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Congenital Adrenal Hyperplasia

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Definition

Congenital adrenal hyperplasia is (CAH) a genetic disorder characterized by a deficiency in the hormones cortisol and aldosterone and an over-production of the hormone androgen, which is present at birth and affects sexual development.

Description

CAH is a form of adrenal insufficiency in which the enzyme that produces two important adrenal steroid hormones, cortisol and aldosterone, is deficient. Because cortisol production is impeded, the adrenal gland instead overproduces androgens (male steroid hormones). Females with CAH are born with an enlarged clitoris and normal internal reproductive tract structures. Males have normal genitals at birth. CAH causes abnormal growth for both sexes; patients will be tall as children and short as adults. Females develop male characteristics, and males experience premature sexual development.

In its most severe form, called salt-wasting CAH, a life-threatening adrenal crisis can occur if the disorder is untreated. Adrenal crisis can cause dehydration, shock, and death within 14 days of birth. There is also a mild form of CAH that occurs later in childhood or young adult life in which patients have partial enzyme deficiency.

CAH, a genetic disorder, is the most common adrenal gland disorder in infants and children, occurring in one in 10,000 total births worldwide. It affects both females and males. It is also called adrenogenital syndrome.

— Jennifer Sisk


 
 
Sci-Tech Dictionary: adrenogenital syndrome
(ə¦drēn·ō′jen·ə·təl ′sin′drōm)

(medicine) A group of symptoms associated with hypersecretion of adrenal cortex hormones; effects vary with sex and time of development.

 
Dental Dictionary: adrenogenital syndrome

n

Disorder of sexual development or function associated with abnormal adrenocortical function resulting from bilateral adrenal hyperplasia, carcinoma, or adenoma. Pseudohermaphroditism occurs congenitally, and masculinization occurs later in females. Precocious sexual development and occasionally feminization occur in males.

 
Children's Health Encyclopedia: Congenital Adrenal Hyperplasia

Definition

Congenital adrenal hyperplasia (CAH) is a genetic disorder characterized by a deficiency in the hormones cortisol and aldosterone and an over-production of the hormone androgen. CAH is present at birth and affects the sexual development of the child.

Description

Congenital adrenal hyperplasia (CAH) is a form of adrenal insufficiency in which 21-hydroxylase, the enzyme that produces two important adrenal steroid hormones, cortisol and aldosterone, is deficient. Because cortisol production is impeded, the adrenal gland over-produces androgens (male steroid hormones). CAH affects both females and males. Females with CAH are born with an enlarged clitoris and normal internal reproductive tract structures. Males have normal genitals at birth. CAH causes abnormal growth for both sexes; those affected will be tall as children but short as adults because of early bone maturation. Females develop male characteristics, and males experience premature sexual development.

In its most severe form, called salt-wasting (or salt-losing) CAH, where there is a total or near total deficiency of the 21-hydroxylase enzyme, a life-threatening adrenal crisis can occur if the disorder is untreated. Adrenal crisis can cause dehydration, shock, and death within 14 days of birth. There is also a milder form of CAH in which children have partial 21-hydroxylase enzyme deficiencies (simple virilizing form). Another type of CAH is characterized by only a slight deficiency in production of the 21-hydroxylase enzyme (nonclassic or late-onset form), in which symptoms occurs later in childhood or during young adolescence.

CAH is also called adrenogenital syndrome or 21-hydroxylase deficiency.

Demographics

CAH, a genetic disorder, is the most common adrenal gland disorder in infants and children, occurring in one in 10,000 total births worldwide.

Causes and Symptoms

CAH is an inherited recessive disorder, which means that a child must inherit one copy of the defective gene from each parent who is a carrier; when two carriers have children, each pregnancy carries a 25 percent risk of producing an affected child. CAH is related to the deficiency of 21-hydroxylase, an enzyme that is required to transform cholesterol into cortisol. The 21-hydroxylase gene is made by a gene located on the short arm of chromosome 6. This gene is located in an area of the chromosome that contains many other important genes whose products control immune function. Various mutations of the 21-hydroxylase gene result in various degrees of CAH (salt-losing form, simple-virilizing form, and the nonclassic form). When 21-hydroxylase is deficient, this leads to a hyperfunction and increased size (hyperplasia) of the adrenals.

