Factors determining final height in congenital adrenal hyperplasia

Congenital adrenal hyperplasia (CAH) is a family of adrenal disorders whereby cortisol biosynthesis is impaired or abolished. In most cases, CAH is caused by a deficiency of the enzyme 21-hydroxylase causing a massive build up of adrenal precursors. In addition to prenatal virilisation of genetic females and postnatal virilisation of both males and females, short adult stature is characteristic of the disorder. The inadequate final height in CAH patients is often attributed to overtreatment with glucocorticoid replacement and poor control of adrenal androgen levels. In a recent study, the use of growth hormone alone and in combination with gonadotropin releasing hormone analogue in children with CAH and poor predicted final height was found to decrease height deficit after one and two years of treatment.

Prenatal diagnosis of steroid 21-hydroxylase deficiency by allele-specific amplification

OBJECTIVE

Congenital adrenal hyperplasia due to steroid 21-hydroxylase deficiency (21-OHD) is the most common cause of ambiguous genitalia in females at birth. Here, we report the first prenatal diagnosis of 21-OHD by DNA analysis in Hungary.

METHODS

Allele-specific amplification (ASA) of the DNA obtained by chorionic villus sampling was performed.

RESULTS

The fetus had a homozygous nonsense mutation (Gln318Stop), suggesting a salt-wasting phenotype. Dexamethasone treatment of the mother was started on the 8th gestational week and, as the fetus was an affected female, it was continued until term. The newborn had normal external genitalia at birth, and severe salt-wasting crisis and postnatal virilization was prevented by mineralo- and glucocorticoid replacement therapy.

CONCLUSION

21-OHD was genotyped by ASA, and virilization of the fetus was prevented by antenatal dexamethasone therapy.

Congenital adrenal hyperplasia: management during critical illness

BACKGROUND

Little is known of the optimal dose and administration schedule of hydrocortisone in critically ill patients with congenital adrenal hyperplasia (CAH) caused by 21-hydroxylase deficiency.

AIM

To determine plasma cortisol concentrations after intravenous administration of hydrocortisone in children with CAH and to relate these to plasma cortisol concentrations achieved by endogenous secretion in the stress of critical illness in previously healthy children.

METHODS

Plasma cortisol concentrations were measured in 20 patients with classical CAH (median age 11.2 years, range 6.1-16.4) following intravenous administration of hydrocortisone 15 mg/m(2); and in 60 critically ill mechanically ventilated children (median age 2.5 years, range 0.25-16.3) on admission to the paediatric intensive care unit and for 24 hours thereafter.

RESULTS

In the CAH patients, plasma cortisol reached a mean peak of 1648.3 nmol/l (SD 511.9) within 10 minutes of the intravenous bolus, and fell rapidly thereafter; levels remained greater than 450 nmol/l for 2.5 hours only. In critically ill children, mean plasma cortisol on admission to the intensive care unit was 727 nmol/l (SD 426.1). Cortisol concentrations remained raised during the first 24 hours.

CONCLUSIONS

Critically ill patients with classical CAH may be best managed with a single intravenous hydrocortisone bolus followed by a constant rate infusion of hydrocortisone.

Adrenal nodules in patients with congenital adrenal hyperplasia due to 21-hydroxylase deficiency: regression after adequate hormonal control

Adrenal nodules have been described in patients with 21-hydroxylase deficiency (21OHD). These nodules are usually considered to be ACTH-dependent, as is the commonly seen diffuse cortical hyperplasia. We evaluated the presence and behavior of adrenal nodules in patients with 21OHD. Based upon hormonal status and treatment compliance, the patients were classified into three categories: poor, regular and good control. Out of the 26 patients, eight had the non-classic, four salt-wasting and 14 simple virilizing forms. All patients underwent initial adrenal morphological studies, either by CT or MRI. Those with nodules were reevaluated after 12 months of adequate replacement therapy. Nodules were found in four of eight untreated patients and two of three patients with poor hormonal control, but not in the 15 patients with regular or good control. Adrenal nodules in these six patients demonstrated a considerable size reduction and even disappearance after adequate replacement therapy, showing that these nodules were ACTH-dependent. Thus, six out of 26 patients with 21OHD presented adrenal nodules, which were more frequent in the untreated or poorly-controlled patients, and all regressed in size after adequate therapy.

