Thursday, April 25, 2019

PT-Helper's April Blog Posts for Physical Therapists

How Does Pain Work?

By guest blogger Dr. Damon Bescia DPT, OCS, SCS, FAAOMPT
Published on April 18, 2019

Dr. Bescia presents 6 common misconceptions about pain to help therapists understand pain and to promote a healthy approach to it without unwittingly contributing to increased pain and disability.  


Published on April 11, 2019

PT-Helper's exercise library includes diaphragmatic breathing exercises that can be prescribed to patients. We particularly like the article “The Role of Breathing in Physical Therapy“ by Lily Mercer as it presents excellent background on the role of breathing, postural stability, and musculoskeletal impairments.


By guest blogger Jean Masse PT, DPT, PRC, OCS, ATC
Published on April 4, 2019

Dr. Masse writes about the foundations of scoliosis specific exercises as it addresses asymmetries in scoliosis curves with 1) front to back, 2) side to side and 3) rotation aspects of the curvature to balance symmetry. 

Thursday, April 18, 2019

How Does Pain Work?

By guest blogger Dr. Damon Bescia DPT, OCS, SCS, FAAOMPT

What is Pain?

What is Pain?  Pain is an unpleasant subjective experience generated by an individual’s unique pain neural signature that may be activated either spontaneously or when a stimulus is perceived as a threat.

Why Learn About Pain?

Erroneous ideas about pain abound among patients and health care providers alike.  If you are seeking relief from pain, understanding pain is a very important step on your way to recovery.  If you are a health care provider who treats patients in pain, you owe it to your patients to 1) have a correct understanding of pain and 2) be able to explain it accurately in plain language to your patients.

Misconceptions About Pain

Many understand pain to work like this: “Pain fibers throughout the body send pain messages from an injured body part up to the brain so that a person will do something to eliminate the pain.”  While it may sound logical, this outdated model has fallen short on many fronts.

Let’s break it down into 6 common myths about pain:

Myth #1: “Pain receptors in my body convey the pain message to my brain.”

If this myth were true, phantom limb pain wouldn’t exist.  However, 90-98% of individuals report experiencing phantom sensations in a limb following its amputation – the majority of them reporting distinct pain. [1],[2],[3]  Therefore, pain may be experienced even in the absence of any tissue in that area at all.

Myth #2: “Pain means tissue damage.  Therefore, when I have severe pain, it means I have severe tissue damage.”

This may sound reasonable, but it has been disproven in scientific studies several times over.[4],[5],[6],[7],[8],[9],[10],[11],[12],[13],[14],[15] Many people have injured tissue such as bulging discs, arthritis, labral tears, tendinopathy, degenerative changes, muscle tears or ruptures, etc without any pain at all.  Others have incapacitating pain without any tissue damage at all.  Pain is not simply “an issue of the tissue.”  Tissue injury can occur without pain, and pain can occur without injury.  (You're also invited to consider the inability of X-ray, MRI, and CT Scan findings to explain the patients' pain.)

Additionally, this myth cannot explain why surgeries that successfully remove injured structures don’t always eliminate – or even improve – pain afterward.[16],[17]  Conversely, it cannot explain why sham orthopedic surgeries were just as effective as actual surgery in reducing pain and disability.[18]

Myth #3: “I’m always in pain, but I’m not aware of it at present because I’m just used to it.”

Pain is an unpleasant subjective experience.  Therefore, you cannot be in pain without being aware of it.  For instance, no pain is experienced during surgery despite the extensive bombardment of sensory information because anesthesia removes the conscious component of the experience.

Myth #4: “Chronic or persistent pain means that my injury hasn’t healed properly.”

Injuries heal in predictable stages, and even slow-healing tissues, such as herniated discs, have been shown to heal over time.[19]  Most tissues heal within weeks; however, some pain experiences last for months or even years.  Further, many individuals have chronic pain with no history of injury.  Typically the longer the pain lasts, the less important tissues are and the more important a sensitive nervous system is.  For more information, you're invited to read my blog "Subclassification of Chronic Pain".