In females, CAH produces an enlarged clitoris at birth, with the urethral opening at the base (ambiguous genitalia, appearing more male than female) and masculinization of features as the child grows, such as deepening of the voice, facial hair, and failure to menstruate or abnormal periods at puberty. The internal structures of the reproductive tract, including the ovaries, uterus, and fallopian tubes, are normal. Females with severe CAH may be mistaken for males at birth. In males, the genitals are normal at birth, but the child becomes muscular, the penis enlarges, pubic hair appears, and the voice deepens long before normal puberty, sometimes as early as two to three years of age. At puberty, the testes are small.

In the severe salt-wasting form of CAH, newborns may develop symptoms shortly after birth, including vomiting, dehydration, electrolyte (a compound such as sodium or calcium that separates to form ions when dissolved in water) changes, and cardiac arrhythmias. If not treated, this form of CAH can result in death within one to six weeks after birth.

In the mild form of CAH, which occurs in late childhood or early adulthood, symptoms include premature development of pubic hair, irregular menstrual periods, unwanted body hair, or severe acne. However, sometimes there are no symptoms, and children affected are diagnosed because of an affected relative.

When to Call the Doctor

Many cases of CAH will be detected at birth, but in milder cases, symptoms may not develop until later, at which time medical care should be obtained. For children with more severe cases of CAH, regular medical care is necessary to achieve desired treatment results.

Diagnosis

CAH is diagnosed by a careful examination of the genitals and blood and urine tests that measure the hormones produced by the adrenal gland. A number of states in the United States perform a hormonal test (a heel prick blood test) for CAH and other inherited diseases within a few days of birth. In questionable cases, genetic testing can provide a definitive diagnosis. For some forms of CAH, prenatal diagnosis is possible through chronic villus sampling in the first trimester and by measuring certain hormones in the amniotic fluid during the second trimester.

Treatment

The goal of treatment for CAH is to return the androgen levels to normal. This is usually accomplished through drug therapy, although surgery may be an alternative for children with little or no enzyme activity. Lifelong treatment for CAH is required.

Drug therapy consists of use of a cortisol-like steroid medications called glucocorticoids. Oral hydrocortisone is prescribed for younger children, and prednisone or dexamethasone is prescribed for older children. Side effects of steroids include stunted growth. Steroid therapy should not be suddenly stopped, since adrenal insufficiency will result. Treatment results must be monitored carefully, because of large individual variations in enzyme deficiency in children with CAH.

For children with salt-wasting CAH, fludrocortisone (Florinef), which acts like aldosterone (the missing hormone), is also prescribed. Infants and small children may also receive salt tablets, while older children are encouraged to eat salty foods. Serum electrolytes must be checked frequently, especially for children with salt-wasting CAH, to assure that normal levels of sodium and potassium are maintained.

Medical therapy achieves hormonal balance most of the time, but at times appropriate levels can be hard to maintain. CAH patients may have periods of fluctuating hormonal control that lead to increases in the dose of steroids prescribed. Sometimes these doses can become excessive as needs later decrease, leading to growth inhibition.

Increased doses may also be required when the child has a fever or a serious injury (a broken bone). If children are vomiting their oral medicine, have severe diarrhea, are unconscious, or cannot take anything by mouth before surgery, they may need to receive their medications by injections.

Children with CAH should see a pediatric endocrinologist frequently. The endocrinologist will assess height, weight, and blood pressure, and order an annual x ray of the wrist (to assess bone age), as well as assess blood hormone levels. If they require medical treatment, CAH children with the milder form of the disorder are usually effectively treated with hydrocortisone or prednisone.

Females with CAH who have masculine external genitalia require surgery to reconstruct the clitoris and/or vagina. This is usually performed when the child is an infant. However, some doctors and parents believe that the best time for vaginal surgery is during adolescence.