Growth hormone therapy alone or in combination with gonadotropin-releasing hormone analog therapy to improve the height deficit in children with congenital adrenal hyperplasia

Short stature in the adult patient with congenital adrenal hyperplasia (CAH) is commonly seen, even among patients in excellent adrenal control during childhood and puberty. In this study we examine the effect of GH therapy on height prediction in children with both CAH and compromised height prediction. Leuprolide acetate, a GnRH analog (GnRHa), was given to patients with evidence of early puberty. GH (n = 12) or the combination of GH and GnRHa (n = 8) was administered to 20 patients with CAH while they continued therapy with glucocorticoids. Each patient in the treatment group was matched according to age, sex, bone age, puberty, and type of CAH with another CAH patient treated only with glucocorticoid replacement. The match was made at the start of GH treatment. Of the 20 patients, 12 have completed 2 yr of therapy. After 1 yr of GH or combination GH and GnRHa therapy, the mean growth rate increased from 5 +/- 1.9 to 7.8 +/- 1.6 cm/yr vs. 5.4 +/- 1.7 to 5 +/- 2 cm/yr in the group not receiving GH (P < 0.0001). During the second year of treatment, the mean growth rate was 6 +/- 1.6 vs. 4.2 +/- 2.1 cm/yr in the group not receiving GH (P < 0.001). The height SD score for chronological age in the treatment group at the end of 1 and 2 yr of treatment improved significantly more than the nontreatment group (P < 0.01). A similar improvement in the height SD score for bone age was found in the treatment group after 1 (-1.4 +/- 0.9 vs. -1.7 +/- 0.9; P < 0.0001) and 2 yr of therapy (-0.67 +/- 0.68 vs. -1.7 +/- 1.2; P < 0.0004). The mean predicted adult height improved from 159 +/- 11 (baseline) to 170 +/- 7.5 cm (after 2 yr of therapy) closely approximating target height (173 +/- 8 cm). All patients continued the hydrocortisone treatment. In patients with CAH and compromised height prediction, treatment with GH or the combination of GH and GnRHa results in an improvement of growth rate and height prediction and a reduction in height deficit for bone age.

Bioavailability of oral hydrocortisone in patients with congenital adrenal hyperplasia due to 21-hydroxylase deficiency

The management of congenital adrenal hyperplasia due to 21-hydroxylase (CYP21) deficiency requires glucocorticoid substitution with oral hydrocortisone given twice or thrice daily. In paediatric practice little is known of the bioavailability of oral hydrocortisone tablets used in these patients. The aim of this study was to assess the bioavailability of oral hydrocortisone and to evaluate current replacement therapy in the light of cortisol pharmacokinetic properties. We determined the bioavailability of hydrocortisone following oral and intravenous administration in sixteen (median age: 10.9 years, range: 6.0-18.4 years) adequately controlled CYP21 deficient patients. Serum total cortisol concentrations were measured at 20-min intervals for 24 h while patients were on oral substitution therapy, and at 10-min intervals for 6 h following an intravenous bolus of hydrocortisone in a dose of 15 mg/m(2) body surface area. The area under the serum total cortisol concentration versus time curve (AUC) following oral and intravenous administration of hydrocortisone was calculated using the trapezoid method. The bioavailability was estimated by dividing the corrected for dose AUC after oral hydrocortisone administration by the corrected for dose AUC after the intravenous hydrocortisone administration and was exemplified as a percentage. After oral administration of hydrocortisone in the morning, median serum total cortisol concentrations reached a peak of 729.5 nmol/l (range: 492-2520 nmol/l) at 1.2 h (range: 0.3-3.3 h) and declined monoexponentially thereafter to reach undetectable concentrations 7 h (range: 5-12 h) after administration. Following administration of the evening hydrocortisone dose, median peak cortisol concentration of 499 nmol/l (range: 333-736 nmol/l) was attained also at 1.2 h (range: 0.3-3.0 h) and subsequently declined gradually, reaching undetectable concentrations at 9 h (5-12 h) after administration of the oral dose. After the intravenous hydrocortisone bolus a median peak serum total cortisol concentration of 1930 nmol/l (range: 1124-2700 nmol/l) was observed at 10 min (range: 10-20 min). Serum cortisol concentrations fell rapidly and reached undetectable levels 6 h after the hydrocortisone bolus. The absolute bioavailability of oral hydrocortisone in the morning was 94.2% (90% confidence interval (CI): 82.8-105.5%) whereas the apparent bioavailability in the evening was estimated to be 128.0% (90% CI: 119.0-138.0%). We conclude that the bioavailability of oral hydrocortisone is high and may result in supraphysiological cortisol concentrations within 1-2 h after administration of high doses. The even higher bioavailability in the evening, estimated using as reference the data derived from the intravenous administration of hydrocortisone bolus in the morning, is likely to reflect a decrease in the hydrocortisone clearance in the evening. Decisions on the schedule and frequency of administration in patients with congenital adrenal hyperplasia should be based on the knowledge of the bioavailability and other pharmacokinetic parameters of the hydrocortisone formulations currently available.

