cardiopulmonary bypass oxygenator is a device used to exchange gases between blood and a gaseous environment to satisfy the gas exchange needs of a patient during open-heart surgery.(b)
Classification. Class II (special controls). The special control for this device is the FDA guidance document entitled “Guidance for Cardiopulmonary Bypass Oxygenators 510(k) Submissions.”

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510(k) SUMMARY

| SUBMITTER: | Sorin Group Italia S.r.l.
86, Via Statale 12 Nord
41037 Mirandola (MO) Italy |
|----------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| CONTACT PERSON: | Luigi Vecchi
Phone: 011 39 0535 29811
Fax: 011 39 0535 25229 |
| DATE PREPARED: | April 13, 2006 |
| | JUN - 2 2006 |
| DEVICE TRADE NAME: | D 100 L001 Ph.I.S.I.O: D 100 L001
Ph.I.S.I.O Newborn Hollow Fiber
Oxygenator with Integrated Hardshell
Cardiotomy/Venous Reservoir with
phosphorylcholine coating (hereafter
referred to as D 100 Ph.I.S.I.O.) |
| COMMON NAME: | Hollow Fiber Membrane Oxygenator with
Hardshell Cardiotomy/Venous Reservoir |
| CLASSIFICATION NAME: | Cardiopulmonary Bypass Oxygenator /
Cardiopulmonary Bypass Heat Exchanger /
Cardiopulmonary Bypass Blood
Reservoir / Cardiopulmonary Bypass
Defoamer |
| UNMODIFIED DEVICE | D 901 Lilliput 1 Ph.I.S.I.O. Newborn
Hollow Fiber Membrane Oxygenator with
phosphorylcholine coating (open and
closed system) (hereafter referred to as D
901 Ph.I.S.I.O.) (K991737, K010478). |
| PREDICATE DEVICE: | D 901 Lilliput 1 Ph.I.S.I.O. Newborn
Hollow Fiber Membrane Oxygenator with
phosphorylcholine coating (open and
closed system) (K991737, K010478).
D 920 Lilliput 1 Twin Reservoir Ph.I.S.I.O.,
Hardshell Venous Cardiotomy Reservoir
with phosphorylcholine coating (K001602) |

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DEVICE DESCRIPTION:

The D 100 L001 Ph.I.S.I.O Newborn Hollow Fiber Oxygenator with Integrated Hardshell Cardiotomy/Venous Reservoir with phosphory/choline coating (hereafter referred to as the D 100 Ph.I.S.I.O) is a high efficiency microporous newborn hollow fiber membrane oxygenator integrated with an heat exchanger and connected to an hardshell cardiotomy/venous reservoir. The device is a modified version of the currently marketed D 901 Ph.I.S.I.O. Newborn Hollow Fiber Membrane Oxygenator with phosphoryIcholine coating unmodified device (K991737, K010478) (hereafter referred to as the D 901 Ph.I.S.I.Q.), The modification is limited to an overall reduction in the size of the device, design change to the integrated heat exchanger and hardshell cardiotomy/venous reservoir and consequent updating of product specifications in the IFUs. The reduction in size enables the device to be better suited for surgical procedures on smaller pediatric patients (newborn) where a minimal priming volume is required. Other than this change the D 100 Ph.I.S.I.O. and the D 901 Ph.I.S.I.O. are identical in intended use, materials and manufacturing processes.

INDICATION FOR USE:

The D 100 L001 Ph.I.S.I.O. Newborn Hollow Fiber Membrane Oxygenator with Phosphorilcholine coating is intended for use in infants who undergo cardiopulmonary bypass surgery requiring extracorporeal circulation with a maximum blood flow rate of 0.7 liters/minute. It provides oxygenation and carbon dioxide removal from venous or suctioned blood. The integrated heat exchanger provides blood temperature control and allows the use of hypothermia or aids in the maintenance of normothermia during surgery. The venous reservoir is intended to collect blood aspirated from the operating field during surgical procedures and the blood from patient's veins (gravity or vacuum assisted) during normal operation, to always assure the proper oxygenation capability of the device. The D 100 L001 Ph.I.S.I.O. should not be used longer than 6 hours. Contact with blood for longer periods is not advised.

