Statute of Limitations and the Likelihood of Reimbursements by Broadspire

Broadspire is one of the foremost third-party risk management administrators to large insurance companies and employers. Broadspire has been retained by DePuy to engage in damage control regarding the ASR hip implant claims.  It is likely that few people who have suffered medical harm because of a metal-on-metal hip implant truly understand the lengths such companies will go to in order to save their client as much money as possible. Broadspire is under orders by Johnson and Johnson and DePuy to downplay the public outcry regarding the ASR hip implant recall to the fullest extent possible. One of the avenues Broadspire will use for this specific purpose is to gain as much knowledge about patients as possible through the use of claimant data.

Will Benefits Be Discontinued?

If you or a loved one has suffered an adverse medical event which is directly related to a metal-on-metal hip implant then one look at Broadspire’s website should give you an idea of the true nature of this company and the depths they will go to in order to benefit their client.  Privileged medical records are being used for the benefit of Johnson and Johnson and DePuy via an entire panel of medical professionals at their beck and call. Many of those victims of the hip implant currently rely on the reimbursement benefits being offered through Broadspire which covers their co-pays and deductibles. The question on everyone’s minds now is whether those benefits will continue after the statute of limitations runs out in August, 2012.

Women have a disproportionally larger number of problems with hip implant surgery than men do. Especially with the ASR XL Acetabular System.

By Independent Staff Writer

Several news sources, among them the New York Times, have already commented on the mounting data that more women than men are reporting problems with the ASR XL Acetabular System. We'd like to explain exactly why that is.

Problem: Hip Implant Not Designed Ideally for Wider Hip Sockets

Women, as you may have heard, are structured differently anatomically than men. The differences aren't merely on the surface, however; they extend into the skeletal structure and particularly in the pelvis region. Women have wider hips with bigger hip sockets to accommodate the process of giving birth, which means they often have more problems in hip implant surgery because those large hip sockets allow the implant to dislocate more easily.

In the DePuy ASR XL Acetabular System, however, the problems go beyond the norm. One of the reasons is that the hip implant was designed to be extremely shallow, exacerbating the problems women already have with hip implants.

Problem: Women More Likely to Require Hip Implants

Women are more prone to osteopenia, osteoporosis, and often have weaker bones overall than men, particularly as they age. The onset of menopause, and the subsequent drop in estrogen, have been linked to rapid bone deterioration. Because of all of these factors, women are more likely than men overall to require a hip implant because of a hip fracture.

Problem: Small, Shallow Hip Implant

The DePuy ASR XL Acetabular System was designed to give patients a greater range of motion. If you'll recall, the design of the hip implant included two parts: an implant inserted into the femur bone with a rounded top that fit into a cup placed in the hip bone.

In the design of the ASR XL Acetabular System, the cup was made very shallow, which meant that the patient could move their leg in a wider arc before the other part of the implant might dislocate.

Good in theory. And if DePuy had tested their product properly, it might have worked quite well. In real life, it went a little differently.

The shallow hip implants meant that all of the friction caused by everyday movement was focused on a much smaller area. There was more force on a smaller amount of material. The hip implant was under more stress and was more prone to the friction that caused small metal ions to break off into the bloodstream. It was also more likely to break altogether.

Especially in women. Their smaller, shallower hip implants meant there was even more strain on the material. Women who have an ASR XL Acetabular System are reporting problems in greater numbers than men in part because their hip implants are simply breaking down faster. They have the same problems, forced upon a smaller area.

Our consulting doctor offered some sobering statistics for smaller hip implants in general: the risk of a hip revision surgery for a hip implant with a head size of 44 mm is five times that of a hip implant with a head size of 55 mm.

How the ASR XL Acetabular System Causes Bone Deterioration...And what it means for your future hip revision surgeries.

By Taylor Lindstrom

When DePuy issued their hip recall, they offered to pay for the revision surgery needed to replace the faulty hip with a new implant. They appear to believe this is the full extent of their responsibility in repairing the damage they've done to thousands of people who had a hip replacement implanted in their bodies.

It's not enough. Because the damage the ASR XL Acetabular system caused doesn't end when the hip is removed. It's only just beginning. 

How Your Hips Work

If this were an after-school special, we'd show you a few clips at this point: Elvis shaking his hips on stage back in the day, or a ballet dancer extending her leg over her head. The after-school special would be missing the point, however - your hips are essential to nearly every movement you make. You use them every time you stand, sit, crouch, or lean over. You use them getting into and out of cars, climbing up the porch steps to your front door, even just standing there. 

A hip is a little bit like oxygen. You don't notice how essential it is until it's gone.

There's a reason you barely notice your hip's contribution to your everyday movements: your body has constructed it more or less perfectly. The hip bone is a portion of your pelvis, and it has a rounded cup-shape in its center into which the top of your femur bone fits, called the acetabulum.

The top of your femur fits smoothly into the acetabulum and rotates when you move, cushioned by synovial fluid that naturally lubricates the hip joint. When you get a hip implant, the idea is to mimic this natural construction of your hip joint as closely as possible, including the range of rotation, the lubrication, and the way the ball (the head) and socket (the acetabulum) fit together.

How a Hip Implant Works

There are two basic ways of affixing the hip implant to the rest of your skeleton. In both, the top of your femur is sawn off and replaced with an artificial new head, while the hip bone itself is shaved down to accommodate a man-made socket. Essentially, the acetabulum is carved out to the shape of the new socket.

The difference lies in how the new femur head and socket are attached to the surrounding bone. In older patients, the most common tactic is to use a bone cement to attach them. In younger patients, however, the surrounding bone is still versatile and capable of regrowth. Since cement has some serious drawbacks, including the risk that it will shrink or crack over time and the fact that it is not especially secure when it comes to withstanding forceful movements like jumping, another procedure has been developed for younger patients. 

Combating Chromium and Cobalt Blood Toxicity After An ASR Hip Replacement

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By Megan Breckenridge, Staff Writer
SULLO & SULLO, LLP

HOUSTON > If you are one of more than 93,000 people worldwide affected by the recent recall of DuPuy, Inc.’s ASR Hip Replacement System, you may be in more danger than you realize. Countless patients have already come forward with horrific stories of pain and suffering as a result of the defective devices; the most common of which are related to metal poisoning, or metallosis, which is a reaction to the chromium and cobalt metal debris that is shed when components of the device rub together.

If you have experienced symptoms of chromium and cobalt toxicity, which include pain, inflammation, tumors and difficulty walking, it is imperative that you seek medical attention immediately. Specialized blood tests can be used to detect levels of these toxic metals in ASR Hip Replacement patients. In some cases, patients with DePuy ASR implants have been found with 100 times the normal levels chromium and cobalt in their bodies.

One method of treating ASR Hip Replacement patients with high levels of chromium and cobalt in their blood is chelation therapy. The process involves the administration of chelating agents—the most common of which is ethylenediaminetetraacetic acid (EDTA)—to remove the poisonous metals from the body.

Chelating agents may be administered intravenously, intramuscularly, or orally, depending on the agent and the type of poisoning. They bind to heavy metals in the body and prevent them from binding to other agents, creating a compound that can then be excreted from the body.

For many patients, intravenous Vitamin C and replacement mineral infusions are also recommended to support the body through the metal removal process. Symptoms will often begin to improve within weeks of commencing treatment, but some may linger, indicating residual organ damage. Therapy may last as long as six months to two years.