Mechanistically, the causes of pelvic floor dysfunction are two-fold: widening of the pelvic floor hiatus and descent of pelvic floor below the pubococcygeal line, with specific organ prolapse graded relative to the hiatus. Associations include obesity, menopause, pregnancy and childbirth. Some women may be more likely to developing pelvic floor dysfunction because of an inherited deficiency in their collagen type. Some women may have congenitally weak connective tissue and fascia and are therefore at risk of stress urinary incontinence and pelvic organ prolapse.
Pelvic floor dysfunction is common for many women and includes symptoms that can affect all aspects of everyday life and activities. Pelvic floor muscle (PFM) training is vital for treating different types of pelvic floor dysfunction. Two common problems are uterine prolapse and urinary incontinence both of which stem from muscle weakness. Without the ability to control PFM, pelvic floor training cannot be done successfully. Being able to control PFM is vital for a well functioning pelvic floor. Through vaginal palpation exams and the use of biofeedback the tightening, lifting, and squeezing actions of these muscles can be determined. In addition, abdominal muscle training has been shown to improve pelvic floor muscle function. By increasing abdominal muscle strength and control, a person may have an easier time activating the pelvic floor muscles in sync with the abdominal muscles. Many physiotherapists are specially trained to address the muscles weaknesses associated with pelvic floor dysfunction and through intervention can effectively treat this.
Patients may meet individually with a dedicated nurse educator who provides a focused session on bowel management techniques. Central to the process is a daily regimen that combines an evening dose of fiber supplement with a morning routine of mild physical activity; a hot, preferably caffeinated beverage; and, possibly, a fiber cereal followed by another cup of a hot beverage — all within 45 minutes of waking. This routine augments early morning high-amplitude peristaltic contractions by incorporating multiple colon stimulators.
Surface electrodes (self-adhesive pads placed on your skin) can test your pelvic muscle control. This might be an option if you don’t want an internal exam. The electrodes are placed on the perineum (the area between the vagina and rectum in women, and between the testicles and rectum in men) or on the sacrum (the triangular bone at the base of your spine). This test is not painful.
Nerves, organs, and joints can lose their natural mobility over time and cause a whole host of symptoms from pain, to loss of range of motion, and poor functioning of the bodily symptoms. Skilled and specialized therapists can use a variety of active techniques (patient assisted) and passive techniques to free up restrictions in these tissues and organs and improve overall function.
Myofascial release was developed by John Barnes to evaluate and treat the myo-fascia throughout the body. The myofascial system is the connective tissue that coats our muscles, nerves, blood vessels, and bones, and runs throughout our bodies. Any tightness or dysfunction in the myofascial system can affect the aforementioned structures and result in pain and or movement dysfunction. By treating the fascia directly, therapists can improve their patient’s range of motion, reduce pain, and improve a patient’s structure and movement patterns.
In order for the processes of urination and defecation to go smoothly, the various muscles within the pelvis need to act in a coordinated manner. In some cases, the muscles contract when they should be relaxing, or the muscles do not relax sufficiently to facilitate coordinated movement. Problems with the pelvic floor muscles can lead to urinary difficulties and bowel dysfunction. PFD is experienced by both men and women.
To assess the degree of dysfunction, three measurements must be taken into account. First, an anatomic landmark known as the pubococcygeal line must be determined, which is a straight line connecting the inferior margin of the pubic symphysis at the midline with the junction of the first and second coccygeal elements on a sagittal image. After this, the location of the puborectalis muscle sling is assessed, and a perpendicular line between the pubococcygeal line and muscle sling is drawn. This provides a measurement of pelvic floor descent, with descent greater than 2 cm being considered mild, and 6 cm being considered severe. Lastly, a line from the pubic symphysis to the puborectalis muscle sling is drawn, which is a measurement of the pelvic floor hiatus. Measurements of greater than 6 cm are considered mild, and greater than 10 cm severe. The degree of organ prolapse is assessed relative to the hiatus. The grading of organ prolapse relative to the hiatus is more strict, with any descent being considered abnormal, and greater than 4 cm being considered severe.
When some or all of these structures of the pelvic floor are not functioning properly, they can cause a multitude of different symptoms. People who are suffering from bowel, bladder, and or sexual problems, as well as those who are suffering from pain in the pelvis, upper legs, abdomen or buttocks most likely have pelvic floor impairments contributing to their pain.