Myth #5: “Pain is all in your head.”

It is true that pain is an experience produced by the brain - with or without contribution from the body.  However, the phrase "pain is all in your head" inaccurately and insensitively implies that your pain is imaginary.  Additionally, chronic pain may be due to a series of physical changes that happen over time called "central sensitization".  While learning about the scientific explanation may not be for everyone, simply understanding that your pain is not “all in your head” can be very liberating.  For those intrigued by the physiological explanation of chronic pain, this is for you:

It appears that the chronic bombardment of C-fiber activity into the dorsal horn results in permanent changes over time, killing off the interneuron with high levels of amino acids, and allowing more information to be passed onto the spinal cord and brain.  As C-fibers pull back and A-fibers grow into the dorsal horn, light touch fires more easily into the spinal cord and leads to increased sensitization and decreased endogenous mechanisms, leading to allodynia or hyperalgesia.  Chronic retrograde firing may result in inflammation, swelling, and immune responses.

Myth #6: “I feel your pain!  I know how that feels!”

Despite good intentions, none of us can truthfully make that claim.  That is because each pain experience is dependent on a unique combination of each person’s experiences, beliefs, knowledge, logic, social behavior, anticipated consequences, mental state, emotional state, financial concerns, sensory cues, anticipated outcomes, fears, environment, and more.  A typical pain neural signature commonly involves a map of these 9 areas of the brain:
  • Amygdala – responsible for processing and memory of emotional reactions, fear, fear conditioning, addiction.
  • Primary Somatosensory Cortex – involved with somatic sensation, visual stimuli, movement planning.
  • Hippocampus – performs consolidation of info from short-term to long-term memory, spatial navigation, memory, fear conditioning.
  • Anterior Cingulate Cortex – regulates blood pressure and heart rate, assists with reward anticipation, decision-making, empathy, emotion, and concentration.
  • Primary Motor Cortex – assists with planning and executing movements
  • Hypothalamus – regulates body temperature, hunger and thirst, fatigue and sleep.
  • Thalamus – plays a role in consciousness, sleep, alertness
  • Prefrontal Cortex – moderates personality expression, decision-making, social behavior, memory.
  • Cerebellum – facilitates movement, balance, proprioception, coordination, cognition, and fear.
Therefore, it’s impossible for two persons to experience the same pain.

So… What Is Pain?

As we have discussed, misconceptions about pain are prevalent.  But, they have fallen short of accurately explaining the true pain experience.  Arguably the most concerning fact is that an outdated and inaccurate theory of pain can lead to an increase in both pain and disability for individuals who persist in avoiding activity or certain movements out of fear of pain[20], and some well-intentioned health care providers unwittingly contribute to this increase by advising their patients to avoid certain activities altogether.

Therefore, we need to better understand pain.

Pain is an unpleasant subjective experience generated by an individual’s unique pain neural signature that may be activated either spontaneously or when a stimulus is perceived as a threat.

The truth is that there simply are no “pain fibers”; there are only “nociceptors”.  These terms are not synonymous.  Nociceptors are nerve cells that transmit sensory information – not pain – to the brain via the spinal cord for processing.  Nociceptors do not perceive, produce, or transmit pain.  Pain is experienced only after the sensory input is sent to the brain, processed by the pain neuromatrix, and is determined to be a threat.[21]

The amazingly complex neural signature located in your brain ultimately determines when you experience pain, and the body may or may not be involved in the process.  For a sensation to become painful, you must perceive it as a threat.

You are likely to experience pain when spraining your ankle while playing a recreational sport; you are highly unlikely to experience pain when spraining your ankle while running from a tiger.  In the latter scenario, you likely wouldn’t be tremendously concerned about your ankle that just got tweaked, as you’d have a bigger threat to deal with in the 600-lb combination of speed, power, and teeth right behind you.  If you are fortunate enough to survive that encounter, you may eventually experience ankle pain once you’re able to calm down and compose yourself.  Ultimately, the level of perceived threat assigned to a given sensation determines whether or not you experience pain with it.