An experimental type of drug therapy—a three-drug combination, with an androgen blocking agent (flutamide), an aromatase inhibitor (testolactone), and low dose hydrocortisone—was as of 2004 being studied by physicians at the National Institutes of Health. Preliminary results are encouraging, but it will be many years before the safety and effectiveness of this therapy is fully known.

Adrenalectomy, a surgical procedure to remove the adrenal glands, is a more radical treatment for CAH. It was widely used before the advent of steroids. In the early 2000s, it is recommended for CAH children with little or no enzyme activity and can be accomplished by laparoscopy. This is a minimally invasive type of surgery done through one or more small one-inch (2.5 cm) incisions and a laparoscope, an instrument with a fiber-optic light containing a tube with openings for surgical instruments. Adrenalectomy is followed by hormone therapy, but in lower doses than CAH patients not treated surgically receive.

Prognosis

CAH can be controlled and successfully treated in most patients as long as they remain on drug therapy.

Prevention

Prenatal therapy, in which a pregnant woman at risk for a second CAH child is given dexamethasone to decrease secretion of androgens by the adrenal glands of the female fetus, has been in use since 1994. This therapy is started in the first trimester when fetal adrenal production of androgens begins but before prenatal diagnosis is done that would provide definitive information about the sex of the fetus and its disease status. This means that a number of fetuses are exposed to unnecessary steroid treatment in order to prevent the development of male-like genitals in female fetuses with CAH. Several hundred children have undergone this treatment with no major adverse effects, but its long-term risks are unknown. Since there is very little data on the effectiveness and safety of prenatal therapy, it should only be offered to patients who clearly understand the risks and benefits and who are capable of complying with strict monitoring and follow-up throughout pregnancy and after the child is born.

Parental Concerns

Parents with a family history of CAH or who have a child with CAH should seek genetic counseling. Genetic testing during pregnancy can provide information on the risk of having a child with CAH.

Because children with CAH may not always be able to administer their own treatment (because they are too young or they are unconscious), parents are encouraged to make sure that the child with CAH wears a medical identification bracelet or necklace (Medic-Alert) stating that the child takes glucocorticoids and possibly Florinef. This notifies medical personnel to administer stress doses of medicines if needed.

When taking a child with CAH for emergency care, parents are advised to refer to the condition by its full name rather than CAH. This is because this rare disease could be confused with another condition that shares the same initials: chronic active hepatitis. The parents should inform medical personnel if the child has salt-wasting CAH. It is also recommended that parents have a letter or information prepared concerning CAH and care needed so that this can be given to a new doctors who may treat the child.

Parents should be sensitive to the psychological aspects of the disease and obtain counseling for children with CAH. Topics of concern might include an understanding of the disease, the life-long requirement for medication, genital surgery, and sexuality.

Resources

Books

Congenital Adrenal Hyperplasia: A Medical Dictionary, Bibliography, and Annotated Research Guide. San Diego, CA: Icon Group International, 2004.

Periodicals

Gmyrek, Glenn A., et al. "Bilateral Laparoscopic Adrenalectomy as a Treatment for Classic Congenital Adrenal Hyperplasia Attributable to 21-Hydroxylase Deficiency." Pediatrics 109 (February 2002): 28.

Organizations

American Academy of Pediatrics. 141 Northwest Point Blvd., Elk Grove Village, IL 60007–1098. Web site: www.aap.org/.

National Adrenal Diseases Foundation. 510 Northern Blvd., Great Neck, NY 11021. Web site: www.medhelp.org/nadf/.

Web Sites

"Congenital Adrenal Hyperplasia Due to 21-Hydroxylase Deficiency: A Guide for Patients and Their Families." Johns Hopkins Children's Center. Available online at www.hopkinsmedicine.org/pediatricendocrinology/cah/ (accessed December 8, 2004).

