Trigger points are knots of contracted muscle or connective tissue that form as a result of overload stress. Once formed these points will produce pain, refered pain, weakness, and stiffness. Trigger points can also mimic other conditions such as Carple tunnel syndrome and sciatica. Trigger points will on go away on their own, they must be manually released.
The sternocleidomastoid muscles are two strap like muscles located in the front of you neck. They often become overworked from poor sitting posture. Trigger points in these muscles will cause referral pain into the head and around the eye, causing migraine type pain.
The trapezius muscle is a large diamond shaped muscle located in your back. This muscle is often overloaded due to poor sitting posture or excessive exercise. When this occurs trigger points will form. These points can cause back, neck, and shoulder pain. Trigger points in the upper traps are a leading cause of headache.
The gluteus Maximus muscle makes up your buttock. It’s is a powerful hip extensor and thus used heavily during activities such as walking, running, and climbing up stairs. Most atheletes abuse this muscle. When overworked trigger points will form, and these points will cause pain to be felt in the hip, sacrum and the as well as deep in the gluteal area. Litterally a pain in the butt!! Trigger points won’t release on their own and require interventions like trigger point massage.
Low back pain is a very common complaint. In fact, it’s the #1 reason for doctor visits in the United States! The economic burden of LBP on the working class is astronomical. Most people can’t afford to be off work for one day, much less a week, month, or more! Because of the popularity of hospital-based TV dramas over the past two decades, many people think getting an MRI of their back can help their doctor fix their lower back problem. Is this a good idea? Let’s take a look!
Patients will often bring in a CD that has an MRI of their lower back to a doctor of chiropractic and ask the ultimate question, “….can you fix me?” Or, worse, “…I think I need surgery.” Sure, it’s quite amazing how an MRI can “slice” through the spine and show bone, soft tissues, disks, muscles, nerves, the spinal cord, and more! Since the low back bears approximately 2/3 of our body’s weight, you can frequently find MANY ABNORMALITIES in a person over 40-50 years old. In fact, it would be quite odd NOT to see things like disk degeneration, disk bulges, joint arthritis, spur formation, etc.!
Hence, the “downside” of having ALL this information is the struggle to determine which finding on the MRI has clinical significance. In other words, where is the LBP coming from? Is it that degenerative disk, bulged disk, herniated disk, or the narrowed canal where the nerve travels? Interestingly, in a recent review of more than 3,200 cases of acute low back pain, those who had an MRI scan performed earlier in their care had a WORSE outcome, more surgery, and higher costs compared with those who didn’t succumb to the temptation of requesting an MRI!
This is not to say MRI, CT scans, and x-rays are not important, as they effectively show conditions like subtle fractures and dangerous conditions like cancer. But for LBP, MRI is often misleading. This is because the primary cause of LBP is “functional” NOT “structural,” so it’s EASY to get railroaded into thinking whatever shows up on that MRI has to be the problem.
Here is how we know this, when we take 1,000 people WITHOUT low back pain between ages 30 and 60 (male or female) and perform an MRI on their lower back, we will find up to 53% will have PAINLESS disk bulges in one or more lumbar disks. Moreover, we will find up to 30% will have partial disk herniations, and up to 18% will have an extruded disk (one that has herniated ALL the way out). Yet, these people are PAIN FREE and never knew they had disk “derangement” (since they have no LBP). When combining all of these possible disk problems together, several studies report that between 57% and 64% of the general population has some type of disk problem without ANY BACK PAIN!
Hence, when a patient with a simple sprain/strain and localized LBP presents with an MRI showing a disk problem, it usually ONLY CONFUSES the patient (and frequently the doctor), as that disk problem is usually not the problem causing the pain! So DON’T have an MRI UNLESS a surgical treatment decision depends on its findings. That is weakness, numbness, and non-resolving LBP in spite of 4-6 weeks of non-surgical care or unless there is weakness in bowel or bladder control. Remember, the majority of back pain sufferers DO NOT need surgery!
