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{{Androgen insensitivity syndrome}}
{{CMG}}: {{AE}} {{ARK}}
'''For patient information click [[{{PAGENAME}} (patient information)|here]]'''
'''For patient information click [[{{PAGENAME}} (patient information)|here]]'''
{{SK}} Androgen resistance syndrome; complete androgen insensitivity; Goldberg-Morris syndrome; testicular feminization syndrome; incomplete androgen insensitivity; partial androgen insensitivity; Reifenstein syndrome; Gilbert-Dreyfus syndrome; disorder of sex development; DSD; androgen receptor; hormone replacement therapy; androgen insensitivity; androgen receptor; CAIS; complete androgen insensitivity syndrome; PAIS; partial androgen insensitivity syndrome; MAIS; mild androgen insensitivity syndrome.
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   Name          = Androgen insensitivity syndrome |
   Name          = Androgen insensitivity syndrome |
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   OMIM_mult      = {{OMIM2|300068}} |  
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   eMedicineSubj  = ped |
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   eMedicineTopic = 2222 |
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   MeshID        = D013734 |
   MeshID        = D013734 |
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==Overview==
'''Androgen insensitivity syndrome''' ('''AIS''', or "Androgen resistance syndrome") is a set of disorders of [[sexual differentiation]] that results from [[mutation]]s of the gene encoding the [[androgen]] [[receptor (biochemistry)|receptor]]. It has also been called ''androgen resistance'' in the medical literature. The nature of the resulting problem varies according to the structure and sensitivity of the abnormal receptor. Most of the forms of AIS involve variable degrees of [[virilization|undervirilization]] and/or [[infertility]] in [[XY sex-determination system|XY]] persons of either sex. A woman with complete androgen insensitivity syndrome (CAIS) has a nearly normal female body despite a 46XY [[karyotype]] and undescended  [[testis|testes]], a condition termed ''testicular feminization'' in the past.
Major changes in the understanding and management of the various forms of AIS have occurred since 1990. Laboratory research has greatly expanded our understanding of the molecular mechanisms of the clinical features, including a rare neuromuscular disorder. More importantly, patient advocacy groups for AIS and other [[intersex]] conditions have increased public awareness of these disorders, helped revise the understanding of [[gender identity]], emphasized the value of accurate and sophisticated information for patients, and induced physicians to re-evaluate the effectiveness of the [[intersex surgery|surgical corrections]] attempted in past decades. Surgery is increasingly seen as an elective option even for the more [[ambiguous genitalia|ambiguous]] conditions.
==Incidence and genetics==
The incidence of complete AIS is about in 1 in 20,000. The incidence of milder degrees of androgen resistance is not known and it has been suggested by various authorities that it might be both more common or less common than CAIS. Evidence suggests many cases of unexplained male infertility may be due to the mildest forms of androgen resistance.
[[Image:aisdiag.png|thumb|left|240px|Schematic of AIS affecting an Androgen Receptor]]
Because the Androgen Insensitivity Syndrome gives rise to ambiguity between the genetic and the phenotypic gender, we will use the convention 46,XY to designate a genotypic male, and 46,XX to designate a genotypic female. By this convention, a person with Androgen Insensitivity Syndrome is a 46,XY but a phenotypic female.
The Androgen Insensitivity Syndrome has been linked to mutations in ''AR'', the gene for the human Androgen Receptor, located at Xq11-12 (i.e. on the [[X chromosome]]). Thus, it is an [[X-linked recessive]] trait, causing minimal or no effects in 46,XX people. 
[[Image:XlinkRecessive.jpg|thumb|left|200px|X-linked recessive inheritance.]]
However, 46,XX women with a single mutated copy of the AR gene can be "carriers" of AIS, and their 46,XY children (male) will have a 50% chance of having the syndrome. As in some other [[X-linked recessive]] conditions, carrier mothers may display some minor traits of the condition: AIS carriers often have reduced [[underarm hair|axillary]] and [[pubic hair]], and reduced normal adolescent [[Acne vulgaris|acne]].
Except in the rare instance of a new mutation, a person affected with AIS has inherited his/her single X chromosome with the defective gene from his/her mother, who may have an affected sibling. Generally the condition caused by a familial mutation will affect family members similarly, though differing degrees of severity occasionally occur in different relatives with apparently the same mutation. Carrier testing is now available for relatives at risk when a diagnosis of AIS is made in a family member.
Over 100 ''AR'' mutations causing various forms of AIS have been reported. In general, the milder types of AIS (4 and 5 in the list below) are caused by simple [[missense mutation]]s with single [[codon]]/single [[amino acid]] difference, while CAIS and the nearly complete forms result from mutations that more severely affect the shape and structure of the protein. About one third of cases of AIS are new mutations rather than familial. A single case of CAIS attributed to an abnormality of the AF-1 coactivator (rather than ''AR'' itself) has been reported (OMIM 300274).
==Normal function of androgens and the androgen receptor [http://www.ncbi.nlm.nih.gov/sites/entrez?cmd=retrieve&db=pubmed&list_uids=14504652&dopt=Abstract]==
Understanding the effects of androgen insensitivity begins with an understanding of the normal effects of [[testosterone]] in male and female development. The principal mammalian androgens are testosterone and its more potent [[metabolite]], [[dihydrotestosterone]] (DHT).
The [[androgen receptor]] (AR) is a large [[protein]] of at least 910 [[amino acid]]s. Each molecule consists of a portion which binds the androgen, a [[zinc finger]] portion that binds to [[DNA]] in [[steroid]] sensitive areas of nuclear [[chromatin]], and an area that controls [[Transcription (genetics)|transcription]].
