TPLO (Tibial Plateau Leveling Osteotomy)
If your dog has been diagnosed with a torn cranial cruciate ligament, you will probably be considering surgical treatment options that may include a tibial plateau leveling osteotomy (TPLO). The procedure is tough enough to say, let alone understand! The development of the TPLO is one of the most interesting stories in veterinary medicine.
A basic summary of this history will help in understanding why the TPLO has generated so much
controversy. Descriptions of cranial cruciate ligament tears can be found for more than half a century
in the veterinary literature. Indeed, cruciate disease is the most common orthopedic problem in dogs.
In the early 1960s surgical techniques were developed to try and replace the damaged ligament or to
eliminate the instability created in the stifle joint by tearing of it. Some techniques worked better than
others, but all had their drawbacks and none completely stabilized the injured joint or prevented the
development of significant arthritis.
Dr. Barclay Slocum, a surgeon who spent much of his career practising in Eugene, Oregon, looked at
the problem from a different perspective. Dr. Slocum’s father was a human orthopaedic surgeon who
frequently did corrective osteotomy procedures to treat knee ligament problems in people. In these
procedures, the bones around the joint are cut and realigned to change abnormal forces within the
knee. With these procedures in mind, Dr. Slocum examined the canine knee from the perspective
of the dynamic forces that occur during weight-bearing and movement when the cranial cruciate
ligament is torn. His examination of the dynamics combined with what was published in the veterinary
literature in the early 1980s lead him to several conclusions. First, he noted that the top surface of
the tibia (shin bone) that works together with the femur (thigh bone) at the knee joint had a tibial slope.
Specifically, the top of the tibia slopes from front to back within the knee. The angle of this slope varies
between dogs from degrees in the high teens to clearly abnormal slopes over 35 or 40 degrees.
An average tibial plateau slope would be in the 21-24 degree range for most breeds. Slocum noted
that the cruciate ligament ran between the femur and tibia and acted to hold the end of the femur in
place atop the tibial plateau. He characterized the ligament as “a rope tying a wagon to the top of a hill.” When the rope (ligament) is broken, the wagon (the end of the femur) tends to slide down the hill (the tibial plateau slope). He characterized this instability, which had been named cranial tibial thrust, as the most important component of the dynamic instability that occurs in the stifle when the ligament tears. Further, he theorized that previous surgeries had been attempts to “replace the rope” and had met with only fair success. He wondered whether it might be more productive to “level the slope.” Slocum went about achieving this goal in a few different ways before he settled on what we now refer to as the TPLO.
Then he did a very interesting thing! Whereas the age-old procedure in medical research has been that when a new technique is developed it is published in a scientific publication and presented at scholarly meetings to allow one’s peers to scrutinize the information, but Slocum didn’t follow that path. Instead he patented the procedure and the equipment used to perform it. His scholarly writings and lectures were short on specific details and he spent a good portion of the later part of his career teaching the procedure out of his veterinary practice. Further, those he taught were required to sign contracts that they would not teach or publish details of the procedure to others. To call the reaction to this approach a firestorm within the veterinary community would not be an overstatement. The views of many concerning Slocum and the TPLO are coloured by the controversy to this day.
Dr. Slocum passed away in 2000. His death had many important impacts on TPLO. First, the patents on the procedure, its teaching, and the related surgical equipment all expired. The result was that a great deal of independent research on the procedure began, in large part because many more surgeons were teaching and learning the procedure. The other natural progression, humans being the innovative creatures that we are, was that several variations of the technique and equipment to perform the surgery started to appear.
In recent years a number of other procedures have evolved. These include tibial tuberosity advancement (TTA), closing wedge osteotomy (CWO), and triple tibial osteotomy (TTO). All of these procedures can be thought of as different roads to the same destination. That is, they all alter the angles within the stifle joint to neutralize the cranial tibial thrust that Slocum concentrated on in the 1980s. All have their pluses and minuses and none has been shown to be superior to any of the others. In most cases the procedure that may be recommended for your dog will have as much to do with what your veterinary surgeon is most comfortable with as any other factor.
How is the TPLO performed?
