back pain

Breathing - Part 3

Breathing influences low back pain

We have all used or been told to use stabilization exercises to treat low back pain. While many people will improve with physical therapy, we too frequently experience recurrences of back pain, requiring more physical therapy or pain medications.

Several studies have demonstrated the role of respiration on postural stability. In one such study, individuals with low back pain were compared to pain-free subjects during an active straight leg raise, an exercise that requires core control. Real-time ultrasound was used to examine the activity of the diaphragm and the pelvic floor. The subjects with low back pain demonstrated an increase in respiratory rate, a greater descent of the pelvic floor, and decreased diaphragmatic excursion compared to their pain-free counterparts.

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These results indicate that subjects with low back pain had to work harder to breathe during a core control activity, but they used their diaphragm less. As a result, they likely overused their accessory breathing muscles and they did not use their diaphragm for core stability. Additionally, the increase in respiratory rate indicates that sympathetic activity and stress increased as well.

This is a perfect storm for pain and decreased postural stability.

The result? Low back pain.

Similar results were found in a study that examined diaphragmatic activity during upper and lower extremity isometric activities with external resistance. Individuals with low back pain presented with smaller diaphragmatic excursion than pain-free control subjects during the resistance exercises.

Essentially, the subjects with low back pain were not using the diaphragm to its fullest potential. They were therefore more vulnerable to decreased core control and resultant low back pain. Collectively, these results highlight the role of breathing in physical therapy and call for stabilization interventions that involve the diaphragm.

In order to achieve optimal core stabilization, the diaphragm must be simultaneously involved in respiration and postural stability. Individuals who are limited in their ability to contract the diaphragm for stabilization have a higher risk of developing back pain.

Breathing dysfunction restricts mobility

Inefficient breathing patterns are often closely linked to mobility restrictions. If you present with a mobility limitation anywhere from the neck to the pelvis, we should consider the possibility of a breathing dysfunction.

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Many clients who present with head, neck, and shoulder pain are likely suffering from accessory respiratory muscle overuse. We need to retrain breathing in physical therapy in order to decrease accessory muscle overload and increase activation of the diaphragm.

Inefficient breathing patterns may also restrict the rib cage or thoracic spine or decrease general flexibility. In order to improve joint mobility, range of motion and/or flexibility, we may need to calm the nervous system down with breathing in physical therapy. The parasympathetic nervous system will allow our muscles to relax, whereas the sympathetic nervous system causes them to contract. By learning how to slow down breathing, prolong exhalation, and breathe through their diaphragm, we can increase flexibility.

Breathing determines movement patterns

In order to achieve optimal movement patterns, we need a stable core from which our muscles can generate movement. Lumbar and pelvic stability depend on coordination between the diaphragm, pelvic floor, and transverse abdominis. These muscles activate prior to purposeful movements in order to establish a stable base. This allows for optimal load transference along the entire kinetic chain and minimizes stress on passive structures, such as ligaments, joint capsules, and joint surfaces.

Failure to coordinate the core stabilizers with the regulation of intra-abdominal pressure makes it difficult to efficiently transfer force from the trunk to the extremities. If we can't properly activate the diaphragm during a simple activity, like an active straight leg raise, then we are certainly not recruiting it properly when kicking a soccer ball or performing a squat. This impairs both our core stability and the resultant movement patterns. If we send our patients back to sports or complex activities without having assessed and treated their breathing in physical therapy, then we have left them vulnerable to re-injury.

Breathing changes pain perception

People with chronic pain benefit from exercises that induce relaxation. Since deep breathing calms the nervous system, it will help decrease the stress response associated with pain.

Patients with chronic pain may have an up-regulated nervous system in which there is an increase in sympathetic activity. This increases their sensitivity to touch and heightens their perception of pain. Deep breathing will mediate sympathetic arousal and increase pain thresholds. By teaching patients how to diaphragmatically breathe, we can increase parasympathetic activity, thereby inducing relaxation and decreasing the pain response.

Additionally, dysfunctional breathing may predispose individuals to faulty muscular adaptations, resulting in chronic musculoskeletal pain. For example, people who overuse their neck to breathe will be more susceptible to neck pain. Similarly, weakness in the diaphragm and pelvic floor can lead to overuse of compensatory muscles and result in chronic low back pain. By addressing breathing in physical therapy, we can restore muscle balance and decrease pain.

Assessment of breathing patterns

A breathing assessment is an often overlooked component of an orthopedic physical therapy examination. However, breathing is the foundation of stability and normal movement patterns. Therefore, a breathing assessment should be a basic starting point for all orthopedic evaluations.