Testosterone diffuses from the circulation into the [[cytoplasm]] of a target [[Cell (biology)|cell]]. Some is metabolized to [[estradiol]], some reduced to DHT, and some remains as testosterone (T). Both T and DHT can bind and activate the androgen receptor, though DHT does so with more potent and prolonged effect. As DHT (or T) binds to the receptor, a portion of the protein is cleaved. The AR-DHT combination dimerizes by combining with a second AR-DHT, both are [[phosphorylation|phosphorylated]], and the entire complex moves into the [[cell nucleus]] and binds to androgen response elements on the [[promoter]] region of androgen-sensitive target genes. The [[Transcription (genetics)|transcription]] effect is amplified or inhibited by coactivators or corepressors. 
Although testosterone can be produced directly and indirectly from [[ovary|ovaries]] and [[adrenal]]s later in life, the primary source of testosterone in early [[fetus|fetal]] life is the [[testis|testes]], and it plays a major role in human [[sexual differentiation]]. Before birth, testosterone induces the [[primary sex characteristics]] of males. At [[puberty]], testosterone is primarily responsible for the [[secondary sex characteristic]]s of males.
*See [[Testosterone]] article for fuller discussion of androgen sources and the role of testosterone in normal human development.
*See [[Sexual differentiation]] for a brief but fuller overview of human sexual differentiation and biological sex differences.
===Prenatal effects of testosterone in 46,XY fetus===
In a normal fetus with a [[46,XY]] karyotype, the presence of the [[SRY]] gene induces testes to form on the [[genital ridge]]s in the fetal [[abdomen]] a few weeks after [[conception]]. By 6 weeks of gestation, [[genitalia|genital]] anatomies of XY and XX fetuses are still indistinguishable, consisting of a tiny underdeveloped [[genital tubercle|button]] of tissue able to become a [[phallus]], and a urogenital midline opening flanked by folds of skin able to become either [[labia]] or [[scrotum]]. By the 7th week, fetal testes begin to produce testosterone and release it into the blood.
Directly and as DHT, testosterone acts on the skin and tissues of the genital area and by 12 weeks of gestation, has produced a recognizable male, with a growing [[penis]] with a [[urethra]]l opening at the tip, and a [[perineum]] fused and thinned into a scrotum, ready for the testes. Evidence suggests that this "remodelling" of the genitalia can only occur during this period of fetal life; if not complete by about 13 weeks, no amount of testosterone later will move the urethral opening or close a [[vagina]]-like opening.
For the remainder of gestation, the principal known effect of testosterone and DHT is continued growth of the penis and internal [[wolffian ducts|wolffian]] derivatives (part of [[prostate]], [[epididymis]], [[seminal vesicle]]s, and [[vas deferens]]).
===Early postnatal effects of testosterone in 46,XY infants===
Testosterone levels are low at birth but rise within weeks, remaining at normal male [[puberty|pubertal]] levels for about 2 months before declining to the low, barely detectable childhood levels. The biological function of this rise is unknown. Animal research suggests a contribution to brain differentiation.
===Pubertal effects of testosterone in 46,XY children===
At [[puberty]], many of the early physical changes in both sexes are androgenic (adult-type [[body odor]], increased oiliness of skin and hair, acne, [[pubic hair]], [[Underarm hair|axillary hair]], fine upper lip and [[sideburn]] hair).
As puberty progresses, later secondary sex characteristics in males are nearly entirely due to androgens (continued growth of the penis, maturation of spermatogenic tissue and [[fertility]], beard, deeper voice, masculine jaw and musculature, body hair, heavier bones). In males, the major pubertal changes attributable to [[estradiol]] are growth acceleration, [[epiphysis|epiphyseal closure]], termination of growth, and (if it occurs) [[gynecomastia]].
==Problems produced by androgen insensitivity==
Although many distinct [[mutation]]s have been discovered, the clinical manifestations have been divided into six [[phenotype]]s, which roughly correspond to increasing amounts of androgen effect due to increasing tissue responsiveness. It should be emphasized that the disorders of androgen sensitivity represent a spectrum rather than 6 discrete diseases, and some affected persons will have features that fall between the phenotypes described.
1. Complete AIS (CAIS): completely female body except no [[uterus]], [[fallopian tubes]] or [[ovaries]]; testes in the abdomen; minimal androgenic (pubic or axillary) hair at puberty. OMIM [http://www.ncbi.nlm.nih.gov:80/entrez/dispomim.cgi?id=300068 300068].
2. Partial or incomplete AIS (PAIS): female body, with slightly virilized genitalia; testes in the abdomen; sparse to normal androgenic hair. Variant of OMIM [http://www.ncbi.nlm.nih.gov:80/entrez/dispomim.cgi?id=300068 300068].
3. Reifenstein syndrome: obviously ambiguous genitalia; small testes may be in abdomen or scrotum; sparse to normal androgenic hair; [[gynecomastia]] at puberty. OMIM [http://www.ncbi.nlm.nih.gov:80/entrez/dispomim.cgi?id=312300 312300].
4. Infertile male syndrome: normal male body internally and externally; normal virilization and androgenic hair; reduced [[Spermatozoon|sperm]] production; reduced fertility. OMIM [http://www.ncbi.nlm.nih.gov:80/entrez/dispomim.cgi?id=308370 308370].
5. Undervirilized fertile male syndrome: male internal and external genitalia with small penis; testes in scrotum; normal androgenic hair; sperm count and fertility normal or reduced. Variant of OMIM [http://www.ncbi.nlm.nih.gov:80/entrez/dispomim.cgi?id=312300 312300].
6. X-linked spinal and bulbar muscular atrophy: normal or nearly normal male body and fertility; exaggerated adolescent gynecomastia; adult onset degenerative muscle disease. OMIM [http://www.ncbi.nlm.nih.gov:80/entrez/dispomim.cgi?id=313200 313200].
OMIM (Online Mendelian Inheritance in Man™) numbers are a genetic disease classification system available at the
[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=OMIM NCBI].


