If it has been decided that you are a candidate for surgery it is important to be both mentally and physically prepared. This includes understanding the injury, the surgery, and the rehabilitation goals.
Do you need to have surgery for an ACL tear? If you want to read more about whether it is appropriate for you to have surgery for an ACL tear please go to Do I need surgery for an ACL tear?
Walk normally. This may take anywhere from one week to as long as two months depending on how the knee responds to the initial injury).
Depending on your age, certain preoperative tests will be arranged, such as blood tests, urine tests, chest x-ray, and an EKG.
Leg measurements may be taken to order a knee brace. Your rehabilitation program will be discussed in detail with you.
You will meet the anesthesiologist, who may offer you a choice of anesthesia:
If you choose a general anesthetic, you will be asleep during the procedure.
If you choose an spinal, an injection is given into the back that numbs the lower half of the body. This wears off a couple of hours after surgery.
If you have an spinal anesthetic, you can often watch the whole operation on the television monitor.
Need to Know:
If you take aspirin, anti-inflammatory drugs, or blood thinners, you should stop taking them one week before surgery to minimize bleeding. Discuss this with your doctor.
You should not eat or drink anything (even water) for six hours before surgery. This usually means not eating or drinking anything after midnight the night before surgery.
If you would normally be taking medication during the hours before surgery, talk to your doctor.
Need to Know:
What to tell your doctor:
Be sure to tell your doctor:
If you are allergic to iodine or any other drugs
What medications you take
About your past medical history
If you've ever had deep vein thrombosis or other blood clotting abnormalities
Also tell your doctor if you develop any of these symptoms prior to surgery:
Fever or chills
Irritation of the eyes, ears, throat or gums
Sniffling or sore throat
Boils or inflamed skin abrasions and cuts
How Is The ACL Repaired?
There are a number of different techniques available to repair a torn ACL. Each surgeon has his preference for each particular situation.
In fact we don't talk about ACL "repair" but rather about ACL "reconstruction." This is because a torn ACL cannot simply be repaired by sewing it together again. This was the method tried in the early days of repairing ACL tears, but it was shown to be ineffective. Thus, newer methods were developed which involve reconstructing the ACL ligament, including substituting a new ligament for the damaged one. Using tendons from other parts of the body as a substitute for the ACL was found to be the most effective way of reconstructing the torn ACL. Currently, the two most popular methods in use are using part of the patella tendon or using a hamstring muscle tendon.
Today ACL reconstruction is essentially an arthroscopic procedure, though many surgeons throughout the world still prefer to open the knee. If this route is chosen, depending on how the ACL is repaired, then the incisions may not be very different from those done arthroscopically.
An arthroscope is a pen-shaped instrument to which a tiny video camera is attached. It contains optical fibers, a light source, and lenses that can magnify images 25 to 30 times. The camera attached to the end of the arthroscope sends images to a video screen. The surgeon looks at the screen and is able to get an exceptionally clear view of the inside of the joint. Because the procedure can be done using an arthroscope, and using small specialized instruments without big incisions and excessive trauma to the tissues, it is really well suited to be an outpatient procedure (one that does not require an overnight stay at the hospital). Most ACL reconstructions are commonly performed as outpatient procedures. However, many doctors prefer to keep patients overnight in the hospital following surgery.
Before actually reconstructing the torn ligament, the surgeon uses the arthroscope to carefully survey the whole joint, looking at and evaluating each key structure. During this portion of the procedure, any additional damage to any of the other knee structures can be identified, and where appropriate, is corrected surgically.
There are a number of choices available to the orthopedic surgeon in determining how best to reconstruct the torn ACL. They all involve a "graft" using something to substitute for the torn ACL.
Each of the available ACL graft tissue choices requires a unique harvesting technique. Furthermore, there are usually different methods used for fixing the grafts in the bone tunnels, depending on the characteristics and properties of the tissue selected. Because of these differences in graft techniques, the type of surgery chosen is frequently made by the surgeon based on his or her experience and comfort level with the chosen technique.
Typically, an ACL reconstruction takes two to two and a half hours. The anesthesia may be general anesthesia or a spinal anesthesia. General anesthesia allows the individual to be asleep through the entire procedure. Spinal anesthesia involves an injection in the back that numbs only the lower body. A medication is also administered with a spinal anesthesia to keep the individual sedated throughout the procedure.