TECHNOLOGICAL CHARACTERISTICS:

The D 100 Ph.I.S.I.O. is similar to the D 901 Ph.I.S.I.O. unmodified device with respect to intended use, materials, biocompatibility and performance of the PmMl2 coating, operating principles, control mechanisms, fundamental scientific technology and manufacturing process. The D 100 Ph.I.S.I.O. oxygenating module shares the same basic design, operating principles and control mechanisms of the D 901 Ph.I.S.I.O. module. The only modifications consist of a heat exchanger design revision with respect to D 901 Ph.I.S.I.O.. The hardshell cardiotomy/venous reservoir present in both D 100 Ph.I.S.I.O. and D 901 Ph.I.S.I.O. share the same technological characteristics, operating principles, materials except for the design. The hardshell reservoir type has been changed form a dual chamber with two distinct sections (cardiotomy and reservoir respectively) similar to the D 920 Twin Ph.I.S.I.O. to a single chamber with cardiotomy and venous section in the same chamber. These design changes

2

update the D 100 Ph.I.S.I.O. device with technology implemented in existing oxygenators manufactured by Sorin Group Italia S.r.l. An overall reduction of its dimensions with consequent less hollow fiber membrane material and reduced priming volume as well as some external features revision, complete the revision of the device. The D 100 Ph.I.S.I.O. is substantially equivalent to D 901 Ph.I.S.I.O. in intended use, patient population and performance specifications.

The coating of the D 100 Ph.I.S.I.O. is identical to the phosphorylcholine coating used on D 901 Ph.I.S.I.O. The oxygenator is ethylene oxide sterilized and has a nonpyrogenic fluid path. It is for single use only.

NON CLINICAL TEST RESULTS:

A complete battery of tests were carried out in accordance with the requirements of ISO 10993-1:2003 and the FDA May 1, 1995 Memorandum on the use of the ISO 10993 standard for biocompatibility testing on the raw materials. Testing was performed on the D 901 Ph.I.S.I.O. The aged device was tested for Hemolysis, Cytotoxicity, Irritation, Acute Systemic Toxicity and Mutagenicity. Sterility, Pyrogenicity, ETO residuals. Package integrity testing was also conducted. The results of this testing met established specifications. As no new materials are used in the D 100 L001 Ph.I.S.I.O. newborn oxygenator with respect to the D 901 Ph.I.S.I.O. data collected are considered applicable to D 100 Ph.I.S.I.O. oxygenator.

IN VITRO TEST RESULTS:

In vitro testing was carried out in accordance with the requirements of "Guidance for Cardiopulmonary Bypass Oxygenators 510(k) submissions – Final Guidance for Industry and FDA Staff" issued on November 13, 2000 - "Guidance for Blood Extracorporeal Blood Circuit Defoamer 510(k) Submission" Final Guidance for industry and FDA issued on November 29, 2000 - and FDA issued on November 29, 2000 and when applicable, following the ISO 7199 (1996) standard for "Cardiovascular Implants and Artificial Organs – Extra Corporeal Blood-Gas Exchangers (Oxygenator)" for providing the data necessary to demonstrate both the substantial equivalence with the unmodified and predicate devices and also complying with safety and effectiveness requirements. The device aged up to 1 year was tested for gas transfer characteristics, pressure drop, plasma leakage data, heat exchanger performance evaluation, in vitro hemolysis/cell depletion, operating blood volumes, structural integrity, mechanical integrity, venous, cardiotomy reservoir characterization (including breakthrough times and volumes, hold up, reservoir graduated scale accuracy, residual blood volume, defoaming capacity, filtration efficiency, microembolic activity and reservoir housing intearrity) and flaking and leaching studies characterization. The results of these texts my, established specifications. For comparative purposes all tests, when applicable, were carried out on sterilized aged devices comparing the D 100 Ph.I.S.I.O. and D 901 Ph.I.S.I.O. The result of the study showed that D 100 Ph.I.S.I.O. was slightly different to D 901 Ph.I.S.I.O. D 100 Ph.I.S.I.O. is smaller in overall size high a

3

more packed design, and contains a different heat exchanger/reservoir design than D 901 Ph.I.S.I.O., therefore these results were expected.

CONCLUSIONS:

The results of in vitro studies demonstrate that the design modification affect the D 100 Ph.1.S.I.O. performance with respect to the relevant functional parameters as compared to the D 901 Ph.I.S.I.O. unmodified device. However, the results are expected because the D 100 Ph.I.S.I.O. is smaller in overall size, has a more packed design, and contains a different heat exchanger/reservoir design as compared to the unmodified device. Although these design differences affect the above performance parameters, they are intended to make the D 100 Ph.I.S.I.O. more suitable for use on newborn patients than the unmodified and predicate devices, The smaller size offers theoretical advantages in terms of reduced priming volume and consequently less hemodilution. A lower priming volume is desirable as it results in advantageous patient hemodynamic, reduced exposure of the blood cells and plasma proteins to large surface areas and reduced need of transfusion which has potential risk of donor transmitted disease.

