You know the feeling. You’ve put in the miles, the hills, the interval training. Now it’s race day and you’re having a good one. You feel balanced, light, and fast. You press the pace one more click and leave another pack of runners behind.

Then it happens. Your foot comes down on a rock and rolls painfully inward. You hear a sickening “pop,” you go down, and the runners you just passed thunder past you. Nauseating pain overwhelms your interest in the torn skin on your hands and stays with you throughout the long limp back to town.

Here in Los Gatos we’re fortunate to have miles of unpaved recreational trails and utility roads, such as the Los Gatos Creek Trail, the Flume Trail, the Jones Trail, and the Limekiln Trail, offering a variety of terrain through our open space preserves. The race described above could well be our own late-summer annual event, the Dammit Run. If you suffer an ankle sprain while running in competition or in training, here’s what you need to know to get back on the trail and back up to speed.

A Few Definitions
A ligament is a band of fibrous tissue in a joint connecting bone to bone. Each joint has several ligaments. Ligaments are distinct from tendons, which connect muscle to bone. Ligaments support and strengthen joints and make joints stable by limiting joint motion from movements in unwanted directions.

A sprain occurs when a ligament is stretched beyond its normal limits. Sprains are classified according to degrees of severity. A Grade I sprain involves damaging a ligament but not compromising its function of restraining unwanted motion. In a Grade II sprain, the ligament is partially torn and allows some unwanted motion. In a Grade III sprain, the ligament is completely torn and cannot stop unwanted motion, and joint stability and function are lost. Grade III sprains cause diffuse swelling and bruising around the affected joint.

A sprain is more than a simple mechanical injury. Sprains affect proprioception, the neural feedback mechanism that enables us to know the angles of our joints, and the positions of our limbs and extremities, without looking. Good proprioception is what enables us to run in the dark without thinking about where to put our feet, or land a jump shot when focusing on the hoop.

First Aid for Sprains
First Aid for sprains can be remembered by the acronym  “RICE,” (Rest, Ice, Compression, Elevation). For Grade I sprains, First Aid treatment alone is often adequate. Grade II and III sprains require rapid administration of First Aid, plus medical evaluation and treatment including some external support, such as a McDavid ankle brace , to protect the ligament while healing. Complete recovery from a Grade II or Grade III sprain is unlikely to occur without medical attention.

Recovery from Sprain
Recovery from a sprain involves promoting the healing of the ligament, elimination of swelling and bruising, increasing strength, and restoring proprioception. At Physical Therapy of Los Gatos the goal of treatment is returning the individual to their pre-injury level of activities and sports, without elevated risk of re-injury. If our runner returns to training on the Los Gatos Creek Trail without fully restored proprioception, he or she will find intense concentration is needed on the exact placement of each foot-fall to prevent the injured ankle from rolling inward again. Longer term, residual changes in joint forces and mechanics, due to incomplete recovery, can accelerate degenerative changes and conditions, such as arthritis.

Restoring Proprioception
Proprioception is based on neural feedback loops that carry and compare information from the eyes and middle ear, and from the stretch receptors of muscles and connective tissues. Following a sprain injury, proprioception is restored by thoroughly rehabilitating neuromuscular control over the affected joint with facilitory techniques such as compression, vibration, and biofeedback. This must be accomplished in a way that promotes, rather than impairs, healing of the injured ligament, and trains the surrounding muscles to assist the injured ligament in supporting the joint while it heals.

Elements of Therapy for Sprain
Therapy begins with a thorough evaluation of the sprain injury. If a Grade III sprain is suspected, the injury should be evaluated by an orthopedic specialist, who will order and evaluate X-ray or MRI images to detect any damage to the underlying bone structure of the affected joint and to obtain a clear picture of soft tissue injuries. Evaluation of a sprain performed by a physical therapist or a physician will also include stress tests to measure the extent of abnormal joint motion caused by the injury, and the progressive tightening of the joint as the injured ligament heals, as compared to the stress-bearing characteristics of the opposite joint and normative values.

In addition to specific, individualized strengthening exercises aimed at re-establishing neuromuscular control and joint strength, physical therapy for sprain should also include evaluation and training of muscles affecting the entire limb of the injured joint. For instance, when ankle pain, weakness, or injury compromise proprioceptive cues, the hips and low back muscles will compensate by altering the injured individuals’ walking and running patterns. Because the goal of therapy is complete recovery, including normal or improved function, specific, progressive exercises are prescribed over the course of rehabilitation to restore motion, strength, and control throughout the entire limb.

If you suspect you have a joint injury involving ligament sprain, please contact us for expert advice by calling (408) 358-6505. For additional information about ankle sprain, see the related article “Foot and Ankle Injuries of Ballet Dancers.”

An unintended consequence of the increase in sports participation by girls and young women over the past thirty years has been an extraordinary rise in the incidence of anterior cruciate ligament (ACL) injuries in young female athletes. At the college level, one in ten young female athletes participating in sports such as soccer, volleyball, and basketball will suffer an ACL tear injury. These girls are typically unable to practice or compete for one or more seasons and face potential loss of scholarship funding and significant psychological trauma. A widely cited 1985 study found that at the high school level, the knee injury rate among female athletes is one per 100 participants, and noted the need for preventative measures.

In 1983, sports medicine researchers determined that four-fifths of ACL injuries are non-contact injuries, that is, they are caused by the athlete’s own motions rather than collisions with other players. To the researchers, this finding meant that the high incidence of ACL tear injuries in young female athletes might be greatly reduced if those motions could be identified and avoided.

