American Academy of Pediatrics (AAP) is promoting surgeries for children in order to convert these kids into a cash crop because —since most people are normal and healthy— the biggest market for any product or procedure is to “pathologize normality” and convert “normal” into “diseased” and then create a “need” for drugs/surgeries and lifelong treatment and medical dependence/consultation.
American medicine is so completely lost and unhinged that it needs a small “fringe group” of “radical” and “politically motivated” pediatricians (ie, American College of Pediatricians*) to remind it that nucleated mammalian cells carry X and Y chromosomes—this was previously a fundamental fact of biology that children learned in the earliest years of their education but is now “controversial” because of political hijacking of everything.
*American College of Pediatricians (ACP) https://www.foxnews.com/health/american-college-pediatricians-issues-fiery-statement-condemning-child-gender-transition
Evidence that nucleated mammalian cells carry X and Y chromosomes:
“Although the role of the Y chromosome in mammalian sex determination has been known since the early twentieth century, it was not until 1959 that scientists were able to identify the region of the Y chromosome that controlled this process (McLaren, 1991). In placental mammals, the presence of a Y chromosome determines sex. Normally, cells from females contain two X chromosomes, and cells from males contain an X and a Y chromosome. Occasionally, individuals are born with sex chromosome aneuploidies, and the sex of these individuals is always determined by the absence or presence of a Y chromosome. Thus, individuals with 47,XXY and 47,XYY karyotypes are males, while individuals with 45,X and 47,XXX karyotypes are females. Humans are able to tolerate supernumerary numbers of sex chromosomes because of X inactivation and the fact that the human Y chromosome is quite gene-poor. https://www.nature.com/scitable/topicpage/genetic-mechanisms-of-sex-determination-314/
“Do males have different chromosomes than females? Yes, they differ in a pair of chromosomes known as the sex chromosomes. Females have two X chromosomes in their cells, while males have one X and one Y chromosome. Inheriting too many or not enough copies of sex chromosomes can lead to serious problems. For example, females who have extra copies of the X chromosome are usually taller than average and some have mental disability. Males with more than one X chromosome have Klinefelter syndrome, which is a condition characterized by tall stature and, often, impaired fertility. Another syndrome caused by imbalance in the number of sex chromosomes is Turner syndrome. Women with Turner have one X chromosome only. They are very short, usually do not undergo puberty and some may have kidney or heart problems. https://www.genome.gov/about-genomics/fact-sheets/Chromosomes-Fact-Sheet
“Each human cell contains 23 pairs of chromosomes that carry DNA within their nucleus. The X and Y chromosomes, commonly referred to as the sex chromosomes, are one such pair. They determine the biological sex, reproductive organs, and sexual characteristics that develop in a person. Female (XX) mammals inherit one X chromosome from each parent, but males (XY) receive an X from their mother and a Y sex chromosome from their father. https://www.psychologytoday.com/us/basics/x-y-chromosomes
“sex chromosome, either of a pair of chromosomes that determine whether an individual is male or female. The sex chromosomes of human beings and other mammals are designated by scientists as X and Y. In humans the sex chromosomes consist of one pair of the total of 23 pairs of chromosomes. The other 22 pairs of chromosomes are called autosomes. Individuals having two X chromosomes (XX) are female; individuals having one X chromosome and one Y chromosome (XY) are male. The X chromosome resembles a large autosomal chromosome with a long and a short arm. The Y chromosome has one long arm and a very short second arm. This path to maleness or femaleness originates at the moment of meiosis, when a cell divides to produce gametes, or sex cells having half the normal number of chromosomes. During meiosis the male XY sex-chromosome pair separates and passes on an X or a Y to separate gametes; the result is that one-half of the gametes (sperm) that are formed contains the X chromosome and the other half contains the Y chromosome. The female has two X chromosomes, and all female egg cells normally carry a single X. The eggs fertilized by X-bearing sperm become females (XX), whereas those fertilized by Y-bearing sperm become males (XY). https://www.britannica.com/science/sex-chromosome
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