therapy

Scar tissue - is it an issue?

Is scar tissue really an issue? Alongside myself, scars may be one of the most under appreciated and neglected structures, when it comes to assessing aspects of an individual's pain and movement limitations.   For many people, which include physicians, surgeons and often the owners of said scars, there’s an acceptance that the scar has healed and is not involved in any process of pain, strength or movement dysfunction. Dr’s and surgeons often assume that time enables optimal healing and patients simply forget about the previous trauma. Time may be a great healer but the healing is only partial - the nervous system always remembers. Writing this, reminds me of a client who had filled in all historical injury and trauma that he had experienced on my intake forms, which might have been a factor in his chronic back pain. It wasn’t until he took his top off and under questioning revealed that he had  donated his kidney to his brother some twenty years ago. It wasn't a big deal though as it was twenty years ago apparently.

This sequence of events has been summarised as homeostatic, inflammation, granulation and remodelling phases (1) which are undergoing symbiotic relationships with other structures and dependant on energetic, endocrine and other functions of the individual, which often depend on environmental stimulus. During the granulation and proliferation phase, sub-phases, which include collagen deposition, remodelling of blood vessels and tissues occur. It’s likely that during these phases the health and energetic response of the individual will dictate the capacity to regenerate and may also influence the layers of dysfunction that are present with scar tissue.

“ In childhood, wounds heal quickly and inflammation is resolved, in extreme age, or during extreme stress or starvation, wound healing is much slower and the nature of inflammation and would closure is different. “Ray Peat.

Unsaturated vegetable fats, serotonin and estrogen promote collagen synthesis and resulting fibrosis and keloid scars are associated with these states (3). Perhaps the capacity to organise energy and regenerate are instrumental in decreasing the associated dysfunctions that can be found in all scar tissue? Most Drs that I have spoken to just assume that after 12 weeks the scar has generally healed and that normally activity can be resumed. As a rule, there is no thought given to mechanical, pain sensitising or emotional constraints induced by the presence of the scar. It’s generally accepted that most scars have 80% tensile strength of the previous structure, but again might that too be a product of the quality of healing available to the individual?

“ The amount of disorganised fibrous material formed in injured tissue is variable and depends on state of the individual and tissue situation. “

In hypothyroidism, high levels of the pituitary hormone TSH (thyroid stimulating hormone) are known to stimulate fibrosis (1) Maintaining adequate thyroid hormone production promotes DNA transcription, optimal energy production, carbon dioxide production and probably decreases the proliferative effects of 'estrogenic' states that can be attributed to keloid scar formation.

The bigger the scar, the more likely the associated dysfunction? Perhaps the more disorganised tissue that exists, the increased likelihood of fuzziness between the central nervous system and output to structures associated with that scar. In scar tissue that has not been assessed or treated, it's relatively easy to induce weakness or stress to the surrounding tissues by a variety of stimulus which might include thinking and different types of pain,  touch or vectors of stretch that create neurological chaos or threat to to the individual.

Good therapy should allow for conversations between the clinician and patient that create stimulus that may (or may not) affect the output of surrounding structures associated with the scar. Poor feedback mediated by the scar might involve the following:

Emotional: Aspects of recall of the event that the individual finds upsetting.

Nociception/pain: First and second pain, visual or auditory, crude/fine touch, tickle/itch temperature, stress or recall od suffering responses to stimulus. (Involve pain feedback related to spinothalamic, spinotectal, spinohypothalamic and spinomesencephalic tracts)

Mechanical: Pressure, rebound, stretch, joint mechanoreceptors and other responses to tissue and structures. (Related to Golgi, Pacini, Ruffini and other dorsal column feedback pathways.)

Improving the optimal healing of scar tissue might involve aspects such as adequate carbohydrate, proteins, sunlight (or red light), carbon dioxide, thyroid, progesterone, vitamin A and E. Avoiding phytoestrogens and low carbohydrate diets would also be prudent.

Despite optimised nutrition and endocrine function, it’s likely that many scars leave some artefact that prevents the nervous system communicating with tissues. C - sections, episiotomies, appendectomies, laparoscopies and most surgeries, injuries or trauma leave a trace that needs to be resolved with the right therapy. Inhibition can be purposeful but restoration might need a little nudge from therapies like proprioceptive deep tendon reflex (P-DTR).