We realize you have a choice in whom you consider for your health care provision and we sincerely appreciate your trust in choosing our service for those needs. If you, a friend, or family member requires care for back pain, we would be honored to render our services.
Fibromyalgia (FM) is a very common, chronic condition where the patient describes “widespread pain” not limited to one area of the body. Hence, when addressing exercises for FM, one must consider the whole body. Perhaps one of the most important to consider is the squat.
If you think about it, we must squat every time we sit down, stand up, get in/out of our car, and in/out of bed. Even climbing and descending steps results in a squat-lunge type of movement.
The problem with squatting is that we frequently lose (or misuse) the proper way to do this when we’re in pain as the pain forces us to compensate, which can cause us to develop faulty movement patterns that can irritate our ankles, knees, hips, and spine (particularly the low back). In fact, performing a squatting exercise properly will strengthen the hips, which will help protect the spine, and also strengthens the glutel muscles, which can help you perform all the daily activities mentioned above.
The “BEST” type of squat is the free-standing squat. This is done by bending the ankles, knees, and hips while keeping a curve in the low back. The latter is accomplished by “…sticking the butt out” during the squat.
Do NOT allow the knees to drift beyond your toes! If you notice sounds coming from your knees they can be ignored IF they are not accompanied by pain. If you do have pain, try moving the foot of the painful knee about six inches (~15 cm) ahead of the other and don’t squat as far down. Move within “reasonable boundaries of pain” by staying away from positions that reproduce sharp, lancinating pain that lingers upon completion.
There are MANY exercises that help FM, but this one is particularly important!
Session Description
A treatment with Bryan is very user friendly. And, no, you don’t have to remove any clothing. However, bringing a t-shirt and a pair of shorts or sweats is recommended.
The first time you come for a treatment you will be asked to fill out a Client History form. Bryan will go over the information you provide, asking for more detail and discussing the type of pain you are having and its location.
The treatment itself involves locating the Trigger Points in the muscle or soft tissue and applying a deep focused pressure to the Point. This will reproduce the pain and the referral pattern that is characteristic of that pain.
The treatment will be uncomfortable at first, but as the Trigger Points release, the pain will decrease. The pressure will always be adjusted to your tolerance level. If, at any time, you feel too uncomfortable you can ask Bryan to ease off a bit.
Depending on your specific problem, Bryan may also use some stretching and / or range-of-motion techniques, as needed.
After treatment, it is usually recommended that the client apply moist heat to the area treated.
Neck pain is very common! According to one study, between 10-21% of the population will experience an episode of neck pain each year with a higher incidence rate among office workers. Between 33-65% will recover within one year, but most cases become “chronic, recurrent” meaning neck pain will come and go indefinitely. The more we can learn WHAT to do to prevent these episodes, the better.
1. SLEEP: Use a cervical pillow so the NECK is fully supported during sleep. This keeps your head in alignment with your spine. Also, if possible, sleep on your back!
2. OFFICE: Position the computer screen so that it’s at or slightly below eye level and straight in front of you. The “KEY” point is that you feel comfortable with the height of the monitor. Keep your chin “tucked in” so the 10-11 pound (4.5-5 kg) weight of your head stays back over your shoulders—this will place less of a load on your upper back and neck muscles to hold your head upright! Set a timer on your cell phone to remind you to get up and move around every 30-60 minutes.
3. TELEPHONE: If you are using the phone a lot during the day, GET A HEADSET! If you are pinching the phone between your shoulder and ear, you WILL have neck problems!
4. EXERCISE: Studies show people who are more physically active are less likely to report neck pain.
5. NUTRITION: Search for information on the “anti-inflammatory diet.” It’s basically fruits, veggies, and lean meat, with a few other twists. Also, stay hydrated by drinking plenty of water each day.
