21-hydroxylase deficiency history and symptoms: Difference between revisions
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{{Congenital adrenal hyperplasia due to 21-hydroxylase deficiency}} | {{Congenital adrenal hyperplasia due to 21-hydroxylase deficiency}} | ||
{{CMG}}; '''Associate Editor-In-Chief:''' {{CZ}} | {{CMG}}; '''Associate Editor-In-Chief:''' {{CZ}} | ||
==Overview== | |||
==History and Symptoms== | |||
== | ===Early-onset: Severe 21-hydroxylase deficient CAH=== | ||
The two most serious neonatal consequences of 21-hydroxylase deficiency occur when there is minimal measurable hydroxylase activity from prenatal life: severe virilization of female infants and life-threatening salt-wasting crises in the first month of life for XX and XY infants alike. | |||
====Virilization of female infants==== | |||
Virilization of genetically female (XX) infants usually produces obvious [[ambiguous genitalia|genital ambiguity]]. Inside the pelvis, the [[ovary|ovaries]] are normal and since they have not been exposed to testicular [[antimullerian hormone]], the [[uterus]], [[fallopian tube]]s, upper [[vagina]], and other mullerian structures are normally formed as well. However, the high levels of testosterone in the blood can enlarge the [[phallus]], partially or completely close the vaginal opening, enclose the [[urethra]]l groove so that it opens at the base of the phallus, on the shaft or even at the tip like a boy. Testosterone can cause the [[labia]]l skin to become as thin and rugated as a [[scrotum]], but cannot produce palpable gonads (i.e., testes) in the folds. | |||
Thus, depending on the severity of hyperandrogenism, a female infant can be mildly affected, obviously ambiguous, or so severely virilized as to appear to be a male. Andrea Prader devised the following Prader scale as a way of describing the degree of virilization. | |||
*An infant at stage 1 has a mildly large [[clitoris]] and slightly reduced vaginal opening size. This degree may go unnoticed or may be simply assumed to be within normal variation. | |||
*Stages 2 and 3 represent progressively more severe degrees of virlization. The genitalia are obviously abnormal to the eye, with a phallus intermediate in size and a small vaginal opening. | |||
*Stage 4 looks more male than female, with an empty scrotum and a phallus the size of a normal penis, but not quite free enough of the perineum to be pulled onto the abdomen toward the umbilicus (i.e., what is termed a [[chordee]] in a male). The single small urethral/vaginal opening at the base or on the shaft of the phallus would be considered a [[hypospadias]] in a male. X-rays taken after dye injection into this opening reveal the internal connection with the upper vagina and uterus. This common opening can predispose to [[urinary obstruction]] and [[urinary tract infection|infection]]. | |||
*Stage 5 denotes complete male virilization, with a normally formed penis with the urethral opening at or near the tip. The scrotum is normally formed but empty. The internal pelvic organs include normal ovaries and uterus, and the vagina connects internally with the urethra as in Stage 4. These infants are not visibly ambiguous are usually assumed to be ordinary boys with [[cryptorchidism|undescended testes]]. In most cases, the diagnosis of CAH is not suspected until signs of salt-wasting develop a week later. | |||
====Salt-wasting crises in infancy==== | |||
The excessive amounts of adrenal testosterone produce little effect on the genitalia of male infants with severe CAH. If a male infant with CAH is not detected by [[newborn screening]], he will appear healthy and normal and be quickly discharged home to his family. | |||
However, the lack of aldosterone results in a high rate of [[sodium]] loss in the urine. Urinary sodium concentrations may exceed 50 mEq/L. With this rate of salt loss, the infant cannot maintain blood volume, and [[hyponatremia|hyponatremic]] [[dehydration]] begins to develop by the end of the first week of life. [[Potassium]] and [[acid]] excretion are also impaired when [[mineralocorticoid]] activity is deficient, and [[hyperkalemia]] and [[metabolic acidosis]] gradually develop. Ability to maintain circulation is further limited by the effect of cortisol deficiency. The early symptoms are spitting and poor weight gain, but most infants with severe CAH develop vomiting, severe dehydration, and circulatory collapse ([[Shock (medical)|shock]]) by the second or third week of life. | |||
===Childhood onset (simple virilizing) CAH=== | |||
Mutations that result in some residual 21-hydroxylase activity cause milder disease, traditionally termed '''simple virilizing CAH''' (SVCAH). In these children the [[mineralocorticoid]] deficiency is insignificant and salt-wasting does not occur. The [[androgen]] excess is mild enough that [[virilization]] is not apparent or goes unrecognized at birth and in early childhood. However, androgen levels are above normal and slowly rise during childhood, producing noticeable effects between 2 and 9 years of age. | |||
== | ===Late onset (nonclassical) CAH=== | ||
Other alleles result in even milder degrees of hyperandrogenism that may not even cause problems in males and may not be recognized until adolescence or later in females. Mild androgen effects in young women may include [[hirsutism]], acne, or [[anovulation]] (which in turn can cause [[infertility]]). Testosterone levels in these woman may be mildly elevated, or simply above average. | |||
==References== | ==References== |
Revision as of 20:58, 3 September 2015
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor-In-Chief: Cafer Zorkun, M.D., Ph.D. [2]
Overview
History and Symptoms
Early-onset: Severe 21-hydroxylase deficient CAH
The two most serious neonatal consequences of 21-hydroxylase deficiency occur when there is minimal measurable hydroxylase activity from prenatal life: severe virilization of female infants and life-threatening salt-wasting crises in the first month of life for XX and XY infants alike.