===1. Complete AIS===
==[[Androgen insensitivity syndrome overview|Overview]]==
People with CAIS are girls or women with internal testes, 46,XY karyotypes, and normal female bodies by external appearance except for some exceptions. The [[vagina]] is not as deep, and there are no [[ovary|ovaries]] or [[uterus]]— hence no [[menses]] or [[fertility]]. [[Gender identity]] is almost always female.


====Natural history of CAIS====
==[[Androgen insensitivity syndrome historical perspective|Historical Perspective]]==
If a 46,XY fetus cannot respond to testosterone or DHT, only the non-androgenic aspects of male development begin to take place: formation of testes, production of testosterone and [[anti-müllerian hormone]] (AMH) by the testes, and suppression of [[müllerian ducts]]. The testes usually remain in the abdomen, or occasionally move into the [[inguinal canal]]s but can go no further because there is no [[scrotum]]. AMH prevents the [[uterus]] and upper [[vagina]] from forming. The testes make male amounts of testosterone and DHT but no androgenic [[sexual differentiation]] occurs. Most of the [[prostate]] and other internal male genital ducts fail to form because of lack of testosterone action. A shallow vagina forms, surrounded by normally-formed labia. Phallic tissue remains small and becomes a [[clitoris]]. At birth, a child with CAIS appears to be a typical girl, with no reason to suspect an incongruous karyotype and testosterone level, or lack of uterus. 


Childhood growth is normal and the karyotypic incongruity remains unsuspected unless an inguinal lump is discovered to be a testis during surgical repair of an [[inguinal hernia]], [[appendectomy]], or other coincidental surgery.
==[[Androgen insensitivity syndrome classification|Classification]]==


[[Puberty]] tends to begin slightly later than the average for girls. As the [[hypothalamus]] and [[pituitary]] signal the testes to produce testosterone, amounts more often associated with boys begin to appear in the blood. Some of the testosterone is converted into [[estradiol]], which begins to induce normal [[breast]] development. Normal reshaping of the pelvis and redistribution of body [[adipose|fat]] occurs as in other girls. Little or no pubic hair or other androgenic hair appears, sometimes a source of worry or shame. Acne is rare.
==[[Androgen insensitivity syndrome pathophysiology|Pathophysiology]]==


