Biopolymers for Biomedical and Biotechnological Applications. Группа авторов
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Название: Biopolymers for Biomedical and Biotechnological Applications

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Химия

Серия:

isbn: 9783527818303

isbn:

СКАЧАТЬ a doubt, patrons of the ancient surgeon subjected themselves to these devices with the expectation and trust that they would be getting better – not worse – due to the treatment they received. While biocompatibility has not always been explicitly defined through history, the safety of a tool in a doctor's hand is central to the mission of the doctor. Following the industrial revolution, instruments have become mass‐produced and marketed as effective tools for the practice of medicine, making doctors rely on the diligence of the manufacturer to ensure patient safety. Concurrently, our knowledge of toxicology has expanded through experience, and medical journals have become widely available to share clinical experiences. These platforms have been and are currently successfully used to notify doctors and also the public about medical instruments thought to be safe, but which actually did more harm than good, and discuss options for mitigating the risks associated with the use of these devices.

      To protect patients from being harmed by medical devices, which for one reason or another might be unsafe due to negligence on the part of the device manufacturer, medical device safety has become regulated. These regulations require medical device manufacturers making a device or product to demonstrate that what they are producing performs appropriately when used as intended. Past experience and modern toxicology have identified what sorts of health risks are associated with the use of a given medical device. The most modern and comprehensive overview of biocompatibility is the suite of documents that make up the international standard ISO 10993; the first document in the series, ISO 10993‐1, provides the high‐level framework for evaluation of biocompatibility as a whole, while the other documents in the series explore specific topics in more detail.

      Source: Courtesy of Arthrex®.

      The biocompatibility evaluation process, in general, begins by determining what potential biological risks the use of the material would present. Once risks are determined, a plan to evaluate those risks should be developed. Often, the risk identification process begins by answering the following questions:

      1 What is the intended use of the device (or material)?What tissues or fluids will it contact in the body (either directly or indirectly)?How long is the cumulative amount of time it may contact the body?Who will be exposed to the device (infants, pediatrics, adults)?

      2 What is known about the device materials and their fate in the body?What processing, packaging, and sterilization are the materials exposed to?Are the materials known to degrade over time?What previous clinical experience is there with the device (or materials)?

      Annex A in ISO 10993‐1 contains a chart of biological risks for consideration, stratified by contact duration (limited ≤24 hours, prolonged >24 hours to 30 days, long term >30 days) and contact type. These risks can provide a starting point for understanding the risks presented by a device for both the device manufacturer and those who would in the end approve the device for use. To illustrate how Annex A is used, two commonly used biopolymeric devices are put through the thought process as examples:

       Device 1: A chitin‐based hemostatic agent for acute treatment during massive hemorrhage in an open wound

       Device 2: A polycaprolactone (PCL) implant for infants, designed to degrade and resorb over a period of two to three years

Hemostatic Implant
Contact tissues Bleeding wound Muscle and bone
Contact duration Expected to be less than 24 h, but could extend beyond Device resorbs over 2–3 yr
Target patient population Adults Infants
Classification per Annex A Category: implant medical device Contact: tissue/bone Contact duration: permanent
Biological risks to be addressed (per ISO 10993‐1, Annex A) CytotoxicitySensitizationIrritationMaterial‐mediated pyrogenicityAcute systemic toxicitySubacute toxicityImplantation effects CytotoxicitySensitizationIrritationMaterial‐mediated pyrogenicityAcute systemic toxicitySubacute toxicitySubchronic toxicityChronic toxicityImplantation effectsGenotoxicityCarcinogenicityDegradation СКАЧАТЬ