Before surgery, an x-ray of the stifle is taken to measure the angle at the top of the shin bone, called the tibial plateau angle. The goal of the surgery is to reduce this angle so that dynamic joint instability (cranial tibial thrust) is eliminated. This is usually accomplished by creating a post-surgical angle of between 4 and 10 degrees, an angle not much different than is found in the human knee. In most cases the surgical procedure starts with an exploration of the inside of the stifle joint. This can be done arthroscopically or with open joint surgery. The purpose is to assess the meniscal cartilages for any possible damage. Damaged cartilage must be removed if the dog is to regain normal pain-free function. The TPLO procedure itself involves the use of a curved saw blade to make a curved cut on the inside, or medial, surface of the top of the tibia. The cut top portion is then rotated to create the desired tibial plateau angle. A stainless steel bone plate is then placed on the bone to hold the two pieces in their new alignment.
Now that you know a bit about TPLO, let’s review some questions about the procedure.
Q: Does my dog really need surgery? I read that they’ll do just fine without surgery.
A: Published data suggest that approximately 15% of dogs will recover reasonably good clinical function without surgery. Most of those dogs will be small breeds, under 15-20 pounds of body weight. Those that recover normal function tend to do so within 4-6 weeks after they first become lame. For the majority of dogs, surgery is the only way to return them to good function, period…..not braces or medications or herbs or physical therapy or wishing or hoping!
Q: Which patients will benefit from TPLO?
A: While the procedure can be performed on just about any patient, including small dogs and cats, TPLO seems to be most applicable to larger breed, active dogs. Although some surgeons have differing opinions, most feel that smaller dogs will do equally well regardless of what procedure is performed. In general, dogs weighing over 45 pounds (20 kg), especially if they are very active, will benefit the most from TPLO.
Q: Why is TPLO so costly, especially when compared to other cruciate repair surgeries?
A: TPLO requires specialized equipment including a motorized bone saw with a specially-designed curved blade, a surgical stainless steel bone plate and 6-9 bone screws, between 4-6 x-rays, a significant investment in training on the part of the surgeon, and up to 2-4 hours of preparation, surgical and recovery time for each patient.
Q: What aftercare is required?
A: Individual surgeons approach this differently and there is no hard evidence to suggest what is best. Some restrict post-operative patients from climbing stairs and encourage kennelling when the owners are not home to supervise their pet. Others encourage leash walks and moderate exercise under the owner’s control. Still others advocate active physical rehabilitation beginning immediately after surgery. All will require follow-up x-rays at various stages to gauge healing of the cut in the bone. Once bone healing is complete, then exercise can be gradually increased to normal.
Q: What about possible complications?
A: TPLO is a major surgery and complications are possible. Published reports suggest the complication rates may be somewhat higher than with less invasive surgeries, but other factors may be involved including patient factors and surgeon experience with the procedure. Most complications are minor in nature in that they can be resolved without additional surgery and have an ultimately successful outcome. Included in this category would be things like infections and inflammation of the patellar tendon. More major complications, including failure of plates or screws and fracture of the tibia or fibula, are uncommon. The development of bone cancer many months or years later in the area of the surgery has been noted in a small number of TPLO dogs. The possible connection of this cancer with the procedure is highly controversial as the top portion of the tibia is a common location for bone cancer in the dog even when no surgery or cruciate problem is a factor. Whether the rate of such cancers in TPLO dogs is higher than normal is not clear. One of the most common post-operative complications is not directly related to the TPLO procedure. Tears of the meniscal cartilage in the stifle are a common consequence of an unstable joint. Such tears may exist at the time of surgery and they can develop in up to 11% of patients after surgery. That’s true in dogs and humans regardless of what kind of surgery they undergo. Typically, these patients do well for weeks or months after surgery before suddenly becoming lame again.
Q: Is TPLO really better than other surgical options?
A: If your dog is larger, younger and active the answer is yes. The data has not always been conclusive about this, however. For a good part of the first 20-25 years after the development of TPLO, surgeons were faced with a paradox: they were seeing significantly better results with TPLO than with other procedures they had used in large dogs…but the research data wasn’t backing up these observations. Why? Undoubtedly, Dr. Barclay Slocum’s decision to restrict availability of the procedure through patenting of the technique and equipment had a major effect on the amount of research that was done.
In addition, one must realize that veterinary research is always more restricted in scope and numbers than is seen in human medicine. The New England Journal of Medicine will commonly publish studies involving tens or hundreds of thousands of human test subjects. In veterinary medicine a study of 50 animals is a big study! Why? Money. The difference in available research funds between human and veterinary medicine is astronomical, which probably isn’t surprising. In the last few years, the research data is starting to confirm what surgeons have known all along: TPLO dogs return to function faster, they develop less joint arthritis, and they tend to return to better functional levels than is seen with other techniques.