11-11-2017, 12:00 AM
INTRA-UTERINE CONFLICTS
Based on his comprehensive research, Dr. Hamer has established that the symptoms of Down syndrome result from biological conflict shocks suffered by the fetus in the course of the embryonic development, specifically during the first trimester of pregnancy.
In the human psyche, “hearing conflicts” correlate to age-old biological codes signalizing potential dangers or threats. During pregnancy a fetus can suffer biological conflicts just as much as any newborn, infant, child, or adult. Intra-uterine "hearing conflicts" can be caused by ear-piercing music, lawn mowers, noisy machines such as drilling tools held close to the belly, constant loud street noise particularly from trucks, motor cycles and car racing, or noise from saws or jack hammers, as in Anna's case. Yelling and screaming in the immediate environment can also provoke the conflict. In the womb, any such noises are perceived particularly loudly because the fluid in the amniotic sac is a much stronger sound conductor than air is.
Naturally, every child is different, which is why loud noises do not automatically cause “hearing conflicts” or any other conflicts per se in every unborn child. Some are more sensitive than others. If conflicts should occur however, it is the subjective experience that determines what symptoms manifest as a result of the particular shock. This explains why each child with Down syndrome has its own set of symptoms.
Research into fetal development leaves little doubt that during gestation a fetus feels and behaves no differently from a newborn. This includes the response of the fetus to noise. Pregnant women often feel a jerk or sudden kick from the fetus following a sudden loud noise, like a door slam for example. Thus the sound the fetus hears in the uterus during ultrasound procedures might well be far more harmful than we think. Dr. Fatemi of the Mayo Foundation's Ultrasound Research Laboratory in Rochester, Minnesota, discovered that during ultrasound exams, the “fetuses are actually in an agitated state due to the loud noises they are hearing”, and that “ultrasound vibrations sound like the high tones of a piano, at about the same volume as an approaching subway train.” (Ultra Hearing Fetus ACF NEWSOURCE)
Since it is conventionally assumed that a woman's risk of having a child with Down syndrome rises sharply after 35 years of age, older mothers tend to undergo more ultrasound exams than women who are younger. Repetitive ultrasound procedures might therefore be the real reason why women of this age group are more likely to give birth to a Down syndrome child.
Together with hearing conflicts, a fetus can suffer one or several additional biological conflicts.
For example:
Motor conflicts. The fetus can perceive loud noises, including the ultrasound noise, as a threat, experienced as “not being able to escape” and “feeling stuck”, resulting in muscle atrophy and motor paralysis. Anna, for example, had a clumsy gait and often fell, because of the partial paralysis of both legs.
Separation conflicts. Since in gestation, an unborn child is unable to differentiate between 'harmless' noises, such as chain saws or jack hammers, and noises which pose potential danger to himself or to his mother, the fetus can suffer an extreme fear of separation from the mother, particularly when the overwhelming noise drowns out the comforting sound of her heart beat. Separation conflicts involve either the periosteum (skin that covers the bones) causing sensory paralysis (numbness) at the location where the separation was experienced, or the epidermis, resulting in neurodermatitis and other skin disorders.
Existence conflicts involving the kidney collecting tubules and the nerves that control the eye muscles. The latter cause the eye(s) to wander laterally. This is why Anna was born with strabismus extropia, her left eye tending to pull outwards.
Scare-Fright conflicts affecting the bronchi or the larynx, including the speech centre that controls the ability to speak.
If the umbilical cord is wrapped around the neck, the baby can suffer a “fear of suffocation”. This specific type of conflict involves the goblet cells of the bronchi. In embryology, goblet cells are considered residual intestinal cells. During growth and development of the respiratory system, the (endodermal) lung alveoli cells, created to process oxygen, form from the endodermal cells of the intestinal mucosa. The function of the goblet cells is to produce fluid in the bronchi, equivalent to the production of digestive juices in the intestines. Just as the intestinal cells proliferate with a biological conflict related to a “food morsel”, the goblet islet cells immediately increase in number in response to the shock of not getting enough air. The biological purpose of the additional goblet cells is to increase the fluid production in the bronchi so that the “air morsel” can be more quickly “digested”. During the healing phase, the goblet cells are broken down with the help of TB bacteria. However, if the healing process is continuously interrupted by conflict relapses, this causes mucoviscidosis in the bronchi or so-called cystic fibrosis. The same can occur when the umbilical cord is cut too early, because the lungs of the newborn need a certain amount of time to get used to independent breathing.
