UNMC Orthopedic Surgery Department is Center for Advanced Knee Implant Testing

While many of todays baby boomers were in elementary school, they often

sang a song about human anatomy that featured the lyrics  the ankle

bone was connected to leg bone, the leg bone is connected to the knee bone. 

But in the future, a growing number of those aging knee bones are going

to need replacement by artificial implants implants that may have been

tested and analyzed by orthopedic specialists at the University of Nebraska

Medical Center, which can soon become the nations premier laboratory for

the simulation and testing of knee implant designs.

The long-term vision for UNMCs growth in orthopedic biomedical technology

is the brainchild of James Neff, M.D., director of orthopedic research

and professor of the department of orthopedic surgery and rehabilitation. 

Dr. Neff has an international reputation for innovative surgical procedures;

custom implant design and collaboration with implant manufacturers of many

foreign countries. When Dr. Neff coordinated the purchase of two of the

worlds most sophisticated knee implant simulators, and then recruited

a member of the design team of the simulators, Hani Haider, Ph.D., who

joined the department as associate professor of biomedical engineering,

the stage was set or UNMC to go to the head of the class.

Significant advancement in modern medicine has been and remains technology

driven, and the field of orthopedics is no exception, Dr. Haider said. 

The growth in the demand for joint replacement from an increasingly aging

population drives the need to make knee implants perform better and last

longer.

Our immediate strategy is to ensure that UNMC becomes a key player

internationally in the testing of modern knee replacement implants. This,

in my view, is achievable within the short-to-medium term and is the focus

of a lot of our current efforts.

Part of the orthopedic teams mission is to initiate pilot research

projects within UNMC on making knee replacement installation procedures

more precise, less invasive and result in shorter hospital stays. 

In addition to using UNMCs premier facilities for testing, team members

will actively participate in modern implant design, computer-aided simulation,

preoperative planning and image-guided or robotic surgery.

As a mechanical engineer and member of the faculty at England’s Sheffield

University from 1988 to 1996, Dr. Haiders research encompassed the study

of fluids in motion, the interface between mechanics and electronics, especially

when using miniature devices, robotics and information technology. 

In 1997, he joined the faculty of the Centre of Biomedical Engineering

at the University College of London, in Standmore, England.  He was

a key member on the team, along with Peter Walker, Ph.D., that produced

the Instron-Stanmore Knee Simulator and the International Standards Test

(IST) method for simulation and testing of knee replacement systems.

Dr. Haider supervised the production of 13 Instron-Standmore simulators,

most of which are now in use at testing laboratories of major international

orthopedic manufacturing companies.  He also trained all the operators

of these simulators, including the engineers of the Instron Company. 

Dr. Walker is now director of the biomedical engineering program at the

Cooper Union Research Foundation in New York.  He also was appointed

to the position of adjunct professor in the UNMC department of orthopedic

surgery where he facilitates collaboration throughout the orthopedic biomechanics

team.

Russell Alberts, Ph.D., and director of the UNMC Orthopedics Biomechanics

Laboratory, supervises the day-to-day operation of the Instron-Standmore

simulators.  Along with Dr. Neff, Dr. Alberts helped develop the Orthopedics

Biomechanics Laboratory, located in the building that houses the unroe-Meyer

Institute. Dr. Alberts holds a joint doctorate in biomedical engineering

and engineering mechanics.  He taught engineering mechanics at the

University of Nebraska-Lincoln from 1986 to 1994 before joining UNMC. 

He also has done post-doctorate research on the mechanical properties of

bone and cartilage at Renssalear Polytechnic Institute in Troy, NY.

Human knees have to carry most of our body weight and have six different

degrees of freedom of motion, making them the most complex and tasked joints

in the human body, Dr. Alberts said. The success of our implant simulators

relies on precisely recreating the varied motions that occur in the patients

knees, regardless of the individual implant design.

Long term wear is to be minimized for any type of implant. In addition

to reducing implant durability and performance, excessive wear particles

create debris that can cause harmful complications to the patient and accelerate

pre-mature failure due to implant loosening.

In order to prevent or minimize wear on the implant, a huge amount of

energy is invested in design and testing.  The orthopedic team and

its simulators so accurately reproduce long-term wear on a knee joint implant

that UNMC is an important contributor to the establishment of national

and international standards for evaluating total knee replacement durability.

UNMCs simulators are currently reserved into 2002 for testing contracts

from manufacturers in the U.S. and Europe.  The department is already

seeking funding to purchase a third simulator, or possibly even design

a prototype for the next generation of simulators.

Unless osteoarthritis is defeated, many people are going to require

knee replacements in the coming years, Dr. Neff said.  Our joints

are wearing out at earlier ages, and combined with longer life expectancies,

joint replacements are going to have to carry people many more years than

previously.  Researchers are experimenting with many different materials

and designs, in hopes of finding the most durable, safest, least invasive

and best performing implants.

We feel that we now have the total collaborative team in place to put

UNMC at the forefront of testing, analyzing and implanting the best of

whats coming next.