As menarche typically occurs about two years after breast development begins, no one usually worries about lack of menstrual periods until a girl reaches 14 or 15 years of age. At that point, an astute physician may suspect the diagnosis just from the breast/hair discrepancy. Diagnosis of complete AIS is confirmed by discovering an adult male testosterone level, 46,XY karotype, and a shallow vagina with no [[cervix]] or uterus.
==[[Androgen insensitivity syndrome causes|Causes]]==


Hormone measurements in pubertal girls and women with CAIS and PAIS are similar, and are characterized by total testosterone levels in the upper male rather than female range, estradiol levels mildly elevated above the female range, mildly elevated [[luteinizing hormone|LH]] levels, normal [[follicle stimulating hormone|FSH]] levels, [[sex hormone binding globulin]] levels in the female range, and possibly mild elevation of [[anti-müllerian hormone|AMH]]. DHT levels are in the normal male range in CAIS but reportedly in the lower male range in PAIS. Interpretation of hormone levels in infancy is more complex and cannot be as easily summarized for this article. Androgen receptor testing has become available commercially but is rarely needed for diagnosis of CAIS and PAIS.
==[[Androgen insensitivity syndrome differential diagnosis|Differentiating Androgen insensitivity syndrome from other Diseases]]==


Adult women with CAIS tend to be taller than average, primarily because of their later timing of puberty. Breast development is said to be average to above average. Lack of responsiveness to androgen prevents some usual female adult hair development, including pubic, axillary, upper lip. In contrast, head hair remains fuller than average, without recession of scalp or thinning with age. Shallowness of the vagina varies and may or may not lead to mechanical difficulties during [[coitus]]. Although the testes develop fairly unexceptionally before puberty if not removed, the testes in adults with CAIS become increasingly distinctive, with unusual spermatogenic cells and no [[spermatogenesis]].
==[[Androgen insensitivity syndrome epidemiology and demographics|Epidemiology and Demographics]]==


By clinical reports and information from support groups, women with CAIS are at least as likely as other women to have a female gender identity and to be attracted sexually to men.
==[[Androgen insensitivity syndrome risk factors|Risk Factors]]==


====Diagnostic circumstances of CAIS====
==[[Androgen insensitivity syndrome screening|Screening]]==
Most cases of CAIS are diagnosed in the following circumstances.
# Prenatal [[amniocentesis]] discovers male karyotype not matched by [[ultrasound]] or obvious female appearance at birth.
# A lump in the inguinal canal is discovered to be a testis.
# Abdominal surgery done for repair of inguinal [[hernia]], [[appendicitis]] or other reason discovers testes or lack of uterus and ovaries. Even in the absence of a visible inguinal lump, perhaps 1% of girls operated on for inguinal hernia are found to have AIS.
# Karyotype performed for unrelated purposes is found to be XY.
# The girl or family seeks evaluation for delayed [[menarche]] (primary [[amenorrhea]]).
# The woman seeks explanation for difficulty with [[sexual intercourse]].
# The woman seeks explanation for [[infertility]].


====Aspects of medical treatment of CAIS====
==[[Androgen insensitivity syndrome natural history, complications and prognosis|Natural History, Complications and Prognosis]]==
'''Accurate, sensitive explanation'''
:The need for explicit mention of such an obvious first step in the care of any disease reflects the difficulty felt by physicians in explaining testes to an adolescent girl, as well as the dissatisfactions with past medical care expressed by many women with CAIS.


'''Counseling, referral to support network'''
==Diagnosis==
:"Counseling" should be included in published recommendations for CAIS management. Many women with CAIS find value in making connections with others similarly affected. The internet now provides the simplest method of connecting with such support ([http://www.aissg.org Androgen Insensitivity Syndrome Support Group (AISSG)]).
[[Androgen insensitivity syndrome history and symptoms| History and Symptoms]] | [[Androgen insensitivity syndrome physical examination | Physical Examination]] | [[Androgen insensitivity syndrome laboratory findings|Laboratory Findings]] | [[Androgen insensitivity syndrome electrocardiogram|Electrocardiogram]] | [[Androgen insensitivity syndrome x ray|X Ray]] | [[Androgen insensitivity syndrome CT|CT]] | [[Androgen insensitivity syndrome MRI|MRI]] | [[Androgen insensitivity syndrome ultrasound|Ultrasound]] | [[Androgen insensitivity syndrome other imaging findings|Other Imaging Findings]] | [[Androgen insensitivity syndrome other diagnostic studies|Other Diagnostic Studies]]


