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Table 1. Doses of drugs equivalent
to 20 mg of cortisone3
 
Drug 
Equivalent Dose (mg) 
Hydrocortisone 
20 mg 
Prednisone 
5 mg 
Triamcinolone 
4 mg 
Dexamethasone 
0.75 mg 
When the body is unable to produce corticosteroids because of either primary or secondary adrenal insufficiency, replacement therapy is indicated. Patients on long-term systemic steroid have long been advised to take supplemental glucocorticoids or “steroid cover” when undergoing certain types of stressful treatment, including dental procedures.1 The basis for this practice is that exogenous steroids suppress the adrenal function to an extent that insufficient levels of cortisol Click to enlarge.can be produced in response to stress, posing a risk of acute adrenal crisis with hypotension and collapse.1,2 In the past, the “Rule of Twos” was used as a management tool for dental health care providers as the steroid cover protocol for patients who were receiving replacement glucocorticosteroids. The Rule of Twos states that adrenal suppression may occur if a patient is taking 20 mg of cortisone or its equivalent daily, for 2 weeks within 2 years of dental treatment (see Table 1).4-6 In order to avoid an adrenal crisis, corticosteroid supplementation was advised. The adrenal glands7 are small endocrine glands that are found bilaterally on top of the kidneys (see Figure 1). Each gland contains an adrenal cortex and medulla. The medulla primarily secretes epinephrine, whereas the cortex secretes a variety of hormones with multiple actions.8 The adrenal cortex is divided into three zones. The outer zone produces mineralocorticoids (aldosterone) that regulate physiologic levels of sodium and potassium. The inner zone secretes androgens. The middle zone synthesizes glucocorticoids, which are responsible for carbohydrate metabolism and resistance to stress.9 The major glucocorticoid found in the body is cortisol (hydrocortisone). The normal adult secretes 20 mg of cortisol daily and in times of stress, this amount may significantly increase.10

Adrenal Insufficiency

 

Table 2. Conditions for Which
Corticosteroids May Be Used3
If patient is using steroids, patient may be at risk.
 

Corticosteroid Abnormalities
Addison’s disease (deficiency of steroids)
Cushing’s disease (excess steroids)
 

Autoimmune Diseases
Arthritis, rheumatoid
Collagen diseases
     Pemphigus vulgaris
     Psoriasis
     Systemic lupus erythematosus
     Scleroderma
 

Gastrointestinal Disease
Crohn’s Disease
Ulcerative colitis
Inflammatory bowel disease (IBD)
 

Others
Hematologic
Hypercalcemia
Organ transplants
With chemotherapy (antiemetic)
 

The adrenal glands produce aldosterone and cortisol hormones that allow the body to adapt to stress and are vital to survival.11 When there is a lack of these hormones, the body is less able to adapt to stressful situations, and this causes symptoms of adrenal insufficiency. Clinical features of adrenal insufficiency include: weakness, fatigue, weight loss, hypotension, hyperpigmentation of the skin and mucous membranes, nausea, vomiting, abdominal pain, salt craving, and myalgia. Individuals who do not produce a sufficient amount of adrenal hormones may suffer from either primary or secondary adrenal insufficiency. Addison’s Disease or primary adrenal insufficiency is caused by the gradual destruction of the adrenal cortex and affects 1 in 1,000,000 people.12 These patients need lifelong exogenous replacement therapy. Cortisol levels with this disease do not increase in response to stress. Secondary adrenal insufficiency is more 

common12 and may occur in a variety of ways. The first is failure to produce adrenocorticotropic hormone from tumors or infections. Another form of secondary adrenal insufficiency occurs after the surgical removal of the hyperfunctioning gland as seen in Cushing’s Syndrome.13 These patients also need lifelong replacement therapy. A third form of adrenal insufficiency occurs when individuals are administered corticosteroids for a variety of medical uses (Table 2) because of their anti-inflammatory and immunosuppressive properties.2 As therapy continues, the ability of the adrenal glands to produce enough endogenous corticosteroid decreases and a variable degree of disuse atrophy develops. Daily doses of hydrocortisone greater than 20 mg for longer than 2 weeks are likely to suppress the synthesis of cortisol and result in disuse atrophy of the cortisol-secreting cells.6 

Acute Adrenal Insufficiency 

The most adverse outcome of adrenal insufficiency is acute adrenal crisis. This is a true medical emergency, in which the individual is in immediate danger of cortisol insufficiency leading to hypotension, dehydration, shock, and cardiac arrest.1,5 Individuals taking exogenous glucocorticoids (secondary adrenal insufficiency) with resultant disuse atrophy have a decreased response to stress and this may precipitate an adrenal crisis.14 Since acute adrenal insufficiency is primarily a state of mineralocorticoid deficiency, patients with primary Addison’s Disease are more at risk for developing an acute crisis.14 The risk of clinically significant adrenal crisis is low in patients taking long-term steroid medication because the majority of these patients have normal mineralocorticoid levels.1,14 

Table 3. Dental Procedures and
Recommended Corticosteroid
Supplementation in Patients with
Adrenal Insufficiency*2
 

Negligible Risk Category 

Nonsurgical dental procedures
Regimen: No supplementation required
 

Mild Risk Category 

Minor oral surgery: A few simple extractions, biopsy Minor periodontal surgery
Regimen: The glucocorticoid target is about 25 mg of hydrocortisone equivalent (5 mg of prednisone) the day of surgery
 

Moderate to Major Risk Category 

Major oral surgery: Multiple extractions, quadrant periodontal surgery, extraction of bony impactions, osseous surgery, osteotomy, bone resections, cancer surgery, surgical procedures involving general anesthesia, procedures lasting more than 1 hour, procedures associated with significant
blood loss
Regimen: The glucocorticoid target is about 50 to 100 mg per day of hydrocortisone equivalent the day of surgery and for at least 1 post-operative day
 

*General anesthesia, infection, and pain can increase
the risk of adrenal crisis in susceptible patients.
 