Prenatal treatment of congenital adrenal hyperplasia. The United States experience

Based on the author's experience, prenatal diagnosis and treatment of 21-hydroxylase deficiency is safe and effective in significantly reducing or eliminating virilization in the affected female, and the same outcome seems to be true in the treatment of 11 beta-hydroxylase deficiency. Prenatal treatment spares the newborn female the consequences of genital ambiguity, genital surgery, sex misassignment, and gender confusion. Of the monogenic disorders, steroid 21- and 11 beta-hydroxylase deficiency are two of the few in which prenatal treatment is effective and influences postnatal life.

New ideas for medical treatment of congenital adrenal hyperplasia

During the past 50 years since the discovery of cortisone therapy as an effective treatment for CAH, many advances have been made in the management of 21-hydroxylase deficiency. Despite these advances, the clinical management of patients with CAH is often complicated by abnormal growth and development, iatrogenic Cushing's syndrome, inadequately treated hyperandrogenism, and infertility. New treatment approaches to classic CAH represent potential solutions to these unresolved issues. At the National Institutes of Health, a long-term randomized clinical trial is investigating a new treatment regimen: a reduced hydrocortisone dose, an antiandrogen, and an aromatase inhibitor. Peripheral blockade of androgens may also be helpful in the adult woman with CAH and PCOS. Other promising new treatment approaches include LHRH agonist-induced pubertal delay with or without growth hormone therapy, alternative glucocorticoid preparations or dose schedules, CRH antagonist treatment, and gene therapy. The applicability and success of these new approaches await the results of current research.

Cognitive function in congenital adrenal hyperplasia

Cognition in patients with CAH has not been as well studied as other aspects of psychologic function. Nevertheless, it is possible to make some conclusions and to offer a number of hypotheses for further study (Table 1). First, patients with CAH do not seem to have an overall intellectual advantage as a direct consequence of the disease. The high IQs reported in some groups of patients with CAH are also reported in their siblings and probably reflect sampling bias. Second, it is possible that, on average, patients with salt-wasting CAH have lower overall ability than patients with the simple-virilizing form, but both groups are well within the normal range, and there is considerable variability among both groups. Third, the evidence to date does not confirm that patients with CAH are more likely to have diagnosable learning disabilities when compared with their unaffected relatives, but this issue has not been well studied with the appropriate psychoeducational assessments. It is unlikely that patients with CAH are at substantially increased risk for frank learning disabilities, but they may be likely to have problems in specific areas. Fourth, females with CAH seem to have enhanced spatial ability as a result of exposure to high levels of androgens early in development. The neural substrate of this advantage is unknown but a subject of active research. It is unclear whether when compared with their unaffected siblings, females with CAH are better in other abilities that are typically performed best by males or worse in abilities typically performed best by females. Fifth, it is likely that patients with CAH have other cognitive changes as a consequence of disease characteristics (besides androgens) and of the treatment of the disease. Some evidence suggests that patients with CAH are more likely to have white-matter brain changes produced by the disease and its treatment. This has not been well studied but should be because of the potential clinical implications. It is reasonable to hypothesize that there will be cognitive changes that reflect effects of undertreatment (e.g., ACTH effects on attention) and other changes that reflect effects of overtreatment (e.g., glucocorticoid effects on memory). Some of these effects may be transient, reflecting acute brain changes, whereas others may become chronic as a result of permanent brain changes with repeated exposure. There is need for continuing study of cognition in patients with CAH. Such studies will provide basic information about hormonal effects on cognition and the neural mechanisms that mediate those effects. They will also provide important clinical information to guide psychologic and medical treatment of patients.