[Article by: Judith Sims
Jennifer Sisk]


 
Wikipedia: congenital adrenal hyperplasia
CAH redirects here. For other meanings of CAH see CAH (disambiguation)


Congenital adrenal hyperplasia
Classification & external resources
Cortisol
ICD-10 E25.0
ICD-9 255.2
OMIM 201910 201710 202110 201810 202010
DiseasesDB 1854 1832 4 1841 2565
MedlinePlus 000411
eMedicine ped/48 
MeSH D000312

Congenital adrenal hyperplasia (CAH) refers to any of several autosomal recessive conditions resulting from biochemical paths of the steroidogenesis of cortisol from cholesterol by the adrenal glands. Most of these conditions involve greater or lesser production of sex steroids and can alter development of primary or secondary sex characteristics in affected infants, children, and adults. Only a small minority of people with CAH can be said to have an intersex condition, but this attracted American public attention in the late 1990s and many accounts of varying accuracy have appeared in the popular media.

Examples of conditions caused by various forms of CAH:

Overview of the multiple types of CAH

Production of DHEA from Cholesterol. (Cortisol is a glucocorticoid.)

Cortisol is an adrenal steroid hormone necessary for life; production begins in the second month of fetal life. Inefficient cortisol production results in rising levels of ACTH, which in turn induces overgrowth (hyperplasia) and overactivity of the steroid-producing cells of the adrenal cortex. The defects causing adrenal hyperplasia are congenital (i.e., present at birth).

Cortisol deficiency in CAH is usually partial, and not the most serious problem for an affected person. Synthesis of cortisol shares steps with synthesis of mineralocorticoids such as aldosterone, androgens such as testosterone, and estrogens such as estradiol. The resulting excessive or deficient production of these three classes of hormones produce the most important problems for people with CAH. Specific enzyme inefficiencies are associated with characteristic patterns of over- or underproduction of mineralocorticoids or sex steroids.

In all its forms, congenital adrenal hyperplasia due to 21-hydroxylase deficiency accounts for about 95% of diagnosed cases of CAH. Unless another specific enzyme is mentioned, "CAH" in nearly all contexts refers to 21-hydroxylase deficiency.

  • Severe 21-hydroxylase deficiency causes salt-wasting CAH, with life-threatening vomiting and dehydration occurring within the first weeks of life. Severe 21-hydroxylase deficiency is also the most common cause of ambiguous genitalia due to prenatal virilization of genetically female (XX) infants.
  • Moderate 21-hydroxylase deficiency is referred to as simple virilizing CAH; and typically is recognized by causing virilization of prepubertal children.
  • Still milder forms of 21-hydroxylase deficiency are referred to as non-classical CAH and can cause androgen effects and infertility in adolescent and adult women.

CAH due to deficiencies of enzymes other than 21-hydroxylase present many of the same management challenges as 21-hydroxylase deficiency, but some involve mineralocorticoid excess or sex steroid deficiency.

Further variability is introduced by the degree of enzyme inefficiency produced by the specific alleles each patient has. Some alleles result in more severe degrees of enzyme inefficiency. In general, severe degrees of inefficiency produce changes in the fetus and problems in prenatal or perinatal life. Milder degrees of inefficiency are usually associated with excessive or deficient sex hormone effects in childhood or adolescence, while the mildest form of CAH interferes with ovulation and fertility in adults.

Finally, specific problems may also differ with the genetic sex of the affected person. For example, the most common type of CAH, due to deficient 21-hydroxylase activity, can produce ambiguous genitalia in XX fetuses but not XY.

Treatment of all forms of CAH may include any of:

  1. supplying enough glucocorticoid to reduce hyperplasia and overproduction of androgens or mineralocorticoids
  2. providing replacement mineralocorticoid and extra salt if the person is deficient
  3. providing replacement testosterone or estrogen at puberty if the person is deficient
  4. additional treatments to optimize growth by delaying puberty or delaying bone maturation
  5. genital reconstructive surgery to correct problems produced by abnormal genital structure

All of these management issues are discussed in more detail in congenital adrenal hyperplasia due to 21-hydroxylase deficiency.

Genetics

All involved genes are autosomal. See the table under 'Biochemistry' subheading for chromosomal locations.