Dental Management Considerations 

Recommendations for supplemental corticosteroid for preventing adrenal crisis in dentistry were based primarily on medical reports; only a few analyzed the risks associated with dental procedures. Miller et al2 and Gibson and Ferguson1 searched the literature addressing adrenal crisis in dentistry. Miller et al2 found only four cases published in peer reviewed journals between 1966 and 2000 that reported adrenal crisis related to dental treatment. Their analysis found that: 1. The limited number of cases (four in 35 years) indicated that adrenal crisis is seldom encountered in dentistry. 2. The reports of these four cases were poorly documented, other disorders were not ruled out, and there was lack of evidence that the patients would have responded to other interventions. 3. There were overlapping features to these four cases: use of a general anesthetic, extraction of multiple teeth, low blood pressure at the end of the appointment, adrenal crisis developing 1.5 hours to 5 hours after surgery, and an uncertainty about whether post-operative analgesia was obtained. 4. No controlled, randomized clinical trials have been conducted in patients who have adrenal insufficiency to definitely establish that corticosteroids are required for dental procedures. 5. From these reports, four factors appear to contribute to the risk of adrenal crisis during the perioperative period of oral surgery including the magnitude of the surgery, use of general anesthetic, overall health of the patient, and degree of pain control. 6. Based on the data, these researchers identified risk conditions for adrenal crisis and suggest new guidelines for supplementation (Table 3). 

Conclusions 

Several researchers1,2,14 have concluded that adrenal crisis is a rare event in dentistry, especially for patients with secondary adrenal insufficiency who develop this condition from taking steroids for common medical conditions. Most routine dental procedures, including nonsurgical periodontal therapy, can be performed without glucocoticoid supplementation or steroid cover. Patients with Addison’s Disease are more at risk for developing acute adrenal insufficiency than patients with secondary adrenal insufficiency.14 For this latter group of patients, performance of routine dentistry including minor surgical procedures under local anesthetic does not require supplemental steroids.14 Therefore, the Rule of Twos no longer applies for these individuals. However, the patient’s physician should always be consulted if in doubt. 

 

 

Constance R. Sharuga, RDH, PhD, is an associate professor of Dental Hygiene, Department of Allied Health Sciences, College of Public and Allied Health Sciences at East Tennessee State University, Johnson City, Ten. She has been a dental hygiene educator for more than 25 years. 

References 

1. Gibson N, Ferguson JW. Steroid cover for dental patients on long-term steroid medication: proposed clinical guidelines based upon a critical review of the literature. Br Dent J. 2004;197:681- 685.
2. Miller CS, Little JW, Falace DA. Supplemental corticosteroids for dental patients with adrenal insufficiency: reconsideration of the problem. J Am Dent Assoc. 2001;132:1570-1579.
3. Haveles EB. Applied Pharmacology for the Dental Hygienist. 5th Ed. St. Louis: Mosby; 2007:355.
4. Muzyka BC. Revisiting the use of glucocorticosteroids in dentistry. Pract Periodontics Aesthet Dent. 2000;12(9):814.
5. Requa-Clark B. Applied Pharmacology for the Dental Hygienist. 4th Ed. St. Louis: Mosby; 2000:415.
6. Malamed S. Medical Emergencies in the Dental Office. 5th Ed. St. Louis: Mosby; 2000:149.
7. Pickett FA, Gurenlian JR. The Medical History: Clinical Implications and Emergency Prevention in Dental Settings. Philadelphia: Lippincott Williams and Wilkins; 2005:128.
8. Image of adrednal glands. Available at: www.womenandinfants.com/healthGate/images/exh45027_ma.jpg. Acessed May 27, 2008.
9. Little JW, Fallace DA, Miller CS, Rhodus NL. Dental Management of the Medically Compromised Patient. 6th Ed. St. Louis: Mosby; 2002:271.
10. Reynolds EC. Pharmacodynamics of antiinflammatory and immunosuppressive drug therapies. Journal of Practical Hygiene. 2000;9(6):24-27.
11. Brunton LL, Lazo JS, Parker KL. Goodman and Gilman’s The Pharmacological Basis of Therapeutics. 11th Ed. New York: McGraw-Hill; 2006.
12. Nunn P. Medical emergencies in the oral health care setting. J Dent Hyg. 2000;74:136-151.
13. National Endocrine and Metabolic Diseases Information Service. Available at: http://endocrine.niddk.nih.gov/pubs/addison /addison.htm. Accessed May 27, 2008.
14. Venes D, Thomas CL. Tabor’s Cyclopedic Medical Dictionary. 19th Ed. Philadelphia: F.A. Davis Co; 2001:515.
 


From Dimensions of Dental Hygiene. June;6(6): 16-17, 19.

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