9 Things You Should Know About Pain

December 16, 2014 by Leave a Comment

Most individuals experience and deal with physical pain differently. It helps to better understand the reason why we feel pain to know what it means or could be signaling. This article helps explain the reasons behind feeling pain written by Joseph Brence and published on MoveForwardPT.com. MoveFowardPT.com is an editorial board compromised of physical therapists members from the American Physical Therapy Association. For more questions call us at 619-756-7500!

 

1. Pain is output from the brain. While we used to believe that pain originated within the tissues of our body, we now understand that pain does not exist until the brain determines it does. The brain uses a virtual “road map” to direct an output of pain to tissues that it suspects may be in danger. This process acts as a means of communication between the brain and the tissues of the body, to serve as a defense against possible injury or disease.

2. The degree of injury does not always equal the degree of pain. Research has demonstrated that we all experience pain in individual ways. While some of us experience major injuries with little pain, others experience minor injuries with a lot of pain (think of a paper cut).

3. Despite what diagnostic imaging (MRIs, x-rays, CT scans) shows us, the finding may not be the cause of your pain. A study performed on individuals 60 years or older who had no symptoms of low back pain found that 36% had a herniated disc, 21% had spinal stenosis, and more than 90% had a degenerated or bulging disc, upon diagnostic imaging.

4. Psychological factors, such as depression and anxiety, can make your pain worse. Pain can be influenced by many different factors, such as psychological conditions. A recent study in the Journal of Pain showed that psychological variables that existed prior to a total knee replacement were related to a patient’s experience of long-term pain following the operation.

5. Your social environment may influence your perception of pain. Many patients state their pain increases when they are at work or in a stressful situation. Pain messages can be generated when an individual is in an environment or situation that the brain interprets as unsafe. It is a fundamental form of self-protection.

6. Understanding pain through education may reduce your need for care. A large study conducted with military personnel demonstrated that those who were given a 45-minute educational session about pain sought care for low back pain less than their counterparts.

7. Our brains can be tricked into developing pain in prosthetic limbs. Studies have shown that our brains can be tricked into developing a “referred” sensation in a limb that has been amputated, causing a feeling of pain that seems to come from the prosthetic limb – or from the “phantom” limb. The sensation is generated by the association of the brain’s perception of what the body is from birth (whole and complete) and what it currently is (post-amputation).

8. The ability to determine left from right may be altered when you experience pain. Networks within the brain that assist you in determining left from right can be affected when you experience severe pain. If you have been experiencing pain, and have noticed your sense of direction is a bit off, it may be because a “roadmap” within the brain that details a path to each part of the body may be a bit “smudged.” (This is a term we use to describe a part of the brain’s virtual roadmap that isn’t clear. Imagine spilling ink onto part of a roadmap and then trying to use that map to get to your destination.)

9. There is no way of knowing whether you have a high tolerance for pain or not. Science has yet to determine whether we all experience pain in the same way. While some people claim to have a “high tolerance” for pain, there is no accurate way to measure or compare pain tolerance among individuals. While some tools exist to measure how much force you can resist before experiencing pain, it can’t be determined what your pain “feels like.”

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Physical Therapy Exercises for Neck Pain

November 4, 2014 by Leave a Comment

Many people suffer from neck pain. Here are some exercises to help alleviate some of that pain from an article posted on LIVESTRONG.com ,written by Joshua McCarron . For more questions call our studio at 619-756-7500!

 

Photo Credit Jupiterimages/Goodshoot/Getty ImagesPhysical Therapy Exercises for Neck Pain
Neck pain can range from mild to debilitating.

If you’ve ever experienced pain in your neck, you’re not alone. According to a 2010 study published in the journal “Best Practice & Research Clinical Rheumatology,” neck pain affects up to 20 percent of the population each year. This pain can range in severity from a minor annoyance that slightly disrupts your day to a debilitating condition that leaves you unable to turn your head. Your neck pain may be the result of a chronic, degenerative problem, or occur due to acute trauma from a fall or accident, so visit your doctor to determine the cause of your neck pain. However, most neck pain is not serious, and physical therapy exercises can often help.

Isometric Push

Isometric pushes help to strengthen the muscles on all sides of your neck. Place your palms against your forehead with your fingers pointing up, and gently press your head into your hands. Then, place your hands on the back of your head and do the same thing. Repeat the exercise with one hand placed on the side of your head, pushing against the resistance of your hand. Repeat on the other side. Hold each push for five seconds, rest for three and continue. Throughout each push, keep your neck straight, and do not bend your head forward.

