Can abdominal surgery cause epilepsy, panic and anxiety and be reversed with breathing biofeedback?*Posted: March 5, 2016
“I had colon surgery six months ago. Although I made no connection to my anxiety, it just started to increase and I became fearful and I could not breathe. The asthma medication did not help. Learning effortless diaphragmatic breathing and learning to expand my abdomen during inhalation allowed me to breathe comfortably without panic and anxiety—I could breathe again.” (72 year old woman)
“One year after my appendectomy, I started to have twelve seizures a day. After practicing effortless diaphragmatic breathing and changing my lifestyle, I am now seizure-free.” (24 year old male college student)
One of the hidden long term costs of surgery and injury is covert learned disuse. Learned disuse occurs when a person inhibits using a part of their body to avoid pain and compensates by using other muscle patterns to perform the movements (Taub et al, 2006). This compensation to avoid discomfort creates a new habit pattern. However, the new habit pattern often induces functional impairment and creates the stage for future problems.
Many people have experienced changing their gait while walking after severely twisting their ankle or breaking their leg. While walking, the person will automatically compensate and avoid putting weight on the foot of the injured leg or ankle. These compensations may even leads to shoulder stiffness and pain in the opposite shoulder from the injured leg. Even after the injury has healed, the person may continue to move in the newly learned compensated gait pattern. In most cases, the person is totally unaware that his/her gait has changed. These new patterns may place extra strain on the hip and back and could become a hidden factor in developing hip pain and other chronic symptoms.
Similarly, some women who have given birth develop urinary stress incontinence when older. This occurred because they unknowingly avoided tightening their pelvic floor muscles after delivery because it hurt to tighten the stretched or torn tissue. Even after the tissue was healed, the women may no longer use their pelvic floor muscles appropriately. With the use of pelvic floor muscle biofeedback, many women with stress incontinence can rapidly learn to become aware of the inhibited/forgotten muscle patterns (learned disuse) and regain functional control in nine sessions of training (Burgio et al., 1998; Dannecker et al., 2005). The process of learned disuse is the result of single trial learning to avoid pain. Many of us as children have experienced this process when we touched a hot stove—afterwards we tended to avoid touching the stove even when it was cold.
Often injury will resolve/cure the specific problem. It may not undo the covert newly learned dysfunctional patterns which could contribute to future iatrogenic problems or illnesses (treatment induced illness). These iatrogenic illnesses are treated as a new illness without recognizing that they were the result of functional adaptations to avoid pain and discomfort in the recovery phase of the initial illness.
Surgery creates instability at the incision site and neighboring areas, so our bodies look for the path of least resistance and the best place to stabilize to avoid pain. (Adapted from Evan Osar, DC).
After successful surgical recovery do not assume you are healed!
Yes, you may be cured of the specific illness or injury; however, the seeds for future illness may be sown. Be sure that after injury or surgery, especially if it includes pain, you learn to inhibit the dysfunctional patterns and re-establish the functional patterns once you have recovered from the acute illness. This process is described in the two cases studies in which abdominal surgeries appeared to contribute to the development of anxiety and uncontrolled epilepsy.
How abdominal surgery can have serious, long-term effect on changing breathing patterns and contributing to the development of chronic illness.
When recovering from surgery or injury to the abdomen, it is instinctual for people to protect themselves and reduce pain by reducing the movement around the incision. They tend to breathe more shallowly as not to create discomfort or disrupt the healing process (e.g., open a stitch or staple. Prolonged shallow breathing over the long term may result in people experiencing hyperventilation induced panic symptoms or worse. This process is described in detail in our recent article, Did You Ask about Abdominal Surgery or Injury? A Learned Disuse Risk Factor for Breathing Dysfunction (Peper et al., 2015). The article describes two cases studies in which abdominal surgeries led to breathing dysfunction and ultimately chronic, serious illnesses.
Reducing epileptic seizures from 12 per week to 0 and reducing panic and anxiety
A routine appendectomy caused a 24-year-old male to develop rapid, shallow breathing that initiated a series of up to 12 seizures per week beginning a year after surgery. After four sessions of breathing retraining and incorporating lifestyle changes over a period of three months his uncontrolled seizures decreased to zero and is now seizure free. In the second example, a 39-year-old woman developed anxiety, insomnia, and panic attacks after her second kidney transplant probably due to shallow rapid breathing only in her chest. With biofeedback, she learned to change her breathing patterns from 25 breaths per minute without any abdominal movement to 8 breathes a minute with significant abdominal movement. Through generalization of the learned breathing skills, she was able to achieve control in situations where she normally felt out of control. As she practiced this skill her symptoms were significantly reduced and stated:
“What makes biofeedback so terrific in day-to-day situations is that I can do it at any time as long as I can concentrate. When I feel I can’t concentrate, I focus on counting and working with my diaphragm muscles; then my concentration returns. Because of the repetitive nature of biofeedback, my diaphragm muscles swing into action as soon as I started counting. When I first started, I had to focus on those muscles to get them to react. Getting in the car, I find myself starting these techniques almost immediately. Biofeedback training is wonderful because you learn techniques that can make challenging situations more manageable. For me, the best approach to any situation is to be calm and have peace of mind. I now have one more way to help me achieve this.” (From: Peper et al, 2001).
The commonality between these two participants was that neither realized that they were bracing the abdomen and were breathing rapidly and shallowly in the chest. I highly recommend that anyone who has experienced abdominal insults or surgery observe their breathing patterns and relearn effortless breathing/diaphragmatically breathing instead of shallow, rapid chest breathing often punctuated with breath holding and sighs.
It is important that medical practitioners and post-operative surgery patients recognize the common covert learned disuse patters such as shifting to shallow breathing to avoid pain. The sooner these patterns are identified and unlearned, the less likely will the person develop future iatrogenic illnesses. Biofeedback is an excellent tool to help identify and retrain these patterns and teach patients how to reestablish healthy/natural body patterns.
The full text of the article see: “Did You Ask About Abdominal Surgery or Injury? A Learned Disuse Risk Factor for Breathing Dysfunction,”
Burgio, K. L., Locher, J. L., Goode, P. S., Hardin, J. M., McDowell, B. J., Dombrowski, M., & Candib, D. (1998). Behavioral vs drug treatment for urge urinary incontinence in older women: a randomized controlled trial. Jama, 280(23), 1995-2000.
Dannecker, C., Wolf, V., Raab, R., Hepp, H., & Anthuber, C. (2005). EMG-biofeedback assisted pelvic floor muscle training is an effective therapy of stress urinary or mixed incontinence: a 7-year experience with 390 patients. Archives of Gynecology and Obstetrics, 273(2), 93-97.
Osar, E. (2016). http://www.fitnesseducationseminars.com/
Peper, E., Castillo, J., & Gibney, K. H. (2001, September). Breathing biofeedback to reduce side effects after a kidney transplant. In Applied Psychophysiology and Biofeedback (Vol. 26, No. 3, pp. 241-241). 233 Spring St., New York, NY 10013 USA: Kluwer Academic/Plenum Publ.
Peper, E., Gilbert, C.D., Harvey, R. & Lin, I-M. (2015). Did you ask about abdominal surgery or injury? A learned disuse risk factor for breathing dysfunction. Biofeedback. 34(4), 173-179. DOI: 10.5298/1081-5937-43.4.06
Taub, E., Uswatte, G., Mark, V. W., Morris, D. M. (2006). The learned nonuse phenomenon: Implications for rehabilitation. Europa Medicophysica, 42(3), 241-256.