Because they code for enzymes with amplifiable activity, noticeable effects only occur in people with two defective alleles of these genes. Hundreds of different allelic mutations of these genes have been reported. Nearly always, each parent of an affected person is an unaffected heterozygote (i.e., asymptomatic carrier of one defective gene and one normal gene and has no ill effects). Each child of that pair of parents has a 25% chance of being affected, "having CAH". Prenatal diagnosis and heterozygote detection are now possible.

Although mutations leading to the various forms of CAH have been found all over the world, there are substantial differences in the carrier rates of specific abnormal alleles in different regions and ethnic groups.

Biochemistry


Common medical term OMIM no. Enzyme(s) Gene location Substrate(s) Product(s)
21-hydroxylase CAH Mendelian Inheritance in Man (OMIM) 201910 P450c21 6p21.3 17OH-progesterone→
progesterone		 11-deoxycortisol
DOC
lipoid CAH
(20,22-desmolase)		 Mendelian Inheritance in Man (OMIM) 201710 StAR
P450scc		 8p11.2
15q23-q24		 transport of cholesterol
cholesterol		 into mitochondria
pregnenolone
17α-hydroxylase CAH Mendelian Inheritance in Man (OMIM) 202110 P450c17 10q24.3 pregnenolone
progesterone
17OH-pregnenolone→		 17OH-pregnenolone
17OH-progesterone
DHEA
3β-HSD CAH Mendelian Inheritance in Man (OMIM) 201810 3βHSD II 1p13 pregnenolone
17OH-pregnenolone→
DHEA		 progesterone
17OH-progesterone
androstenedione
11β-hydroxylase CAH Mendelian Inheritance in Man (OMIM) 202010 P450c11β 8q21-22 11-deoxycortisol→
DOC→		 cortisol
corticosterone

Abbreviations:

Since the 1960s most endocrinologists have referred to the forms of CAH by the traditional names in the left column, which generally correspond to the deficient enzyme activity. As exact structures and genes for the enzymes were identified in the 1980s, most of the enzymes were found to be cytochrome P450 oxidases and were renamed to reflect this. In some cases, more than one enzyme was found to participate in a reaction, and in other cases a single enzyme mediated in more than one reaction. There was also variation in different tissues and mammalian species.

History

An Italian anatomist, Luigi De Crecchio provided the earliest known description of a case of probable CAH.

I propose in this narrative that it is sometimes extremely difficult and even impossible to determine sex during life. In one of the anatomical theaters of the hospital..., there arrived toward the end of January a cadaver which in life was the body of a certain Joseph Marzo... The general physiognomy was decidedly male in all respects. There were no feminine curves to the body. There was a heavy beard. There was some delicacy of structure with muscles that were not very well developed... The distribution of pubic hair was typical of the male. Perhaps the lower extremities were somewhat delicate, resembling the female, and were covered with hair... The penis was curved posteriorly and measured 6 cm, or with stretching, 10 cm. The corona was 3 cm long and 8 cm in circumference. There was an ample prepuce. There was a first grade hypospadias... There were two folds of skin coming from the top of the penis and encircling it on either side. These were somewhat loose and resembled labia majora.

De Crecchio then described the internal organs, which included a normal vagina, uterus, tubes, and ovaries.

It was of the greatest importance to determine the habits, tendencies, passions, and general character of this individual... I was determined to get as complete a story as possible, determined to get at the base of the facts and to avoid undue exaggeration which was rampant in the conversation of many of the people present at the time of the dissection.

He interviewed many people and satisfied himself that Joseph Marzo "conducted himself within the sexual area exclusively as a male, "even to the point of contracting the "French disease" on two occasions. The cause of death was another in a series of episodes of vomiting and diarrhea.

This account, translated by Alfred Bongiovanni from De Crecchio (Sopra un caso di apparenzi virili in una donna. Morgagni 7:154-188, 1865), contains nearly all the important themes and issues. Were this man's male gender identity, role, and orientation determined by his anatomy, by his testosterone, or by his sex of rearing? His presumed female chromosomes and gonads obviously did not make him female. Yet despite his careful documentation of Marzo's unambiguous social role, De Crecchio rejects his male identity and describes him as "una donna," revealing the 19th century assumption that a person's "true sex" can be determined by inspection of internal organs. Then as now, such a case prompted "undue exaggeration" and much "conversation." And then as now, we see the conflict between the desire of the scientist to learn and understand, and the sense of violation of poor Joseph Marzo's privacy. Finally, were the episodes of vomiting and diarrhea the salt-wasting of CAH?