Shoulder Blade Squeeze

Stand or sit comfortably with your back straight, and bend your arms close to 90 degrees. Keep your arms close to your body and squeeze your shoulder blades back together as far as you can without pain. Hold them like that for five seconds, then relax. Do 10 repetitions.

Chin Tuck

The chin tuck is a straightforward movement that gently stretches the back of your neck. Sit or stand with your back straight, and slowly tuck your chin down until you feel a mild stretch in the back of your neck. Hold the stretch for three seconds, and repeat 10 times.

Flexion and Extension

Flexion and extension movements stretch your neck in all directions. Flexion refers to bending your head forward, and extension is when you move it back. Move your head gently, especially during the extension movement. Allow gravity to stretch your neck muscles, with no extra effort from you. Begin by dropping your chin to your chest. Then, circle your head to bring your right ear toward your right shoulder. Continue the circle to the right, until you return to the starting position.

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Pronation

October 28, 2014 by Leave a Comment

It is important to understand pronation and the way your foot moves when you run. Some people pronate more or less when they run. Learn about normal pronation, overpronation and underpronation, and how you can prevent injuries in this article published on Runnersworld.com. For more questions, call or visit our studio at 619-756-7500!

 

 

Pronation

Pronation is the inward movement of the foot as it rolls to distribute the force of impact of the ground as you run. The foot “rolls” inward about fifteen percent, comes in complete contact with the ground, and can support your body weight without any problem. Pronation is critical to proper shock absorption, and it helps you push off evenly from the front of the foot.

Although pronation is a natural movement of the foot, the size of the runner’s arch can affect its ability to roll, causing either supination (underpronation) or overpronation. If you have a normal arch, you’re likely a normal pronator, meaning you’ll do best in a stability shoe that offers moderate pronation control. Runners with flat feet normally overpronate, so they do well in a motion-control shoe that controls pronation. High-arched runners typically underpronate, so they do best in a neutral-cushioned shoe that encourages a more natural foot motion.

 

Normal Pronation

IThe outside part of the heel makes initial contact with the ground. The foot “rolls” inward about fifteen percent, comes in complete contact with the ground, and can support your body weight without any problem. The rolling in of the foot optimally distributes the forces of impact. This movement is called “pronation,” and it’s critical to proper shock absorption. At the end of the gait cycle, you push off evenly from the front of the foot.

Runner’s World Video: Normal Pronation

Normal Pronation: What is it?

We show you, in slow motion detail, how to determine if you have this gait pattern.

 

Overpronation

As with the “normal pronation” sequence, the outside of the heel makes the initial ground contact. However, the foot rolls inward more than the ideal fifteen percent, which is called “overpronation.” This means the foot and ankle have problems stabilizing the body, and shock isn’t absorbed as efficiently. At the end of the gait cycle, the front of the foot pushes off the ground using mainly the big toe and second toe, which then must do all the work.
Preventing Overpronation Injuries 
Overpronation causes extra stress and tightness to the muscles, so do a little extra stretching. Too much motion of the foot can cause calluses, bunions, runner’s knee, plantar fasciitis, and Achilles tendinitis.
If you’re an overpronator, here are a few tips to help you find the right shoes for your feet.
  • Wear shoes with straight or semi-curved lasts
  • Look for motion-control or stability shoes with firm, multidensity midsoles and external control features that limit pronation
  • Use over-the-counter orthotics or arch supports

 

Runner’s World Video: Overpronation

Overpronation: What is it?

We show you, in slow motion detail, how to tell if you have this gait pattern.

 

Underpronation (Supination)

Underpronation (or supination) is the insufficient inward roll of the foot after landing. Again, the outside of the heel makes initial contact with the ground. But the inward movement of the foot occurs at less than fifteen percent (i.e., there is less rolling in than for those with normal or flat feet). Consequently, forces of impact are concentrated on a smaller area of the foot (the outside part), and are not distributed as efficiently. In the push-off phase, most of the work is done by the smaller toes on the outside of the foot.
This places extra stress on the foot, which can lead to iliotibial band syndrome, Achilles tendinitis, and plantar fasciitis. Underpronating will cause the outer edge of running shoes to wear sooner. To see if your shoes are unevenly worn, place them on a flat surface. If they tilt outward, supination is the culprit. Runners with high arches and tight Achilles tendons tend to be supinators.
Preventing Underpronation Injuries 
Supinators should do extra stretching for the calves, hamstrings, quads, and iliotibial band. Wearing the right type of running shoes and replacing worn shoes will also help avoid injuries.
If you’re an underpronator, here are a few tips to help you find the right shoes for your feet.
  • Wear shoes with curved lasts to allow pronation
  • Look for lightweight trainers as they allow more foot motion
  • Check for flexibility on the medial (inner) side of the shoe
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