Since it was popularized in the mid-1980s, the patellar tendon graft has been the "gold standard" choice for ACL reconstruction. This type of ACL replacement uses the middle third of the person's own patella tendon and is referred to as a bone-tendon-bone (BTB) graft.
In this particular technique,
Two tiny incisions for arthroscopic instruments are usually placed on either side of the patellar tendon.
A one- to two-inch incision is made over the patellar tendon on the front of the knee and the tendon is exposed. The middle one-third of the patellar tendon is carefully removed, together with two bits of bone on either end (hence it is called a 'bone-tendon-bone graft').
Two small tunnels are then drilled into the bones on either side of the joint, in the area where the torn ACL normally attaches to the bone, to allow for fixation of the new ligament.
The patellar tendon graft is then passed into the joint, placed in a position similar to the original ACL, with the bone pieces at each the end of the graft fitting nicely into the tunnels that have been drilled in the bone.
The new ACL is then secured with a specialized headless screw in each tunnel.
The patellar tendon graft is tightly secured at the time of the surgery. The knee is stable enough to begin motion and weight-bearing as tolerated, as per the surgeon's instructions.
As healing occurs, the bone tunnels fill in to further secure the tendon ends of the graft in a bone-to-bone relationship. This occurs over the next six to eight weeks.
Nice to Know:
Recent technology has led to the development of specialized absorbable screws that actually dissolve within the bone over two to three years.
The fixation is very strong
The patellar tendon replacing the ACL is as strong as the injured ACL (or even stronger).
A few people have mild discomfort on the front of the knee, especially when kneeling. This generally settles down within a year. Workers who kneel frequently may need to look at other graft options.
A normal patellar tendon has been altered. However, this does heal fully again.
2. Hamstring graft procedure
Hamstring reconstruction is an alternative to the bone-patellar-bone graft fixation and is growing in popularity. In this procedure, rather than using the patellar tendon, the surgeon uses the patient's own hamstring tendon, either the semitendinosus or gracilis tendons from the same leg.
There are several variations of this technique. Newer hamstring fixation techniques have been developed to match and even exceed the initial pullout strength of the patellar tendon bone procedure described above. Special screws with threads designed not to cut the hamstring tendons are able to fix the tendon within the bone tunnel, as described with the patellar tendon bone technique.
In younger patients who have torn their ACLs but still have growing bones, the hamstring tendon graft is a good choice because there is less chance of damaging the 'growth plates'- the area responsible for growth of the bone.
The hamstring incision is away from the patella, allowing patients to kneel comfortably.
The patellar tendon is left intact.
Soft tissue-to-bone healing occurs at a slower rate than bone-to-bone healing.
Unlike the patellar tendon, the hamstring tendons do not grow back after graft harvest resulting in a slight loss in hamstring strength (approximately. average of 10%) after recovery. However, most people do not notice this slight decline in strength.
3. Allograft procedure
Another option is the use of tissue from a cadaver (a deceased person) called an allograft.
Patellar tendon, hamstring tendon, or Achilles tendon allografts can be used as tissues inserted and fixed with the same techniques that are used for autografts (grafts using the individual's own tissue).
Allografts are a good choice when the patient's own tissue availability is limited. They are useful for complicated ligament reconstructions needing more than one graft (for example, if both anterior and posterior cruciate ligaments need to be replaced) or if both the ACL and patellar tendon are damaged.
No risks, pain, or scars from the donor site
Operative time is quicker
The very low risk of contracting a serious infection from the cadaver tissue. Newer techniques of tissue radiation have minimized this risk.
National shortage of allografts due to a high demand combined with a low supply of suitable, qualified cadavers.
Nice to Know:
Synthetic grafts (i.e., grafts made from other materials) were commonly used in the 1970s but were generally unsuccessful.
There are currently no synthetic ligaments in the U.S. approved by the FDA for primary ACL reconstruction.
Researchers continue to try and create the perfect ACL replacement. Major requirements of a prosthetic ligament are that it must be strong, matching the compliance of a normal ACL. It must be durable, withstanding high repetitive loads without wear. It also must be perfectly tolerable to the host without bone, joint, or systemic reaction.