6. LIFT/CARRY: A heavy purse, brief case, or roller bag can really hurt your neck. Take ONLY what you need and put the rest in a secondary bag that stays in your car or where you can access it when needed. Switch to a backpack if possible vs. a heavy brief case.
7. SELF-MASSAGE: Reach back and dig your fingers into your neck muscles and “work” the tight fibers back and forth until they loosen up. Roll your head over the top edge of a chair by sliding down until the top of the chair back rests in your neck. Search for the tight fibers and work them loose!
8. WHIPLASH: If you are injured, DO NOT WAIT! Those who seek chiropractic care shortly after an accident have less long-term trouble!
Are there differences in lifestyle between people with vs. without fibromyalgia (FM)?
A recent study found women with FM found spend more time engaged in sedentary behaviors and less time in physical activity. In the study, researchers followed 413 female patients with FM and 188 age-matched healthy female controls. Researchers used three different approaches to access physical activity: a triaxial accelerometer to examine sedentary time, time spent in physical activity, and step counts.
They discovered those who suffered from FM spent an average of 39 more minutes per day in sedentary activity and 21 fewer minutes per day in light physical activity, 17 fewer minutes per day in moderate physical activity, and 19 fewer minutes per day in moderate-to-vigorous physical activity. In addition, those with FM took a mean of 1,881 fewer steps that those without FM.
Now, this isn’t really a surprise given the fact that people with FM are in pain and more likely to have difficulties sleeping and tolerating prolonged activities. After comparing the sufferers to the non-sufferers, the researchers found only 21% of FM patients vs. 46% of non-FM controls achieved the recommended 150 minutes/week (a little over 20 min. / day) of “moderate-to-vigorous” physical activity. They also found that only 16% vs. 45%, respectively, walked the recommended ≥10,000 steps per day.
One of the BEST forms of exercise for most people is walking. A walking program should be a staple exercise. It’s important to note that this should be GRADUALLY introduced so as to avoid an overuse injury—strain or sprain of the muscles and joints. This gradual introduction into activity is ESPECIALLY important for the FM sufferer as overuse injuries can make them afraid to do something that can REALLY help when done correctly!
You may have heard the comment, “If there’s no damage to the car, then there’s no injury.” Unfortunately, that does not always seem to be the case.
There are MANY factors that affect the dynamics of a collision and whether or not injury occurs. A short list includes: vehicle type and design, speed, angle of collision, momentum, acceleration factors, friction, kinetic and potential energy, height, weight, muscle mass, seat back angle and spring, head position upon impact, etc.
Consider Sir Isaac Newton’s Third Law of Motion: “For every action there is an equal and opposite reaction.” This law applies to a car accident at any speed. Using the analogy of hitting a pool ball into the corner pocket straight on, when the cue ball stops, its momentum is transferred to the target ball which accelerates at the same speed…hopefully into the corner pocket!
This example is not quite the same as an automobile collision because the energy transfer is very efficient due in part to the two pool balls not deforming (crushing or breaking) on impact with one another. If either ball did deform, more energy absorption would occur and the acceleration of the second ball would be lower.
In fact, in the United States, vehicle bumpers are tested at 2.5 mph with impact equipment of similar mass with the test vehicle’s brakes disengaged and the transmission in neutral. National Highway Transportation Highway Safety Administration (NHTSA) vehicle safety standards demand that no damage should occur to the car in this scenario.
However, energy transfer occurs very quickly and with a greater amount of force when there is no vehicle deformation (damage). As a result, a greater amount of energy (described as G-force) is directly transferred to the occupants inside the vehicle—increasing the risk of injury. A 1997 Society of Automobile Engineers article provided an example in which the same 25 mph (12 m/s) collision resulted in a five-times greater force on the occupants of the vehicle when the crush distance of the impact fell from 1 meter to .2 meters.
So be aware that even low-speed impacts can still place quite a bit of force on your body, even if the bumper of your car doesn’t have a scratch on it.
Aberdeen Chiropractic 