Cortisol is an essential glucocorticoid hormone, a subgroup of steroid hormones, the major hormone secreted by the adrenal glands. Hormones are messenger substances, substances produced in one gland or area of the body that move through the blood and stimulate activity in other glands or areas.
Glucocorticoid hormones affect carbohydrate and protein metabolism. Steroid hormones are hormones related to cholesterol. Hypercortisolemia refers to high amounts of circulating cortisol and may be a pathological or non-pathological condition.
Pathological hypercortisolemia, or Cushing’s syndrome, named after the United States surgeon, Harvey Cushing (1869–1939), may result from a lung cancer, tumor of the pituitary or adrenal glands, or from kidney failure.
Nonpathological hypercortisolemia is a normal response of pregnancy, and to such traumas, as accidents or surgery (including circumcision, studies show), some forms of depression and stress. Over time, continued exposure to trauma and stress may produce chronic hypercortisolemia and result in serious long-term debilitating illness.
Causes and symptoms
The natural regulation of cortisol is governed by a circular feedback response system. Output is initiated when pituitary gland secretions of adrenocorticotropin hormone (ACTH) travel to and stimulate the adrenal glands located atop the kidneys near the middle of the upper back. From the adrenals, cortisol travels to its target tissues, initiating a series of reactions known as the “flight-or-fight” response.
Information from these target tissues is monitored by the brain. If the messages received tell the brain that more help is needed, the pituitary gland is stimulated to secrete more ACTH, which stimulates increased secretion of cortisol. The most significant feedback factor is stress.
When stress levels are reported to the brain as high, high levels of cortisol are released in response. When stress remains high indefinitely, cortisol levels may also remain high indefinitely, producing a series of biochemical, physiological and even anatomical reactions.
Normally, cortisol output has a diurnal and circadian rhythm, rising in the morning, falling at night, and changing with the seasons. Changes related to work-sleep cycles affect this rhythm, and changes in the rhythm affect night time sleep patterns. Changes in the length of daylight hours, blindness, and loss of consciousness also affects the rhythm.
Cortisol target tissues include:
- blood vessels
- immune system
Another serious consequence may be the eventual fatigue and failure of the adrenal glands. Cushing’s syndrome classic symptoms include, in addition to “normal” longterm symptoms, a “moon face” (rounded), thinning of the skin accompanied by purple or pink stretch marks and easy bruising, acne, increased facial and body hair and decreased scalp hair in women, and fatigue.
Initial diagnosis may be made through the office of a family practice physician or internist on the basis of signs and symptoms, physical examination, and lab work including testing levels of circulating cortisol. Three types of testing are available to check cortisol levels: 24-hour urine collection; blood testing; and, saliva sampling.
The 24-hour urine collection test is done at home beginning after the first urination of the morning and finishing after the first urination of the following day. This test can be done on infants. No special preparation is necessary.
The test is described as not uncomfortable. Special considerations were reported to include emotional or physical stress and medications: lithium, diuretics, estrogen, tricyclic antidepressants, ketoconazole, and glucocorticoids.
Blood testing requires a visit to a lab, where blood is drawn and then analyzed. This test can be performed on infants, children and adults. Preparation for the test may include discontinuation of medications similar to those medications listed above, as advised by one’s healthcare provider.
Some people experience pain or trauma with blood drawing, which may affect test results. Results may also be affected by the timing of the blood draw, since cortisol normally varies rhythmically. Risks of a blood test include bruising, pain, excessive bleeding, infection, fainting or the need for multiple punctures. Saliva sampling is done at home by collecting four samples at specific times of day.
Unlike the urine collection method that produces a daily average, or the blood test that produces a single-spot sampling, saliva sampling produces a time-wave pattern for a more amplified diagnosis. Preparation includes discontinuation of medications listed with the other two methods, as well as a short list of foods and drinks, antacids, tooth brushing, and smoking prior to sampling.
Cost comparisons were not reported. Test results may suggest followup care with an endocrinologist, who is a specialist in glandular and hormonally related disease, for further testing and diagnosis.
Preventive alternative care may focus on stress reduction primarily. Since stress may be induced by emotional demands, dietary and nutritional imbalances, subclinical illness (illness which may not have fully shown itself), and physical inactivity, an alternative-minded medical doctor, a licensed naturopathic physician, or other professional alternative healthcare provider may first work to reestablish balance through lifestyle changes specific to individual need.
Treatment may include counseling; dietary and nutritional therapies; energy therapies, such as Reiki, tai-chi, qi gong, chakra balancing or Healing Touch; Traditional chinese medicine, including chinese herbals and acupuncture; chiropractic; Ayurvedic medicine; environmental medicine; homeopathy; relaxation therapy; biofeedback; craniosacral work; massage; exercise therapies; shamanism; and faith-based therapies, including prayer, meditation, yoga and other spiritual exercises.
Dietary supplement products to block cortisol or correct underlying dietary and nutritional insufficiencies are also being advertised. Assistance from a professional healthcare provider is recommended.
Initial allopathic care may focus on antidepressants, hypoglycemics (drugs that lower blood sugar), sedatives, or anti-hypertensives (drugs that lower blood pressure), medications to correct underlying or related imbalances.
Discontinuance of such steroidal medications as prednisone, dexamethasone (Decadron), and methylprednisone (Medrol) may be warranted or advised. Treatment may also include higher protein recommendations to combat muscle wasting, or therapies which support kidney function.
In hypercortisolemia that has not progressed to serious disease, prognosis may be very good when committed changes in lifestyle are made. The prognosis may be further improved when medications are avoided which either intensify the imbalance, or overlook or disguise an underlying cause, thereby adding further stress.
In Cushing’s syndrome, or where hypercortisolemia has progressed to chronic disease, prognosis may be complicated by a need for difficult surgery, chemotherapy, or radiation. Follow up supplemental administration of cortisol may be required. Where surgery or other direct control of adrenal output is not an option, administration of cortisol output suppressing medications may be necessary.
Given that stress is the single most influential feedback signal to the brain, a reasonable conclusion is that stress reduction is the single most influential prevention. Lifestyle changes, strategies, and therapies that reduce or eliminate stress, directly by reducing burden, or indirectly by improving underlying health, are key.
One theory in medicine is that if preventive intervention can be made before an organ or gland is exhausted, especially if supportive, strengthening or tonifying remedies and therapies are also employed, good health can be restored, and a higher quality of life preserved.