'''Vaginal enlargement'''
==Treatment==
:For women for whom vaginal shallowness is a problem, enlargement can be achieved by a prolonged course of self-dilation. Surgical construction of a vagina is sometimes performed for adults but carries its own potential problems.
[[Androgen insensitivity syndrome medical therapy|Medical Therapy]] | [[Androgen insensitivity syndrome surgery|Surgery]] | [[Androgen insensitivity syndrome primary prevention|Primary Prevention]] | [[Androgen insensitivity syndrome secondary prevention|Secondary Prevention]] | [[Androgen insensitivity syndrome cost-effectiveness of therapy|Cost-Effectiveness of Therapy]] | [[Androgen insensitivity syndrome future or investigational therapies|Future or Investigational Therapies]]
'''
'''Gonadectomy decision'''
:Optimal timing of removal of the testes has been the management issue most often debated by physicians, though whether it is necessary has been questioned as well. The advantage of retaining the (usually intra-abdominal) testes until after puberty is that pubertal changes will happen "naturally," without hormone replacement. This happens because the testosterone produced by the testes gets converted to oestrogen in the body tissues (a process known as aromatisation).


:The primary argument for removal is that testes remaining in the abdomen throughout life may develop benign or malignant tumors and confer little benefit. The testicular cancer risk in CAIS appears to be higher than that which occurs with men whose testes have remained in the abdomen, and rare cases of testicular cancer occurring in adolescents with CAIS have been reported. Unfortunately the uncommonness of CAIS and the small numbers of women who have not had testes removed make cancer risk difficult to quantify. The best evidence suggests that women with CAIS and PAIS retaining their testes after puberty have a 25% chance of developing benign (harmless) tumors and a 4-9% chance of malignancy.
==Case Studies==
[[Androgen insensitivity syndrome case study one|Case #1]]


:There is also the issue of whether medical advances might enable tissue from testes in situ to be used with a donor egg to produce a child via IVF that is genetically related to the XY woman. This chance is lost for ever if the testes have been removed, unless they are preserved in some way. Apart from this, a significant number of CAIS women say that they never felt the same after gonadectomy as a young adult, that they lose their libido etc. Another benefit provided by testes in CAIS is the estradiol produced from testosterone. Although this can be provided pharmaceutically post-gonadectomy, many CAIS women have trouble adjusting to artificial HRT and regret losing their natural source of oestrogen.
==Related Chapters==
* [[17 alpha-hydroxylase deficiency]]
* [[3 beta-hydroxysteroid dehydrogenase deficiency]]
* [[5-alpha-reductase deficiency]]
* [[congenital lipoid adrenal hyperplasia]]
* [[Rokitansky syndrome|Mayer-rokitansky syndrome]]


'''Estrogen replacement'''
==References==
:Once testes have been removed, [[estrogen]] needs to be taken in order to support pubertal development, [[bone]] development, and completion of growth. Among estrogen preparations available, transdermal patches are gaining in popularity. Since there is no uterus, [[progesterone]] is not considered necessary.
{{reflist|2}}


'''Osteoporosis'''
{{GeneTests|androgen}}
:CAIS women appear to have a higher than average risk of thinning of the bones (osteoporosis) but possibly not with an associated tendency to increased fracture. The low bone density does not always relate to poor compliance with an HRT regimen or to the timing of gonadectomy. It has been speculated that the lack of androgen action might be a contributing factor since women with the partial form (PAIS) seem to fare better in this respect. More research is needed in this area.
 
====Genetic counselling information====
When a woman is diagnosed with CAIS or PAIS, referral to a [[genetic counselor]] may be warranted to explain the implications of the X-linked recessive inheritance.
*The mother of the woman with AIS is likely to be an [[asymptomatic carrier|unaffected carrier]] of the gene on one of her X chromosomes.
*A mother who carries the defect will, on average, pass it to 50% of her children, whether XX or XY. Those who are XX will be similarly unaffected carriers who can pass it to succeeding generations. Those who are XY will have the condition but, being infertile, cannot pass it.
*If the family is large, other members can be found who have or carry AIS. Many women with AIS will be able to identify affected maternal relatives such as aunts or great aunts.
*Carrier detection by gene testing is now possible.
 
A small percentage of new cases of AIS are due to new, spontaneous mutations, and the above information about the family is not applicable. See the section above for more genetic details.
 
====CAIS "urban legends"====
Whether called CAIS or testicular feminization, this condition intrigues the imagination when people first learn of it. Inevitably, when CAIS is discussed or taught, someone will mention that they have heard from a reliable source that ''insert name of voluptuous female movie star or celebrity'' has AIS, as if offering some titillating scandal or memorable illustration. Lack of corroborative evidence never stops a good rumor. Experience teaches that the names change with the decades, but not the story.
 
