Can Implant Longevity Be Extended?

    Nothing lasts forever, including joint implants. Failing prosthetic joints are a potential serious health problem for the more than 7 million Americans living with a knee or hip implant. That number is increasing rapidly every year, too.

    “Adults are living longer, and many are maintaining a very active lifestyle, creating the need for long-lasting joint replacements,” says Robin Pourzal, PhD, a research scientist in the Department of Orthopedic Surgery at Rush University Medical Center.

    Total hip replacements now last between 15 and 25 years in most cases. However, if a reaction occurs, the implant lifetime can be less than 5 years.

    Using an advanced technology available nowhere else in the U.S., researchers at Rush have begun a retrospective study to analyze implants that fail in the hope of improving future implants and preventing or decreasing the incidence of joint replacement failure.

    “If we know why and when the implants fail, the implant can be adjusted before surgically implanting, and surgeons can plan in advance for how and when an implant may fail,” Dr. Pourzal said.

    More than 50,000 Revisions a Year

    In 2011, orthopedic surgeons performed 306,000 total hip replacements in the U.S. alone, according to the United States Bone and Joint Initiative, a collaborative effort by numerous medical professional societies.

    That same year, doctors also performed an additional 50,600 revision procedures to replace previously implanted artificial hips. Both numbers increase every year.

    “The reasons for revision surgery are varied and can include infection, instability, and loosening of the prostheses, and the need for revision can occur within the first few months after implantation,” Dr. Pourzal said.

    Revision surgery for joint replacement failure also may be necessary due to the corrosion or wear on implant surfaces. Implant failure occurs due to adverse reactions in surrounding tissue to the minute debris that results from corrosion and/or implant debris wearing off a non-corrosive joint. In addition, there are various types of adverse local tissue reactions, which often are not examined in detail.

    “Currently, there isn’t much research data published on this topic because, typically, corrosion is not documented as a cause for revision. Awareness of corrosion as a major contributor has been increasing over the last few years,” Dr. Pourzal said.

    Looking Back to Move Forward

    Retrospective studies can help yield greater understanding of what leads to failure, whether it’s due to design features or patient characteristics, Dr. Pourzal explained. He is examining approximately 400 implants that have been retrieved from patients since 2000 and that qualify for the study.

    Failed implants are collected and cataloged in Rush’s Implant Pathology Laboratory. Many of the surgically retrieved implants come from patients who underwent their original procedure elsewhere and came to Rush for their revision surgery.

    Additionally, more than 1100 patients have consented to participate in a postmortem retrieval program, allowing for the retrieval of their joint prostheses in surrounding bone and the collection of various organ samples at the time of their death.

    “The information garnered from these postmortem retrieved components is among some of the most valuable as it allows for the examination of implants that were well functioning,” Dr. Pourzal said.

    “This is a very comprehensive retrospective study that examines all types of implant failure,” said Deborah Hall, the manager of the implant lab. “Having the patient information in detail like we have is important in understanding how much material is released into the body and what factors lead to a reaction. It’s what differentiates our study from others.

    ”Dr. Pourzal uses advanced profiling technology for rapid, high precision measurement of the surfaces of the retrieved artificial hip joints. The analysis reveals scars from wear on the joints and the shape and location of wear patches, providing valuable information about potential reasons for each joint’s failure.

    “The Ortholux 5 coordinate measuring machine is new technology and currently is the first and only one in the United States. It allows us to quantify how much corrosion and wear products are released into the body,” said Joshua Jacobs, MD, chairperson of the Department of Orthopedic Surgery. Dr. Jacobs focuses his research studies on clinical performance of orthopedic biomaterials, including implant retrieval analysis.

    Understanding Failure, and Success

    By quantifying the amount of material loss due to corrosion, Dr. Pourzal and his fellow researchers can build a statistical model to determine which factors affect material loss most significantly. The model takes into account patient factors (weight, age, and gender, for example), implant design alignment factors, and material factors.

    As a result, researchers at Rush will be able to make recommendations to implant manufacturers and to surgeons about how to prevent the occurrence of corrosion or other complications that led to implant failure.

    ”The new machine also helps us to examine well-functioning implants that have not failed and figure out how to reproduce it,” Dr. Pourzal said.

    “We now can see a correlation between how a surgeon implants the hip, in terms of implant alignment, and the wear of the device. This is all new data that wouldn’t be possible without this technology.

    ”In the study, researchers begin by inspecting the implants and categorizing the degrees of corrosion and damage. Then they use the new technology to quantify the damage and its impact on joint function specifically.

    The machine has a white light confocal sensor, which allows for analysis of relevant implant surfaces without touching them and therefore potentially affecting the extent of the damage to the joint. It also can analyze an implant in 5 to 10 minutes.

    “It would take a researcher several hours to analyze each joint using current technology, and the data wouldn’t be as comprehensive,” Dr. Pourzal said.

    Thanks to the availability of the large joint retrieval collection and the new Ortholux 5, the Rush team expects to achieve relevant results within the next year.

    “We hope that the result of this research study will allow the orthopedic community to improve implant design and material selection, and that it will contribute to fewer complications and longer-lasting joint replacements,” Dr. Jacobs said.