Further, the nervous system is a dynamic and living organism driven by thought and emotion, and it is very closely linked to the immune and endocrine systems.  Therefore, cognitions such as fear, anxiety, and catastrophization are strongly correlated to the pain experience as they are to overall health and wellbeing.[22],[23],[24]

If you are a health care provider who treats individuals in pain, you owe it to your patients to have an accurate understanding of pain and to promote a healthy approach to it without unwittingly contributing to increased pain and disability.  If you are a patient seeking relief from pain, it’s critical that you choose a health care practitioner who has an accurate and up-to-date understanding of pain and knows how to best treat it.  You're also invited to consider how a manual physical therapist treats pain.


Dr. Damon Bescia is a fellowship-trained Doctor of Physical Therapy, board certified in orthopedics and sports physical therapy, who specializes in Orthopedic Manual Physical Therapy and serves Naperville and its surrounding communities by way of his Concierge Practice.  For more information, please visit www.NaperManualPT.com.







[1] Melzack R. Phantom limbs and the concept of a neuromatrix. Trends in neurosciences. 1990 Mar 31;13(3):88-92.
[2] Melzack R. Pain and the neuromatrix in the brain. Journal of dental education. 2001 Dec 1;65(12):1378-82.
[3] Ramachandran VS, Hirstein W. The perception of phantom limbs. The DO Hebb lecture. Brain. 1998 Sep 1;121(9):1603-30.
[4] Twomey L, Taylor J. Age changes in the lumbar spinal and intervertebral canals. Spinal Cord. 1988 Aug 1;26(4):238-49.
[5] Alyas F, Turner M, Connell D. MRI findings in the lumbar spines of asymptomatic, adolescent, elite tennis players. British journal of sports medicine. 2007 Nov 1;41(11):836-41.
[6] Videman T, Battié MC, Gibbons LE, Maravilla K, Manninen H, Kaprio J. Associations between back pain history and lumbar MRI findings. Spine. 2003 Mar 15;28(6):582-8.
[7] Taylor JR, Twomey LT. Age Changes in Lumbar Zygapophyseal Joints: Observations on Structure and Function. Spine. 1986 Sep 1;11(7):739-45.
[8] Kjaer P, Leboeuf-Yde C, Sorensen JS, Bendix T. An epidemiologic study of MRI and low back pain in 13-year-old children. Spine. 2005 Apr 1;30(7):798-806.
[9] Spielmann AL, Forster BB, Kokan P, Hawkins RH, Janzen DL. Shoulder after Rotator Cuff Repair: MR Imaging Findings in Asymptomatic Individuals—Initial Experience 1. Radiology. 1999 Dec;213(3):705-8.
[10] Sher JS, Uribe JW, Posada A, Murphy BJ, Zlatkin MB. Abnormal findings on magnetic resonance images of asymptomatic shoulders. J Bone Joint Surg Am. 1995 Jan 1;77(1):10-5.
[11] Reilly P, Macleod I, Macfarlane R, Windley J, Emery RJ. Dead men and radiologists don't lie: a review of cadaveric and radiological studies of rotator cuff tear prevalence. The Annals of The Royal College of Surgeons of England. 2006 Mar;88(2):116-21.
[12] Milgrom C, Schaffler M, Gilbert S, Van Holsbeeck M. Rotator-cuff changes in asymptomatic adults. The effect of age, hand dominance and gender. Bone & Joint Journal. 1995 Mar 1;77(2):296-8.
[13] Munk B, Lundorf E, Jensen J. Long-term outcome of meniscal degeneration in the knee Poor association between MRI and symptoms in 45 patients followed more than 4 years. Acta Orthopaedica Scandinavica. 2004 Jan 1;75(1):89-92.
[14] Bedson J, Croft PR. The discordance between clinical and radiographic knee osteoarthritis: a systematic search and summary of the literature. BMC musculoskeletal disorders. 2008 Sep 2;9(1):116.
[15] Major NM, Helms CA. MR imaging of the knee: findings in asymptomatic collegiate basketball players. American Journal of Roentgenology. 2002 Sep;179(3):641-4.
[16] Ostelo RW, Costa LO, Maher CG, de Vet HC, van Tulder MW. Rehabilitation after lumbar disc surgery: an update Cochrane review. Spine. 2009 Aug 1;34(17):1839-48.
[17] Deyo RA, Mirza SK. The case for restraint in spinal surgery: does quality management have a role to play?. European Spine Journal. 2009 Aug 1;18(3):331-7.
[18] Louw A, Diener I, Fernández-de-las-Peñas C, Puentedura EJ. Sham Surgery in Orthopedics: A Systematic Review of the Literature. Pain Medicine. 2016 Jul 11:pnw164.
[19] Autio RA, Karppinen J, Niinimäki J, Ojala R, Kurunlahti M, Haapea M, Vanharanta H, Tervonen O. Determinants of spontaneous resorption of intervertebral disc herniations. Spine. 2006 May 15;31(11):1247-52.
[20] Vlaeyen JW, Linton SJ. Fear-avoidance and its consequences in chronic musculoskeletal pain: a state of the art. Pain. 2000 Apr 1;85(3):317-32.
[21] Louw A, Puentedura E. Therapeutic Neuroscience Education: Teaching Patients about Pain: a Guide for Clinicians. International Spine and Pain Institute; 2013.
[22] Meeus M, Nijs J, Van Oosterwijck J, Van Alsenoy V, Truijen S. Pain physiology education improves pain beliefs in patients with chronic fatigue syndrome compared with pacing and self-management education: a double-blind randomized controlled trial. Archives of physical medicine and rehabilitation. 2010 Aug 31;91(8):1153-9.
[23] Moseley GL. Evidence for a direct relationship between cognitive and physical change during an education intervention in people with chronic low back pain. European Journal of Pain. 2004 Feb 1;8(1):39-45.
[24] Vlaeyen JW, Kole-Snijders AM, Rotteveel AM, Ruesink R, Heuts PH. The role of fear of movement/(re) injury in pain disability. Journal of occupational rehabilitation. 1995 Dec 1;5(4):235-52.