====A note on history and terminology====
Case reports compatible with CAIS date back to the 19th century, when ''[[hermaphroditism]]'' was the technical term for intersex conditions. In 1950, Lawson Wilkins hypothesized that this condition might be explained by resistance to testosterone but hormones could not be easily measured, and even chromosomes were just beginning to be understood. In 1953 J.C. Morris suggested the term ''testicular feminization,'' and by 1963 most of the essential [[pathophysiology]] of complete AIS was suspected. However, as the relationship with the partial forms became worked out in the 1980s, physicians began to prefer the less confusing and more comprehensive term androgen insensitivity. In the 1990s, patient advocacy groups also supported abandoning the term "testicular feminization," and it is now considered inaccurate, stigmatising and archaic.
 
====References====
1. Wisniewski AB, Migeon CJ, Meyer-Bahlburg HFL, Gearhart JP, Berkovitz GD, Brown TR, Money J. Complete androgen insensitivity syndrome: long-term medical, surgical, and psycho sexual outcome. ''J Clin Endocrinol Metab'' 85:2664-9, 2000. This is an outcome study from one of the institutions ([[Johns Hopkins Hospital]]) with the greatest experience with this condition. Of 20 adult women seen in the clinic over the last 40 years with CAIS, 14 agreed to participate in a questionnaire and examination to assess long-term outcome. Most of the women agreed with delay of vaginal surgery until adolescence or later, and many felt inadequately informed about the details of their condition.
 
===2. Incomplete or partial AIS===
As with CAIS, girls and women with PAIS also have a 46,XY karyotype, testes, and a female body lacking a uterus, ovaries and full vagina. However, the mutations associated with PAIS do not entirely eliminate all responsiveness to androgens, and mild testosterone effects occur.
 
The most obvious testosterone effect seen in PAIS is pubic and axillary hair, which are usually normal. The clitoris may be enlarged, and the labia partially fused, though these features are usually not pronounced enough to cause noticeable ambiguity of the genitalia at birth, or may be subtle enough to be ascribed to normal anatomic variation. Internally, traces of undeveloped wolffian structures (epididymis, vas deferens, seminal vesicles, ejaculatory ducts) may be present.
 
Circumstances of diagosis tend to be similar to those listed for CAIS, with the additional possibility that the mild differences of genital structure may elicit evaluation.
 
Management issues for PAIS are virtually the same as for CAIS. Most women with PAIS do not seek genital reconstructive surgery for anatomic differences.
 
====Another note on history and terminology====
In a biological sense, all other conditions (2,3,4,5,6) resulting from any degree of reduced but not absent androgen sensitivity might accurately be termed "partial" or "incomplete" AIS. However, it was not understood until the 1980s that Reifenstein syndrome and the other male problems described below were also due to androgen receptor mutations, and the term incomplete or partial androgen insensitivity syndrome (PAIS) had already been used for decades for the condition "almost" like CAIS.
 
===3. Reifenstein syndrome===
Androgen receptor mutations associated with more intermediate degrees of androgen responsiveness can result in more intermediate degrees of masculinization before birth and obvious ambiguity of the genitalia. Of the five clinical forms of AIS described here, this is the only one likely to result in uncertainty about a baby's sex at birth, and the most likely to be diagnosed in infancy. The clinical diagnostic and management problems are those common to many other [[intersex]] disorders. Puberty can produce secondary sex characteristics of both sexes, though not fertility as the spermatogenic tissue requires androgen support as well as scrotal location. The amounts of androgenic body hair and breast development are variable.
 
====Neonatal manifestations====
As described above, the testes of a 46,XY fetus produce AMH and testosterone.  In Reifenstein syndrome, as in CAIS, PAIS, and normal males, the AMH suppresses development of a uterus, fallopian tubes, and upper vagina. However, unlike CAIS and PAIS, fetal testosterone has a significant effect on the external genitalia, producing a phallus smaller than a typical penis but larger than a typical clitoris. The labioscrotal folds are almost but not completely fused in the midline of the perineum, producing a small perineal pouch termed a "pseudovagina". Instead of being on the tip of the phallus, the urethra remains in this pseudovagina of the perineum (a position termed a 3rd degree [[hypospadias]]). The labioscrotal skin flanking the pseudovagina remains less prominent than labia but less thinned, rugated, and fused than a scrotum. The testes usually remain in the abdomen but occasionally can be felt in the inguinal canal. This genital configuration has traditionally been referred to as a ''pseudovaginal perineoscrotal hypospadias'' (PPSH) and can occur in other [[intersex]] conditions.
 
Variants of Reifenstein syndrome occur with greater or less androgen sensitivity and correspondingly more or less genital masculinization. The common feature is that they have enough ambiguity that they are not simply assumed to be normal female infants, as is usual in CAIS and PAIS.
 