Congenital adrenal hyperplasia owing to 3 beta-hydroxysteroid dehydrogenase deficiency

Recent advances in the genetics of the family of 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) enzymes have helped in the understanding of the molecular basis and hormonal phenotype of bona fide 3 beta-HSD deficiency congenital adrenal hyperplasia (CAH). This article revisits the clinical spectra of 3 beta-HSD deficiency disorders, pathophysiology of 3 beta-HSD deficiency CAH, and updates genotype findings and diagnostic hormonal criteria for bona fide classic and nonclassic 3 beta-HSD deficiency CAH. The delta-5 steroid abnormality for the nonclassic 3 beta-HSD deficiency CAH, proven by genotype study, is substantially greater than the hormonal criteria for the disorder published before the advent of molecular information on the gene encoding adrenals and gonads in humans. In hyperandrogenic children and women, the pathogenic mechanism of a subtle abnormality in adrenal 3 beta-HSD activity, determined by modestly elevated ACTH stimulated delta-5 steroid levels, which led to the diagnosis of mild nonclassic 3 beta-HSD deficiency in the past, is outside of the type II 3 beta-HSD gene which encodes adrenals and gonads in humans and remains to be further explored.

Pregnancy outcomes in women with congenital virilizing adrenal hyperplasia

Although low fertility rates have traditionally been reported among women with classic CAH and especially among women with the salt-wasting variant, more recent data suggest that fertility rates are significantly improved, largely owing to earlier treatment of CAH, improved compliance with therapy, and surgical advances in genital reconstruction. Furthermore, ovulation induction and assisted reproductive techniques are now available to women who remain infertile despite effective adrenal androgen suppression. Although the pregnancy experience in women with classic CAH remains limited, it is apparent that, once pregnant, these women have a high probability of successful outcome. Key issues should be emphasized in the management of CAH during gestation, including the need for assessing adrenal steroid replacement and adrenal androgen suppression, particularly in light of the interplay between maternal hyperandrogenism and the protective effect of placental aromatase activity, which provides a relatively large margin of safety for the female fetus. Maternal hormone levels should be evaluated in the context of laboratory-specific reference ranges for pregnancy. The infant should be examined for ambiguous genitalia and monitored for evidence of adrenal insufficiency. Although an affected female infant with classic CAH has not been reported as a pregnancy outcome of a mother with classic virilizing CAH, these concerns should be discussed during preconception counseling. Patients should also be aware of the importance of medication compliance and careful hormonal monitoring during the entire pregnancy. In most cases, successful gestational management requires the close coordination of care between the obstetrician and endocrinologist.

Successful treatment with ICSI of infertility caused by azoospermia associated with adrenal rests in the testes: case report

Congenital adrenal hyperplasia (CAH) is a well-recognized, but uncommon, cause of azoospermia and infertility in men. Commonly this is due to undertreatment of excessive adrenal androgen secretion which suppresses gonadotrophin stimulation of the testes. A less common complication of CAH is development of adrenal tissue within the testes; this is important to recognize because it may be confused with malignancy leading to unnecessary surgery. In this case report, a man is described with simple virilizing CAH due to 21-hydroxylase deficiency who presented with azoospermia and was found to have adrenal rests. Investigations concluded that there was adequate adrenal suppression with glucocorticoids and that azoospermia was due to obstruction by adrenal rest tissue, strategically situated at the hilum of the testes. Spermatozoa were able to be retrieved by testicular aspiration from the man and these were used to successfully establish a pregnancy using intracytoplasmic sperm injection of his wife's oocytes.

Antenatal diagnosis and treatment of congenital adrenal hyperplasia

Congenital adrenal hyperplasia (CAH) is a family of monogenic autosomal recessive disorders of steroidogenesis in which enzymatic defects result in impaired synthesis of cortisol by the adrenal cortex. The adrenal 21-hydroxylase (21-OH) enzyme is one of five enzymes necessary for the synthesis of cortisol from cholesterol, and its deficiency is the most common enzymatic defect causing CAH. 21-OH deficiency (21-OHD) occurs in a classical form that can cause genital ambiguity at birth in genetic females. Newborn males have normal genitalia. Prenatal treatment of 21-hydroxylase deficiency with dexamethasone has been used for approximately 15 years. An algorithm was developed for prenatal diagnosis and treatment.