When assessing breathing, we must the first rule out structural problems, such as airway obstructions or a deviated septum. For example, before posture can be addressed, we should make sure that they are not standing that way due to an anatomical obstruction. Treatment of these respiratory health problems are beyond our scope of practice and will require referral to another specialist.

After we clear anatomical obstructions, we can examine breathing pattern itself. The easiest way to do this is by lying supine and placing one hand on the stomach and the other on the chest. If you are diaphragmatically breathing, you will see more movement through the stomach and less movement in the chest. If you are an apical breather, you will see minimal movement through the abdominal wall and excess movement through the upper chest. Also take note of the rate of breathing. Is the breathing slow or rapid? Are the inhalations longer than the exhalations?

There are of course more in-depth methods of examining breathing in physical therapy, but this is all that will fit in this blog post.

Re-training breathing in physical therapy

Breathing can be an essential tool in the treatment of musculoskeletal dysfunction. However, like any intervention, breathing re-training should not be done in isolation. Breathing dysfunction may be the cause, or result of, your primary complaint. Therefore we should coordinate mobility and strength interventions with breathing in physical therapy.

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When first instructing diaphragmatic breathing, it is easiest to lay supine on a mat or plinth. Place one hand on the stomach and the other on the chest in order to compare the excursion of both areas. During diaphragmatic breathing, you should feel the stomach rise and fall and the lower rib cage should expand laterally. There should be minimal movement through the chest.

While practicing diaphragmatic breathing, watch for compensation of spinal extensors (excess lumbar lordosis) as well as overuse of the rectus abdominis. Also, make sure that you do not revert to the old patterns by using accessory respiratory muscles of the chest and neck. This can happen with fatigue.

After mastering simple corrective breathing exercises, proper breathing should be incorporated into functional activities. When participating in complex activities, like running, there are increased demands for stability and respiration.

Start breathing in physical therapy today

Breathing is the root of all movement. We must therefore respect the role of breathing in physical therapy. By incorporating breathing into our assessment and treatment of musculoskeletal impairments, we can improve outcomes and increase the likelihood of lifelong recovery.

Breathing - Part 2

Breathing and the nervous system

The nervous system and the musculoskeletal system work in tandem to create movement. If we have dysfunction with one system, it may manifest in the other system. Therefore, respiratory dysfunction in the nervous system may present as a musculoskeletal problem.

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The control of breathing is balanced between the central nervous system (brain and spinal cord) and the peripheral nervous system (somatic nervous system and autonomic nervous system). The autonomic division of the peripheral nervous system is of particular interest to us here. The autonomic nervous system is divided into the sympathetic nervous system, the parasympathetic nervous system, and the enteric nervous system. Here we will focus on the sympathetic and the parasympathetic divisions of the autonomic nervous system.

When we experience emotions, pain, fear, and stress, our sympathetic and parasympathetic nervous systems respond by adjusting blood pressure and heart rate (among other variables). Generally speaking, parasympathetic activity is associated with a relaxation response and sympathetic activity is associated with a heightened response.

A slow diaphragmatic breath with prolonged exhalation will increase parasympathetic activity and result in relaxation. On the other hand, rapid chest breathing with prolonged inhalation will increase sympathetic activity and result in a stress response.

When we operate mainly through the sympathetic nervous system, we are living in a state of heightened arousal. This state is known as up-regulation. Up-regulation negatively alters our breathing patterns and changes the respiratory muscles we recruit for breathing. These changes can alter motor control patterns and result in musculoskeletal pain. Therefore, we should be assessing and treating breathing in physical therapy.

Dual role of the diaphragm

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In early development, the diaphragm acts primarily as a respiratory muscle. However, at 6 months, the diaphragm takes on a dual role as a respiratory muscle and postural muscle. Both of these roles must be intact in order to achieve lumbopelvic stability and optimal movement patterns.

The diaphragm initiates cores stability through its influence on intra-abdominal pressure. It works with the transverse abdominis, multifidus, and pelvic floor muscles to provide support to the spine. Proper diaphragmatic function not only allows us to breathe, but also provides us with the postural stability that is required for complex movements.

When breathing demands increase, there is competition between the two roles of the diaphragm. Breathing will always win this competition (after all, we need it to live). As a result, the diaphragm's contribution to postural stability declines.

When individuals exhibit breathing pattern dysfunction, meaning they cannot diaphragmatically breathe, or they are too dependent on accessory respiratory muscles, their bodies become hyper-focused on the demands of breathing. They will overuse other respiratory muscles and the diaphragm will be unable to perform its stabilizing role. Consequently, posture and movement patterns will suffer.

We must remember that the diaphragm is a muscle. It is critical that we involve breathing in physical therapy treatments - we have to train the diaphragm too!