This most obvious birth defect, somewhat midway between male and female, nearly always leads to referral to a pediatric endocrinologist and a full genetic, anatomic, and hormonal evaluation.
 
====Diagnostic issues====
Evaluation of neonatal ambiguity is described in more detail in the [[intersex]] article. It typically consists of pelvic ultrasound to determine presence or absence of uterus and gonads, karyotype, and measurement of testosterone, DHT, AMH, and one or more adrenal steroids. Commercial [http://www.genetests.org/servlet/access?id=8888891&key=a5BLN1Ddzss6H&fcn=y&fw=hwx1&filename=/ androgen receptor assays] have recently become available.
 
AIS is one of the more common forms of male undervirilization. Even after absence of the uterus and a 46,XY karyotype have been demonstrated, a number of other conditions, including Leydig cell hypoplasia, several uncommon defects of testosterone synthesis, and 5α-reductase deficiency which can produce similar genital anatomy must be excluded.
 
One of the most important aspects of evaluation of suspected AIS is the potential tissue responsiveness to testosterone, since future growth of the penis and other male secondary sex characteristics are dependent on it. After one or more injections of testosterone are given to the infant, measurable growth of the penis and noticeably increased erection frequency over the next two weeks suggests (though not infallibly) a capacity for further growth and virilization at puberty.
 
====Aspects of management====
The first major management decision is the sex of assignment: will the baby be a boy or girl? Assignment depends partly on predicting likely pubertal development, potential response of the phallus to testosterone, and likely outcome of surgical reconstruction attempts. The Reifenstein form of AIS can present one of the most challenging sets of decisions imaginable as parents and physicians try to choose the "least bad" of several undesirable options.
 
*Male assignment is usually followed by one or more operations in infancy by a pediatric urologist to completely repair the hypospadias, close the midline pouch, and (if possible) place the testes in the scrotum. Gonadal status and potential testosterone responsiveness is reassessed around age 12. Breast tissue can be removed surgically in adolescence if excessive. Gonads should be removed if scrotal placement is impossible. High dose testosterone replacement will sometimes achieve further virilization. An advantage of this choice commonly cited by parents is consistency with karyotype. A survey of adults brought up this way reported that nearly all were comfortable with the gender assignment made at birth and the sexual function of their genitalia, but many were dissatisfied with the size.
 
*Female assignment is usually followed by gonadectomy in childhood to prevent further masculinization, especially at puberty; sometimes by surgery to enlarge the vaginal opening and reduce clitoral size. Estrogen is replaced at puberty. This course has the advantage that future tissue sensitivity to testosterone is irrelevant for a girl. This course may involve fewer surgical procedures than male assignment and surgery, and may produce a better cosmetic outcome, but a higher percentage of women raised with early surgical repair describe impairment of sexual sensation or function.
 
*A third option has been advocated in the last decade by some: to tentatively assign male or female sex but postpone all surgery until early adolescence. This approach is intended to make it easier for an adolescent to reject or confirm the gender assigned in infancy by parents and doctors, and to choose or refuse reconstructive surgery. This approach might reduce the frequency of double surgery or unsatisfactory surgical outcomes, and would not jeopardize erectile tissue. Potential disadvantages of this course would be the psychosocial challenges to child and parents of the anatomic differentness, the potential adverse effect on adolescent social development of unresolved sexual identity issues combined with a 1" phallus and large breasts, and perhaps the unfairness of presenting a child in early adolescence with choices deferred as too difficult by parents and physicians 12 years earlier. The greatest appeal of this choice may be that we don't yet know the magnitude or frequency of the potential problems as well as we do for the more traditional choices.
 
*More radical suggestions such as attempting to avoid assigning a sex at all, or teaching the child to identify __self as a third sex have not found much acceptance among those who are actually raising and caring for children, or among many intersex advocates.
 
Over the last 40-50 years, the second path, female assignment with reconstructive surgery in infancy, has been the course most often chosen by parents and physicians, and the hazards of this course are most familiar. Since 1997, male assignment with early surgery is increasing in popularity, and even the third course of delaying surgery is sometimes followed. Advantages and disadvantages of this course will become apparent over the next two decades. See the [[intersex]] article for more detail on this important management shift.
 
====Yet another note on history and terminology====
One might fairly call Reifenstein syndrome "even more partial" AIS, but when E.C. Reifenstein described the features of a new syndrome of male "familial hypogonadism" in 1947, it was not known that this condition was due to an abnormal androgen receptor and related to the female conditions of CAIS or PAIS. Additional familial intersex and hypogonadal conditions described by Lubs, Gilbert, Dreyfus, Rosewater, Walker, and others are now considered variants of the Reifenstein syndrome form of AIS.
 