Furthermore, the D 100 Ph.I.S.I.O. performs in a manner substantially equivalent to the D 901 Ph.I.S.I.O. with respect to biocompatibility according to its intended use. Additional testing has also demonstrated the effectiveness of production techniques to assure that the oxygenator is sterile and non-pyrogenic.

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Food and Drug Administration 9200 Corporate Boulevard Rockville MD 20850

JUN - 2 2006

Sorin Group Italla S.R.L. c/o Mr. Parry Sall Principal Consultant Parexel Consulting 200 West Street Waltham, MA 02451-1163

Re: K061031

D 100 L001 Ph.I.S.I.O. Newborn Hollow Fiber Membrane Oxygenator with Integrated Hardshell Venous/Cardiotomy Reservoir with phosphorylcholine coating Regulation Number: 21 CFR 870.4350 Regulation Name: Cardiopulmonary Bypass Oxygenator Regulatory Class: Class II Product Code: DTZ Dated: May 23, 2006 Received: May 24, 2006

Dear Mr. Sall:

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 (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. 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.

If your device is classified (see above) into either class II (Special Controls) or class III (PMA), it may be subject to such 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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Page 2 - Mr. Parry Sall

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); good manufacturing practice requirements as set forth in the quality systems (OS) regulation (21 CFR Part 820); and if applicable, the electronic product radiation control provisions (Sections 531-542 of the Act); 21 CFR 1000-1050. This letter will allow you to begin marketing your device as described in your Section 510(k) premarket notification. The FDA finding of substantial equivalence of your device to a legally marketed predicate device results in a classification for your device and thus, permits your device to proceed to the market.

If you desire specific advice for your device on our labeling regulation (21 CFR Part 801), please contact the Office of Compliance at (240) 276-0120. Also, please note the regulation entitled, "Misbranding by reference to premarket notification" (21CFR Part 807.97). You may obtain other general information on your responsibilities under the Act from the Division of Small Manufacturers, International and Consumer Assistance at its toll-free number (800) 638-2041 or (240) 276-3150 or at its Internet address http://www.fda.gov/cdrh/industry/support/index.html.

Sincerely yours,

Brimmer for

Bram D. Zuckerman, M.D. Director Division of Cardiovascular Devices Office of Device Evaluation Center for Devices and Radiological Health

Enclosure

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Image /page/6/Picture/0 description: The image shows the logo for Sorin Group, a medical technology company. The logo features a stylized graphic to the left of the company name, "SORIN GROUP," which is written in a bold, sans-serif font. Below the company name is the tagline "AT THE HEART OF MEDICAL TECHNOLOGY" in a smaller font size.

Sorin Group Italia S.r.l.

510(k) Number (if known):

Device Name: D 100 L001 Ph.I.S.I.O. Newborn Hollow Fiber Membrane Oxygenator with Phosphoriicholine Coating

Indications for Use:

The D 100 L001 Ph.I.S.I.O. Newborn-Hollow Fiber Membrane Oxygenator with Phosphorilcholine Coating is intended for use in infants who undergo cardiopulmonary bypass surgery requiring extracorporeal circulation with a maximum blood flow rate of 0.7 liters/minute. It provides oxygenation and carbon dioxide removal from venous or suctioned blood. The integrated heat exchanger provides blood temperature control and allows the use of hypothermia or aids in the maintenance of normothermia during surgery. The venous reservoir is intended to collect blood aspirated from the operating field during surgical procedures and the blood from patient's veins (gravity or vacuum assisted) during normal operation, to always assure the proper oxygenation capability of the device. The D 100 L001 Ph.I.S.I.O. should not be used longer than 6 hours. Contact with blood for longer periods is not advised.

Bhummo

Prescription Use X (Part 21 CFR 801 Subpart D)

AND/OR

Over-the-Counter Use (21 CFR 807 Subpart C)

(PLEASE DO NOT WRITE BELOW THIS LINE - CONTINUE ON ANOTHER PAGE IF NEEDED)

Concurrence of CDRH, Office of Device Evaluation (ODE)