Thursday, April 11, 2019

Diaphragmatic Breathing

PT-Helper’s initial exercise library did not include diaphragm breathing exercises when we first introduced our online exercise prescription service, CONNECT, at the American Physical Therapy Association’s CSM conference in 2016 at Anaheim, CA. While there, a few therapists asked if we included diaphragm breathing. Recognizing that we needed to expand upon our library, we have since added these exercises.

Part of our process of adding new exercises into our library includes doing a little bit of research on how these exercises should be illustrated and how they should be performed. We often stumble upon some great articles that provide excellent background on the topic. “The Role of Breathing in Physical Therapy“ : by Lily Mercer is one such article. In this article, Ms. Mercer covers the basics of respiration, breathing and the nervous system, the role of the diaphragm on breathing and postural stability, as well as breathing and musculoskeletal impairments. She concludes that incorporating breathing assessment and treatment by physical therapists can improve outcomes and lifelong recovery.

Other online resources like Coury & Buehler Physical Therapy’s blog on breathing will recommend slowly inhaling through the nose for 5 seconds and exhaling though the mouth for 5 seconds. Another resource such as the COPD Foundation’s blog recommend breathing in through the nose for 2 seconds while exhaling through pursed lips for 4-6 seconds.

Which ever breathing sequence you recommend, your patients can use PT-Helper’s mobile app to pace their breathing exercises. You can set their Hold Time to their inhaling period and their Rec (Recovery) Time to their exhaling period. Set their Reps to the number of breaths that you want them to take. By default, Hold Time is set to 2 seconds and Rec Time to 4 seconds.