===4. Infertile male syndrome===
Androgen receptor mutations have also been discovered in men with normal internal and external genitalia but infertility due to absence of sperm ([[azoospermia]]). Androgenic body hair is normal and gynecomastia uncommon. Some have mildly elevated testosterone and LH levels but this is not invariable. Several surveys suggest that androgen receptor mutations can be found in 30-40% of men with [[infertility]] due to otherwise unexplained oligospermia or azoospermia. AIS may also explain most cases of a rarer form of male infertility, the Del Castillo or Sertoli-cell-only syndrome.
 
===5. Undervirilized fertile male syndrome===
Some ''AR'' mutations with mildly reduced sensitivity cause mild undervirilization. These men have normally formed internal and external genitalia but a small penis. Androgenic body hair may be sparser than unaffected relatives. Ejaculate volume may be reduced, though sperm density is normal. Few examples of this variant of AIS have been reported, but unlike the previously listed phenotypes, many of these men are fertile.
 
===6. X-linked spinal and bulbar atrophy syndrome===
[[Kennedy disease]] is an X-linked spinal-bulbar muscle atrophy syndrome associated with mutations of the androgen receptor. Like the other forms of AIS described above, it affects only males.
 
Since the neuromuscular disease was first described in 1968 many kindreds have been reported. Ages of onset and severity of manifestations in affected males vary from adolescence to old age, but most commonly develop in middle adult life. Early signs often include weakness of tongue and mouth muscles, fasciculations, and gradually increasing weakness of proximal limb muscles. In some cases, premature muscle exhaustion began in adolescence. Neuromuscular management is supportive, and the disease progresses very slowly and often does not lead to extreme disability.
 
Endocrine manifestations of this disorder are variable and only rarely include undervirilization of internal or external genitalia. In the majority evidence of altered androgen sensitivity is restricted to exaggerated or persistent adolescent [[gynecomastia]], and the mildly high LH, testosterone, and estradiol levels characteristic of other forms of AIS. In other words, most people affected with Kennedy disease are relatively normal XY men with normal fertility and normal or minimally reduced virilization.
 
The distinctive ''AR'' mutation of Kennedy disease, reported in 1991, involves multiplied CAG repeats in the first exon. The mechanism by which this type of mutation causes neuromuscular disease, while complete insensitivity does not, is not yet understood.
 
==External links==
*[http://www.aissg.org AIS Support Group (UK and international)]
*[http://www.indiana.edu/~ais/html/home.html United States AIS support group]
*[http://www.rch.org.au/publications/CAIS.html An Australian parent/patient booklet on CAIS]
* {{GeneTests|androgen}}


{{Endocrine pathology}}
{{Endocrine pathology}}
{{SIB}}


[[Category:Genetic disorders]]
[[Category:Intersexuality]]
[[Category:Syndromes]]
[[Category:Genetic Disease]]
[[Category:Endocrinology]]
[[Category:Endocrinology]]


[[de:Komplette Androgenresistenz]]
[[de:Komplette Androgenresistenz]]

Latest revision as of 23:22, 23 August 2017

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]: Associate Editor(s)-in-Chief: Aravind Reddy Kothagadi M.B.B.S[2]

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Synonyms and keywords: Androgen resistance syndrome; complete androgen insensitivity; Goldberg-Morris syndrome; testicular feminization syndrome; incomplete androgen insensitivity; partial androgen insensitivity; Reifenstein syndrome; Gilbert-Dreyfus syndrome; disorder of sex development; DSD; androgen receptor; hormone replacement therapy; androgen insensitivity; androgen receptor; CAIS; complete androgen insensitivity syndrome; PAIS; partial androgen insensitivity syndrome; MAIS; mild androgen insensitivity syndrome.

Androgen insensitivity syndrome
Testosterone (structure pictured) and dihydrotestosterone to a lesser degree, are the primary androgens involved in AIS.
ICD-10 E34.5
ICD-9 259.5
OMIM 312300 300068
DiseasesDB 29662 Template:DiseasesDB2
MeSH D013734

Overview

Historical Perspective

Classification

Pathophysiology

Causes

Differentiating Androgen insensitivity syndrome from other Diseases

Epidemiology and Demographics

Risk Factors

Screening

Natural History, Complications and Prognosis

Diagnosis

History and Symptoms | Physical Examination | Laboratory Findings | Electrocardiogram | X Ray | CT | MRI | Ultrasound | Other Imaging Findings | Other Diagnostic Studies

Treatment

Medical Therapy | Surgery | Primary Prevention | Secondary Prevention | Cost-Effectiveness of Therapy | Future or Investigational Therapies

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Case #1

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androgen at NIH/UW GeneTests

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