The ACL is one of four major ligaments that connect the upper and lower leg at the knee. The ACL provides joint stability and supports cutting and pivoting motions. Oftentimes, the ACL will tear with a “pop” that can be heard by spectators and other players. Pain and immediate swelling follow. ACL tears require surgical reconstruction using tendon grafts from other areas of the knee or from cadavers, followed by a long period of rehabilitation.

The frequency and seriousness of ACL tears in young female athletes has led to research studies aimed at understanding the problem. These studies are now yielding valuable data. Three major hypotheses to account for the higher number of ACL tears in female athletes versus male athletes have been examined: hormonal differences causing laxity of the female athlete’s ACL, a smaller and more narrow space within the knee for the female athlete’s ACL, and sex-based differences in lower extremity strength and coordination. The last of these three hypotheses is receiving the most scientific support from study data.

Certain aspects of lower extremity strength and coordination can be captured and measured by videotaping athletes while they perform athletic movements in the research lab. While video recordings do not capture complex three-dimensional movements and the rotational stresses that these movements place upon the knees, the recordings do enable researchers to make close measurements of joint and limb positions in a single plane. These measurements were found to have predictive value.

In one well-designed study of 205 young female athletes, researchers found that athletes with a specific way of posturing their lower extremities, known as “valgus” (or “knock-kneed”) alignment, during certain athletic movements were more likely to suffer ACL injury than athletes with more “neutral” or straighter lower extremity alignment. This valgus alignment can be seen by analyzing the angles formed between the ankles, knees, and hips when the athlete lands from a jump off a small box and when she jumps vertically from a crouched position. A separate study that included videographic analysis of 325 young female athletes showed that a six-week neuromuscular training program corrected the lower limb valgus alignment associated with injury during jump landing and takeoff.

It is already well-known to physical therapists that muscular strength stabilizes the knee by helping to maintain the correct relative positions of knee structures during sports movements and by allowing muscles in the legs to absorb forces that would otherwise subject the joint to potential injury. But physical therapists treating young female athletes must now consider the implications of the new studies. Physical therapists familiar with these studies infer that rehabilitation from ACL injury should, in addition to conventional strength training treatment methods, include specific neuromuscular training aimed at improving the athlete’s ability to avoid valgus alignment of the lower extremities during high-risk sports.

It is no longer acceptable to reconstruct the ACL but leave neuromuscular control deficient.

The jump strength training program at Physical Therapy of Los Gatos is an element of rehabilitation from surgical reconstruction of the ACL as well as a standalone performance improvement module. The program includes jump analysis, strength conditioning, and neuromuscular training designed to improve power and acceleration. The neuromuscular training methods employed include visual, auditory and proprioceptive cues to train athletes to use muscular strength to absorb jump impacts in a controlled fashion, and, if necessary, to correct jumping, landing, and pivoting techniques in order to avoid forces associated with injury. For additional information about prevention of ACL injury, rehabilitation from surgical ACL repair, and jump strength performance training for athletes, please call Physical Therapy of Los Gatos at (408) 358-6505.

You may have just had a bad fall, a misstep while running, or a sports collision. Or perhaps you’ve simply overused a muscle, tendon or ligament. These types of injuries are often called sprains, strains, and tears. Should you apply heat or ice?

The short and definitive answer is: ice.

You’re certainly forgiven if you didn’t know that. After all, many people use heating pads, hot whirlpools, and hot gel packs for their injuries, and some even apply sprays, creams or liquids to their skin to make it feel hot. But in the aftermath of an injury, you don’t want to apply heat to the affected area. You want to cool it with ice or an ice substitute. Here’s why:

Any injury severe enough to damage muscles, tendons, or ligaments will also damage the small blood and lymph vessels around those tissues. When this happens, the normally well-regulated system of blood delivery and lymphatic drainage of tissues is disrupted, and blood and lymphatic fluids are released in an uncontrolled manner. This causes inflammation, swelling, and pain.

Applying ice to an injured area relieves pain by slowing the conduction of nerve impulses from the area. Ice therapy also takes advantage of the body’s natural, adaptive response to cold, which is to maintain normal body temperature by cutting back on the blood supply to the cold area. This has the effect of allowing fluids to drain away from the injury, taking away injured cells, cell fragments, and inflammation-causing molecules. The result is reduced swelling and pain, and faster repair of damaged tissues.

The application of heat has the opposite effect. The body’s response is to send extra blood through the heated area so that the heat can be carried off before the tissues get too warm. Extra blood delivery to the injured area increases swelling, inflammation, and pain.

The best type of ice or ice substitute to use is whatever type you have at hand! Chemical cold packs, which chill rapidly when you break a capsule inside the pack, are expensive but work well. Cold gel-packs right from the freezer will also do the job. A zip-loc plastic bag filled with crushed ice is inexpensive and very effective. You can even use a bag of frozen peas and carrots!

Place the ice pack on the injured area and leave it there for 20 minutes. Remove it for 20 minutes, then put it back on. The best ice-on, ice-off intervals and the number of times you should use ice each day depend on the type, severity, and site of your injury. Please call our office for advice.

Should heat ever be applied to injuries? Yes, but only under limited, specific circumstances. For instance, several days after an injury, your physical therapist may instruct you to contrast your injury treatment with heat between ice applications. This has the effect of restoring normal blood circulation to the cold area quickly and accelerates the removal of injured cells, cell fragments, and by-products of the healing process from the injured site. We do not advise the use of heat to warm up a recovering joint or muscle prior to exercise. A slow and progressive active exercise warm-up, such as walking prior to jogging, is much more effective.

If you have sustained a soft tissue injury, the correct application of ice or ice substitutes will help control swelling, reduce pain, and speed your recovery. If you are unable to return to your day-to-day routine after a week of treatment with ice, or if you are in training for athletic competition, please call our office for additional advice and assistance.