Hydrocortisone suspension and hydrocortisone tablets are not bioequivalent in the treatment of children with congenital adrenal hyperplasia

In July 1998, Cortef oral suspension (Pharmacia & Upjohn) was reformulated changing the suspending agent tragacanth to xanthan gum. We subsequently observed suboptimal control of hormone levels in a group of children with classic congenital adrenal hyperplasia, despite increasing doses of Cortef suspension and stringent instructions to parents regarding shaking of the bottles of medication. Nineteen children receiving Cortef and fludrocortisone therapy were changed to hydrocortisone tablets and fludrocortisone, with a 10 percent reduction in hydrocortisone dose. A significant decrease in 17-hydroxyprogesterone (235 +/- 120 vs. 27 +/- 7 nmol/L; p</=0.001) and androstenedione (18.9 +/- 18.0 vs. 3.5 +/- 3.5 nmol/L; p=0.002) was observed 4-6 weeks later. Twenty-one percent (4/19) had 17-hydroxyprogesterone and androstenedione levels at or below the detection limit of the assay. Despite a significant reduction in glucocorticoid dose (19.6 +/- 4.7 vs. 17.6 +/- 3.9 mg/M(2)/day; p<0.001), eight children experienced significant weight gain and appetite increase, three experienced trouble sleeping, four experienced moodiness, and three developed hypertension requiring a decrease in fludrocortisone therapy. Hydrocortisone dose was further decreased to 15.2 +/- 2.6 mg/M(2)/day with resolution of symptoms. We conclude that Cortef suspension and hydrocortisone tablets are not bioequivalent and the reformulated form of hydrocortisone oral suspension was inadequate in the control of children with congenital adrenal hyperplasia. Cortef suspension has been recalled as a result of these data.

Height outcome in congenital adrenal hyperplasia caused by 21-hydroxylase deficiency: a meta-analysis

OBJECTIVE

To investigate adult heights attained by patients with 21-hydroxylase deficiency and to perform a meta-analysis of height outcomes reported in this population.

STUDY DESIGN

A retrospective chart review of our patients >5 years of age (n = 65) who were followed up from 1978 to 1998 for 21-hydroxylase deficiency was conducted. Final height (FH) SD scores and target height (TH) SD scores were determined. The impact of sex, time of diagnosis, and compliance was assessed. Meta-analysis of results from 18 studies was performed; TH was available for 204 of 561 patients.

RESULTS

Mean FH SD score-TH SD score for our 65 patients was -1.03. For the meta-analysis, mean weighted FH SD score for all 561 patients was -1.37, whereas weighted mean FH SD score-TH SD score for the 204 patients for whom TH was available was -1.21. No difference in outcome was seen for males compared with females, although a statistically significant difference was seen for patients identified early versus late.

CONCLUSIONS

Adult height in patients with 21-hydroxylase deficiency is often within 1 SD of TH. Early diagnosis and good compliance appear to improve the outcome. Rather than pursuing alternate therapies for congenital adrenal hyperplasia, efforts may instead be focused on early detection and improved compliance with traditional medical therapy.

Bone mass and body composition of adult women with congenital virilizing 21-hydroxylase deficiency after glucocorticoid treatment since infancy

AIM

To study bone mass, body composition and androgenic/anabolic activity in adult women with virilizing congenital adrenal hyperplasia (CAH) treated with glucocorticoids since infancy and to relate this to the postmenarcheal glucocorticoid impact.

PATIENTS AND METHODS

Thirteen adult women with virilizing CAH treated with gluco- and mineralocorticoids but otherwise medicine-free were investigated with respect to bone mineral content, body composition by dual energy X-ray absorptiometry and endocrine status. In addition an index of accumulated postmenarcheal exogenous glucocorticoid impact was calculated. Seven of the patients had regular menstrual periods, and six were oligomenorrheic but responded with withdrawal bleedings on cyclic progestagens. The data for the patients were compared with those of age-matched healthy reference subjects.

RESULTS

In spite of their shorter stature, CAH patients were significantly heavier and had a significantly higher body mass index and fat/lean body mass ratio than the controls. Their bone mineral area density (BMD) was significantly lower than that of the controls. Serum concentrations of androgens were subnormal in all except two of the patients. Strong negative associations were found between BMD and the calculated index of accumulated postmenarcheal glucocorticoid dose but not between BMD and circulating androgen levels.

