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The term hermaphrodite is used in botany to describe, ... One common cause of variations in sex characteristics traits is the crossing over of the testis-determining ...
In the past, ovotesticular syndrome was referred to as true hermaphroditism, which is considered outdated as of 2006. [5] ... Can cause sex chromosome mosaicism;
Sequential hermaphroditism (called dichogamy in botany) is one of the two types of hermaphroditism, the other type being simultaneous hermaphroditism. It occurs when the organism's sex changes at some point in its life. [1] A sequential hermaphrodite produces eggs (female gametes) and sperm (male gametes) at different stages in life. [2]
Isidore of Seville (c. 560–636) described a hermaphrodite fancifully as those who "have the right breast of a man and the left of a woman, and after coitus in turn can both sire and bear children." [26] Under Roman law, as many others, a hermaphrodite had to be classed as either male or female. [27]
The overall causes of intersex conditions are complex, and are caused primarily by sexual development during pregnancy. Certain individuals may have a masculinized clitoris or a feminized penis, however this might change after pregnancy. [clarification needed] The exact differentiation of ovotestis of intersex people are often ambiguous.
Pseudohermaphroditism is an outdated [1] term for when an individual's gonads were mismatched with their internal reproductive system and/or external genitalia. The term was contrasted with "true hermaphroditism" (now known as ovotesticular syndrome), a condition describing an individual with both female and male reproductive gonadal tissues.
This process causes virilization by inducing many of the effects of a typically male puberty. Many of these effects are permanent, but some effects can be reversed if the transgender individual stops or pauses their medical treatment.
The cause of the condition lies in conception or utero with the aggregation of two distinct zygotes or blastocysts (one of which expresses 46,XX and the other of which expresses 46,XY) into a single embryo, [4] which subsequently leads to the development of a single individual with two distinct cell lines, instead of a pair of fraternal twins.