The association of excessive sex steroid effects with diseases of the adrenal cortex have been recognized for over a century. The term adrenogenital syndrome was applied to both sex-steroid producing tumors and severe forms of CAH for much of the 20th century, before some of the forms of CAH were understood. Congenital adrenal hyperplasia, which also dates to the first half of the century, has become the preferred term to reduce ambiguity and to emphasize the underlying pathophysiology of the disorders.

Much of our modern understanding and treatment of CAH comes from research conducted at Johns Hopkins Medical School in Baltimore in the middle of the 20th century. Lawson Wilkins, "founder" of pediatric endocrinology, worked out the apparently paradoxical pathophysiology: that hyperplasia and overproduction of adrenal androgens resulted from impaired capacity for making cortisol. He reported use of adrenal cortical extracts to treat children with CAH in 1950. Genital reconstructive surgery was also pioneered at Hopkins. After application of karyotyping to CAH and other intersex disorders in the 1950s, John Money, JL Hampson, and JG Hampson persuaded both the scientific community and the public that sex assignment should not be based on any single biological criterion, and gender identity was largely learned and has no simple relationship with chromosomes or hormones. See Intersex for a fuller history, including recent controversies over reconstructive surgery.

Hydrocortisone, fludrocortisone, and prednisone were available by the late 1950s. By 1980 all of the relevant steroids could be measured in blood by reference laboratories for patient care. By 1990 nearly all specific genes and enzymes had been identified.

However, the last decade has seen a number of new developments, discussed more extensively in congenital adrenal hyperplasia due to 21-hydroxylase deficiency:

  1. debate over the value of genital reconstructive surgery and changing standards
  2. debate over sex assignment of severely virilized XX infants
  3. new treatments to improve height outcomes
  4. newborn screening programs to detect CAH at birth
  5. increasing attempts to treat CAH before birth

See also

External links

Endocrine pathology: endocrine diseases (E00-35, 240-259)
Thyroid Hypothyroidism (Iodine deficiency, Cretinism, Congenital hypothyroidism, Goitre, Myxedema) - Hyperthyroidism (Graves disease, Toxic multinodular goitre, Teratoma with thyroid tissue or Struma ovarii) - Thyroiditis (De Quervain's thyroiditis, Hashimoto's thyroiditis, Riedel's thyroiditis) - Euthyroid sick syndrome
Pancreas Diabetes mellitus (type 1, type 2, coma, angiopathy, ketoacidosis, nephropathy, neuropathy, retinopathy) - Hypoglycemia - Hyperinsulinism - Zollinger-Ellison syndrome
Parathyroid Hypoparathyroidism (Pseudohypoparathyroidism) - Hyperparathyroidism (Primary, Secondary, Tertiary)
Pituitary Hyperpituitarism (Acromegaly, Hyperprolactinaemia, SIADH) - Hypopituitarism (Simmonds' disease/Sheehan's syndrome, Kallmann syndrome, Growth hormone deficiency, Diabetes insipidus)
Adrenal Cushing's syndrome (Nelson's syndrome, Pseudo-Cushing's syndrome) - CAH (due to 21-hydroxylase deficiency) - Hyperaldosteronism (Conn syndrome, Bartter syndrome) - Adrenal insufficiency (Addison's disease) - Hypoaldosteronism
Gonads Polycystic ovary syndrome - 5-alpha-reductase deficiency - Hypogonadism - Delayed puberty - Precocious puberty
Other Autoimmune polyendocrine syndrome - Carcinoid syndrome - Laron syndrome - Multiple endocrine neoplasia (1, 2) - Psychogenic dwarfism - Androgen insensitivity syndrome - Progeria

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