CONCLUSION

The results indicate that glucocorticoids were administered in excess in most of the patients, resulting in subnormal levels of adrenocortical androgens, increased body fat and bone demineralization. Increased catabolic activity due to hypercortisolism rather than decreased androgenic/anabolic steroids is probably the major cause of the subnormal BMD in the treated CAH patients.

Effect of treatment on growth in congenital adrenal hyperplasia

In 22 patients with congenital adrenal hyperplasia (CAH), the effect of treatment on growth was evaluated retrospectively. The degree of control with treatment had generally been assessed by measurements of serum 17-hydroxyprogesterone (17-OHP) and/or urinary pregnanetriol levels. In 20 patients, there were no significant differences in both height SDS for bone age (-2.05 +/- 1.89 vs -1.85 +/- 1.30) and height SDS for chronological age (CA) (0.23 +/- 1.94 vs -0.36 +/- 1.81) in a mean uninterrupted treatment period of 5.80 +/- 3.58 years. Further analysis in salt-losers and nonsalt-losers separately showed that height SDS for bone age had decreased in the salt-losers and had increased in the nonsalt-losers. Six patients had signs of early puberty. In 22 patients, there was a negative correlation between the prednisolone dose on one hand and height velocity SDS for CA and bone age velocity on the other. It was also found that the mean serum levels of 17-OHP did not always reflect the degree of long term control measured by auxological parameters. These findings indicate that our treatment in the patients did not result in a significant improvement in height prognosis. We can conclude that growth prognosis in CAH patients can be improved by relying on auxological parameters rather than serum 17-OHP and urinary pregnanetriol levels for monitoring control. Special attention should be paid to salt-losers in this respect.

Dexamethasone treatment of virilizing congenital adrenal hyperplasia: the ability to achieve normal growth

OBJECTIVE

To assess whether treatment of virilizing congenital adrenal hyperplasia (CAH) with long-acting glucocorticoids is associated with favorable growth outcomes.

METHOD

We examined the long-term growth of 17 boys and 9 girls with CAH treated with dexamethasone (.27 +/-.01 mg/m(2)/day).

RESULTS

For individuals with comparable bone age (BA) and chronological age (CA) at the onset of dexamethasone therapy, males were 2.8 +/-.8 years (mean +/- standard error of the mean; n = 13) and females were 2.4 +/- 1.0 years (n = 6). Males were treated for 7.3 +/- 1.1 years (DeltaCA) over which time the change in BA (DeltaBA) was 7.0 +/- 1.3 years, and the change in height age (DeltaHA) was 6.9 +/- 1.1 years. Females were treated for 6.8 +/- 1.3 years, over which time the DeltaBA was 6.5 +/- 1.0 years, and the DeltaHA was 6.3 +/-.8 years. During treatment 17 ketosteroid excretion rates were normal for age and 17-hydroxyprogesterone values were 69.6 +/- 18 ng/dL. Testicular enlargement was first detected at 10.7 +/-.8 years and breast tissue at 9.9 +/- 1.2 years. Three boys and 1 girl had final heights of 171. 8 +/- 6 cm and 161 cm, respectively, compared with midparental heights of 176.1 +/- 4.1 cm and 160 cm. Predicted adult heights for 6 other boys and 5 girls were 176.8 +/- 2.0 cm and 161.4 +/- 2.8 cm, respectively, compared with midparental heights of 174.6 +/- 1.4 cm and 158.2 +/- 2.0 cm. Statural outcomes were less favorable for 7 children started on dexamethasone when BAs were considerably advanced, although height predictions increased during therapy.

CONCLUSIONS

These observations show that children treated with dexamethasone for CAH can achieve normal growth with the convenience of once-a-day dosing in most cases.congenital adrenal hyperplasia, dexamethasone, growth.