  • Diaphragmatic Breathing (seated) : Sit with your knees bent. Place one hand on your upper chest and your other hand on your abdomen, below your ribs. Breathe in slowly through your nose while expanding your abdomen. Your upper chest should remain as still as possible. Slowly breathe out through pursed lips while tightening your stomach muscles into your body. Repeat



  • Diaphragmatic Breathing (supine): Lie on your back with your knees bent. Place one hand on your upper chest and your other hand on your abdomen, below your ribs. Breathe in slowly through your nose while expanding your abdomen. Your upper chest should remain as still as possible. Slowly breathe out through pursed lips while tightening your stomach muscles into your body. Repeat



Thursday, April 4, 2019

What is Scoliosis Specific Exercise?

By guest blogger Jean Masse PT, DPT, PRC, OCS, ATC

Scoliosis can have many forms. We have general categories for scoliosis and spine curvatures, but each is unique. Scoliosis Specific Exercise are designed to balance scoliosis curves.  They address the unique curvatures of each person.

Asymmetry is something all scoliosis curves have in common. Asymmetries occur in 3 dimensions: 1) Front to back, 2) Side to side, 3) Rotation. With both the Schroth Method and Postural Restoration, we address all 3 aspects of the curvature to balance asymmetry. Our patients begin Scoliosis Specific Exercise with front to back correction, then side to side. Rotation will then follow.

In the front to back, curves are known as either lordosis (most commonly increased arching in the low back), or kyphosis (increased rounding in the back, most often the upper back).  In the side to side dimension curves are often a C-shape or an S-shape. The C-shape is considered a “3-curve” using Schroth terminology. The S-shape is considered a “4-curve” in Schroth terminology. Rotational curves can be seen when a person bends forward, and one side of the back is more prominent. Also, in the front of their body one side of the rib cage is often more protruded than the other.

Precise exercise positions place the body so that a person’s muscles, previously underused, are activated. Muscles targeted are different on the right and on the left depending on the person’s curve pattern. Wedges, towel rolls, bolsters, stools, poles, bars, bands, balls, are a few tools we use. These help us for positioning our patient, to give sensory input to our patient, and to guide the patient’s muscle activity. Once in the corrected position, specific breathing techniques are used to expand restricted, concave areas. Breathing alone is a powerful tool for repositioning the spine and rib cage.


Postural Restoration based spinal correction activity


Schroth based spinal correction activity

Scoliosis exercises are progressed as a person gains mastery of each position and breathing technique. The Schroth Method outlines basic Principles of Correction that include mental focus on changing the body’s habits.

Scoliosis Specific Exercises are challenging. They are also empowering and offer a deep and enduring awareness of our body position, breathing and postural balance.


About Jean Massé

Jean Masse PT, DPT, PRC, OCS, ATC received her BS degree in Physical Therapy in 1991 from SUNY Stony Brook and in 1996, her MS degree in Human Movement Science from UNC Chapel Hill. Also in 1996, she completed the Sports Medicine Program at UNC Chapel Hill becoming a licensed athletic trainer. Jean has worked extensively with athletes ranging from NCAA elite to senior Olympians to Little Leaguers.

Jean became a nationally recognized Orthopaedic Certified Specialist through the American Physical Therapy Association in 1999. She re-certified in 2009.

Still interested to understand why some patients do not seem to heal, Jean returned to UNC Chapel Hill where she earned a doctoral degree in Physical Therapy with the focus on pain management and began teaching at UNC Chapel Hill as adjunct faculty in the Physical Therapy Department soon after, in addition to her work with patients at Advance Physical Therapy.

Advance Physical Therapy is a physical therapist owned practice offering quality rehabilitation to clients in Chapel Hill, Durham, Carrboro, Pittsboro, Cary and surrounding areas of the Triangle in North Carolina.

Advance Physical Therapy is offering a 2 day course for PT's on scoliosis management at our Chapel Hill, NC clinic May 18-19, 2019.