In many adults, we see breathing move away from the stomach and higher into the chest. These individuals are not taking full advantage of the diaphragm. The longer they under-recruit this breathing muscle, the harder it is to normalize breathing patterns and the more likely they are to develop musculoskeletal issues.

End of part 2

What is Dry Needling?

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What is Dry Needling (DN)?

Dry needling is a treatment technique in which small filament type needles are inserted into myofascial trigger points (known as painful knots in muscles), tendons, ligaments, or near nerves in order to stimulate a healing response with the goal of permanently reducing pain and dysfunction.  It has been shown that our bodies can develop areas of hypersensitivity and tightness as a response to various stresses i.e. postural, repetitive movements, psychological, emotional etc.  These areas are most likely to develop along tissues that are dysfunctional due to interruption of the nerves that innervate them.  This can be caused from nerve compression in a limb or in the spine from such things as disc injuries, facet joint dysfunction, vascular compression, metabolic stress or biomechanical stress.  When trigger points are present they can cause the muscles to neurologically tighten, further disrupts the normal functioning of that muscle due to increased pain and local compression of vascular structures and nerves.  Dry needling can help to effectively treat acute and chronic orthopedic and neuromusculoskeletal conditions.

Are dry needling and acupuncture the same thing? 

DN is not acupuncture or Oriental Medicine.  DN is a treatment that uses solid filament, disposable acupuncture needles, but that is where the similarity to acupuncture ends.  Dry Needling is based on Western medical research and principles, whereas acupuncture is based on Traditional Chinese Medicine in which the purpose is to alter the flow of energy ("Qi") along traditional Chinese meridians for the treatment of diseases.  The theoretical backgrounds for the two treatments are very different.  In fact, DN is a modern, science-based intervention for the treatment of pain and dysfunction in musculoskeletal conditions throughout the body. 

How does dry needling work?

  • Local Mechanical Effects

    • Winding, tenting or needle grasp to deform and disrupt fibroblasts within the neighboring collagen tissue resulting in increased opioid mediated response

    • Local twitch response causing decreased muscle contraction and improved range of motion, mobilizing collagen restrictions within the muscle and fascia

  • Electrophysiological Effects

    • Decreased spontaneous electrical activity (SEA) at the active trigger point, improved neuromuscular activation and timing

  • Neurophysiological Effects

    • Increased pressure pain thresholds

    • Stimulation and decreased inhibition of the descending sensory pain pathways

    • Activation of central mediated systems including activation of areas in the brain involved in pain processing and the emotion of pain

  • Chemical/Cellular Effects

    • Improved blood flow to nerves, tissues due to a decrease in vascular compression

    • Inflammatory and immune system responses initiated.

To schedule an appointment with Dr. Travis LeDoyt, PT, DPT, CF-L1 please go directly to https://www.onthegophysicaltherapy.com/ or click the button below. Self scheduling is easy referrals/doctors scripts are not required.

PT Can Prevent Unnecessary Surgery

Recent research is showing that surgery might not be needed as often as we think. A large review estimates that 10% to 20% of surgeries might be unnecessary and that in some specialties such as cardiology and orthopedics, that number might be higher. The reasons for so many unneeded surgeries being performed are varied, but the most common are that more conservative options aren't tried first, or lack of knowledge by the operating physician.

 

Physicians undergo long and rigorous training programs to become surgeons, but if they don't work hard to keep learning, their knowledge often stops growing when they leave residency. Recent research is showing that certain common surgeries aren't any better than a placebo. Two such examples are kyphoplasty - a procedure for spinal compression fractures, and partial meniscectomy - a procedure used to treat tears of the meniscus in the knee. If a surgeon hasn't continued to learn, they won't know that these surgeries often don't offer any more benefit than a non-surgical treatment and will continue to perform them.

 

Every surgery, even "minor" ones carry risks. These include complications from anesthesia, blood clots after surgery, delayed healing of the incision, infection, and unintended damage to nerves or other organs near the surgical site. Some of these risks cause discomfort for a period after surgery and go away, but others can result in permanent disability or even death. For some patients and conditions, surgery is a great treatment option, but with all the associated risks, when surgery can be avoided, it should be.

 

For musculoskeletal problems like back and joint pain, sprains, and strains, seeing your PT before a surgeon can help keep you out of the operating room and get you back to life without surgery. Studies have shown that physical therapy is just as good if not better than surgery for a multitude of conditions and carries less risk. Some examples would include rotator cuff tears, meniscal tears, spinal stenosis, low back pain, and osteoarthritis.

 

Physical therapy can't fix every problem, and for some patients surgery is the best choice. However, research is showing that surgery isn't a cure-all, and is sometimes just a very expensive and risky placebo. In most cases, starting with physical therapy is the right choice, and for many patients, PT is the only treatment necessary.