Glucocorticoid receptors in patients with congenital adrenal hyperplasia

To determine the glucocorticoid receptor (GC-R) status in congenital adrenal hyperplasia (CAH) we examined 11 patients (5 female, 6 male) with 21-hydroxylase deficiency and 3 patients (2 female, 1 male) with 11beta-hydroxylase deficiency. The mean age at investigation was 8.9+/-3.5 yr. Age of diagnosis was 4.4+/-3.2 yr and all patients were being treated with hydrocortisone. The control group included 10 (5 female, 5 male) age-matched healthy children. Blood samples were drawn at 0800 a.m. after an overnight fast in all subjects and after 5 days off treatment in patients with CAH. Serum cortisol (in all children), and serum 17-hydroxyprogesterone and androstenedione (in the patient group) were measured by radioimmunoassay. Mononuclear leukocytes were isolated from peripheral blood and the binding of [3H]dexamethasone to GC-R was examined. GC-R number and the dissociation constant (Kd), which is inversely proportional to its binding affinity, were determined. Mean GC-R numbers were 5814+/-1574 and 6816+/-1647; mean Kd values were 3.6+/-1.5 nM and 4.2+/-0.7 nM in patient and control groups, respectively. There were no significant differences in these parameters between the two groups. Neither receptor number nor binding affinity correlated with basal serum cortisol levels in either group. In the patient group, no correlation was observed between replacement hydrocortisone doses and either morning serum cortisol levels or GC-R number. The higher binding affinity and requirement of higher hydrocortisone dose might have been due to a compensatory response to increased clearance of glucocorticoids. In conclusion, GC-R parameters are not changed in patients with CAH and the variability of glucocorticoid replacement doses may be related to other functional defects of GC-R and glucocorticoid pharmacokinetics.

Adrenocortical hyperresponsivity to adrenocorticotropic hormone: a mechanism favoring the normal production of cortisol in 21-hydroxylase-deficient nonclassic adrenal hyperplasia

OBJECTIVE

To test the hypothesis that patients with nonclassic adrenal hyperplasia (NCAH) exhibit a generalized exaggeration in their response to ACTH stimulation that favors the normal production of F. Patients with 21-hydroxylase (21-OH)-deficient NCAH do not demonstrate cortisol (F) deficiency.

DESIGN

Prospective controlled study.

SETTING

Tertiary university clinic.

PATIENT(S)

Twenty-four untreated patients with NCAH diagnosed by a 17 alpha-hydroxyprogesterone (17-HP) level of >30.3 nmol/L (>10 ng/mL), and 37 age- and body mass-matched healthy eumenorrheic nonhirsute controls.

INTERVENTION(S)

All study subjects underwent a 60 minute acute stimulation using 0.25 mg of ACTH-(1-24) i.v.

MAIN OUTCOME MEASURE(S)

Basal and stimulated serum levels of pregnenolone (PREG), 17-hydroxypregnenolone (17-HPREG), dehydroepiandrosterone (DHA), progesterone (P4), 17-HP, androstenedione (A4), 11-deoxycortisol (S), and cortisol (F).

RESULT(S)

The median basal (i.e., Steroid(0)) or ACTH-stimulated (i. e., Steroid(60)) serum levels of PREG, 17-HPREG, DHA, P4, 17-HP, A4 and, most importantly, S were higher in NCAH patients than in controls. In contrast, the levels of F at either 0 minute or 60 minutes of stimulation were similar between NCAH and control women. The proportion of NCAH patients with stimulated steroids levels of >the 95th percentile of controls were as follows: 84.21% for PREG(60), 87.5% for 17-HPREG(60), 95.8% for DHA(60), 89.5% for P4(60), 100% for 17-HP(60), 91.7% for A4(60), 29.2% for S(60), and 4. 1% for F(60).

CONCLUSION(S)

A generalized adrenocortical hyperresponsivity to ACTH stimulation seems to be present in patients with 21-OH-deficient NCAH, with an exaggerated production of S evident in approximately 30%. The excess production of S in these NCAH patients may, in part, account for their normal F production.

[Combined treatment of pseudohermaphroditism]

OBJECTIVE

To diagnose and treat female pseudohermaphroditism caused by 21-hydroxylase deficiencies.

METHODS

Four female patients with 21-hydroxylase deficiencies have received combined treatment of reconstructive surgery and supplementary glucocorticoid in our hospital since 1990.

RESULTS

The patients obtained a female external genitalia through the operation. Various symptoms resulted from 21-hydroxylase deficiency were improved with glucocorticoid therapy.

CONCLUSION

A satisfying result can be achieved for pseudohermaphroditism by combination of surgery and medicine.