References:

  1. Kim, D., Kim, W., Joo, S. K., Bae, J. M., Kim, J. H., & Ahmed, A. (2018). Subclinical Hypothyroidism and Low-Normal Thyroid Function Are Associated With Nonalcoholic Steatohepatitis and Fibrosis. Clinical Gastroenterology and Hepatology, 16(1), 123–131.e1. http://doi.org/10.1016/j.cgh.2017.08.014

  2. https://emedicine.medscape.com/article/1298129-overview?pa=1ZDxXAnEOeNV9BUnYezdYpt49YJzASbxEvvw80YIDjlelzZDQj3XLvbI0V2MbTq%2FX8MwC0EECwzp432Skuf9qw%3D%3D

  3. http://raypeat.com/articles/articles/regeneration-degeneration.shtml

Muscles, pain, hormones and other stuff.

As a therapist who works within the fields of pain, movement, energy and digestion I have seen my share of pain and muscle dysfunction in clients. As my exposure to these situations increase, I realise more than ever, that the muscles are very rarely the problem. Specific muscle dysfunction usually boils down to spindle cell

Thyroid pic

dysfunction and notably Nuclear Bag Fibres (NBF) and Nuclear chain Fibres (NCF). The primary roles of these structures are related to stretch and contraction of muscle function. There can be other factors involving neuro transmitters, involved in nocicpetion such as glutamate, utilised in the withdrawal reflex and often referred to as first pain, (also known as Neospinalthalamic tract located in the Anterolateral system or ALS) and lasting, less than a tenth of a second. Problems can arise when the following pain pathway, called second pain (or Paleospinalthalmic tract also part of the ALS) has problematic feedback with first pain, this is mediated by Bradykinin.

Further complexities arise with serotonin and other structures associated with pain such as the Amygdala and Peri Aqueductal Gray (PAG) that are beyond the scope of this short blog. However a common, over looked feature of pain, may arise with hypothyroidism .

Low thyroid function can be classified effectively with assessment of a basal temperature test and a reading of between 36.6 and 37 degrees. Most blood tests designed to measure thyroid hormones such as TSH, T3, T4 and others, often do not reflect accurate function of thyroid hormone. This is often due to feedback loops between cellular function and the Pituitary gland. Some of the regular hallmarks of hypothyroidism are poor energy, weight gain, poor sleep, hair thinning, digestive dysfunction (constipation and also alternating loose stools), cold hands and feet and pain. Here's an old blog on thyroid and adrenalin issues.

Another assessment of thyroid function is the Achilles return reflex. When stimulating the myotactic reflex a hammer hits the Achilles tendon stimulating, the dorsi flexors or calf muscles. The response should be a quick return of the foot to it’s resting position but with low thyroid the foot returns slowly. Low thyroid output equals low ATP (Adenosine Tri Phosphate – the energy used by the mitochondria/cells). This low energy state does not allow for optimal contraction and relaxation. This is where we can see specific issues with NCF and NBF’s within the muscle spindle cell.

Muscle tendons and associated ligaments provide a feedback loop via the Golgi Tendon Organs or GTO’s. There’s potential for pre-existing GTO dysfunction to drive muscle dysfunction and vice versa. As far back as the 1960s symptoms associated with muscle disorder from low thyroid were.

* Weakness

* Cramps pain and stiffness

* Hypertrophy

* Myotonoid features.

A well-documented feature of hypothyroidism is muscular hypertrophied calf muscles and despite their size may often test weak to stimulation.

Muscle pain, may indeed not be muscle related, it may be due to many factors, suggested above and these may even be related to hormones and neurotransmitters. Many people often deal with muscle aches and pains by constantly focusing on mobility work but these structures continually return to their pre mobility work status (although this could also be an underlying stability issue). In reality there can be many factors that create dysfunction such as crude touch, vibration, nociception, Golgi, Pacini-pressure related structures and many more. But even after seeing a skilled therapist, these still don’t appear to get better, then addressing the chemical aspects of pain and function might be the next sensible thing to do.

References:

Armour Laboratories. The Thyroid Gland and Clinical Application of Medicinal Thyroid. 1945.

Ramsay I. Thyroid disease and Muscle Dysfunction. William Heinemann Medical Books. 1974.

Purves, D. et al. Medical Neuroscience. 5th Edition. Sinauer Assocates Inc. 2001

Starr, M Hypothyroidism Type II. Mark Starr Trust 2013.

http://raypeat.com/articles/articles/hypothyroidism.shtml