Virilization of female infants
Virilization of genetically female (XX) infants usually produces obvious genital ambiguity. Inside the pelvis, the ovaries are normal and since they have not been exposed to testicular antimullerian hormone, the uterus, fallopian tubes, upper vagina, and other mullerian structures are normally formed as well. However, the high levels of testosterone in the blood can enlarge the phallus, partially or completely close the vaginal opening, enclose the urethral groove so that it opens at the base of the phallus, on the shaft or even at the tip like a boy. Testosterone can cause the labial skin to become as thin and rugated as a scrotum, but cannot produce palpable gonads (i.e., testes) in the folds.
Thus, depending on the severity of hyperandrogenism, a female infant can be mildly affected, obviously ambiguous, or so severely virilized as to appear to be a male. Andrea Prader devised the following Prader scale as a way of describing the degree of virilization.
- An infant at stage 1 has a mildly large clitoris and slightly reduced vaginal opening size. This degree may go unnoticed or may be simply assumed to be within normal variation.
- Stages 2 and 3 represent progressively more severe degrees of virlization. The genitalia are obviously abnormal to the eye, with a phallus intermediate in size and a small vaginal opening.
- Stage 4 looks more male than female, with an empty scrotum and a phallus the size of a normal penis, but not quite free enough of the perineum to be pulled onto the abdomen toward the umbilicus (i.e., what is termed a chordee in a male). The single small urethral/vaginal opening at the base or on the shaft of the phallus would be considered a hypospadias in a male. X-rays taken after dye injection into this opening reveal the internal connection with the upper vagina and uterus. This common opening can predispose to urinary obstruction and infection.
- Stage 5 denotes complete male virilization, with a normally formed penis with the urethral opening at or near the tip. The scrotum is normally formed but empty. The internal pelvic organs include normal ovaries and uterus, and the vagina connects internally with the urethra as in Stage 4. These infants are not visibly ambiguous are usually assumed to be ordinary boys with undescended testes. In most cases, the diagnosis of CAH is not suspected until signs of salt-wasting develop a week later.
Salt-wasting crises in infancy
The excessive amounts of adrenal testosterone produce little effect on the genitalia of male infants with severe CAH. If a male infant with CAH is not detected by newborn screening, he will appear healthy and normal and be quickly discharged home to his family.
However, the lack of aldosterone results in a high rate of sodium loss in the urine. Urinary sodium concentrations may exceed 50 mEq/L. With this rate of salt loss, the infant cannot maintain blood volume, and hyponatremic dehydration begins to develop by the end of the first week of life. Potassium and acid excretion are also impaired when mineralocorticoid activity is deficient, and hyperkalemia and metabolic acidosis gradually develop. Ability to maintain circulation is further limited by the effect of cortisol deficiency. The early symptoms are spitting and poor weight gain, but most infants with severe CAH develop vomiting, severe dehydration, and circulatory collapse (shock) by the second or third week of life.
Childhood onset (simple virilizing) CAH
Mutations that result in some residual 21-hydroxylase activity cause milder disease, traditionally termed simple virilizing CAH (SVCAH). In these children the mineralocorticoid deficiency is insignificant and salt-wasting does not occur. The androgen excess is mild enough that virilization is not apparent or goes unrecognized at birth and in early childhood. However, androgen levels are above normal and slowly rise during childhood, producing noticeable effects between 2 and 9 years of age.
Late onset (nonclassical) CAH
Other alleles result in even milder degrees of hyperandrogenism that may not even cause problems in males and may not be recognized until adolescence or later in females. Mild androgen effects in young women may include hirsutism, acne, or anovulation (which in turn can cause infertility). Testosterone levels in these woman may be mildly elevated, or simply above average.