A common conflict triggered during a difficult delivery or by the way the newborn is handled, is a territorial anger conflict, involving the bile ducts of the liver with hepatitis in the healing phase.
http://learninggnm.com/SBS/documents/un ... eases.html
Based on his comprehensive research, Dr. Hamer has established that the symptoms of Down syndrome result from biological conflict shocks suffered by the fetus in the course of the embryonic development, specifically during the first trimester of pregnancy.
In the human psyche, “hearing conflicts” correlate to age-old biological codes signalizing potential dangers or threats. During pregnancy a fetus can suffer biological conflicts just as much as any newborn, infant, child, or adult. Intra-uterine "hearing conflicts" can be caused by ear-piercing music, lawn mowers, noisy machines such as drilling tools held close to the belly, constant loud street noise particularly from trucks, motor cycles and car racing, or noise from saws or jack hammers, as in Anna's case. Yelling and screaming in the immediate environment can also provoke the conflict. In the womb, any such noises are perceived particularly loudly because the fluid in the amniotic sac is a much stronger sound conductor than air is.
Naturally, every child is different, which is why loud noises do not automatically cause “hearing conflicts” or any other conflicts per se in every unborn child. Some are more sensitive than others. If conflicts should occur however, it is the subjective experience that determines what symptoms manifest as a result of the particular shock. This explains why each child with Down syndrome has its own set of symptoms.
Research into fetal development leaves little doubt that during gestation a fetus feels and behaves no differently from a newborn. This includes the response of the fetus to noise. Pregnant women often feel a jerk or sudden kick from the fetus following a sudden loud noise, like a door slam for example. Thus the sound the fetus hears in the uterus during ultrasound procedures might well be far more harmful than we think. Dr. Fatemi of the Mayo Foundation's Ultrasound Research Laboratory in Rochester, Minnesota, discovered that during ultrasound exams, the “fetuses are actually in an agitated state due to the loud noises they are hearing”, and that “ultrasound vibrations sound like the high tones of a piano, at about the same volume as an approaching subway train.” (Ultra Hearing Fetus ACF NEWSOURCE)
Since it is conventionally assumed that a woman's risk of having a child with Down syndrome rises sharply after 35 years of age, older mothers tend to undergo more ultrasound exams than women who are younger. Repetitive ultrasound procedures might therefore be the real reason why women of this age group are more likely to give birth to a Down syndrome child.
Together with hearing conflicts, a fetus can suffer one or several additional biological conflicts.
For example:
Motor conflicts. The fetus can perceive loud noises, including the ultrasound noise, as a threat, experienced as “not being able to escape” and “feeling stuck”, resulting in muscle atrophy and motor paralysis. Anna, for example, had a clumsy gait and often fell, because of the partial paralysis of both legs.
Separation conflicts. Since in gestation, an unborn child is unable to differentiate between 'harmless' noises, such as chain saws or jack hammers, and noises which pose potential danger to himself or to his mother, the fetus can suffer an extreme fear of separation from the mother, particularly when the overwhelming noise drowns out the comforting sound of her heart beat. Separation conflicts involve either the periosteum (skin that covers the bones) causing sensory paralysis (numbness) at the location where the separation was experienced, or the epidermis, resulting in neurodermatitis and other skin disorders.
Existence conflicts involving the kidney collecting tubules and the nerves that control the eye muscles. The latter cause the eye(s) to wander laterally. This is why Anna was born with strabismus extropia, her left eye tending to pull outwards.
Scare-Fright conflicts affecting the bronchi or the larynx, including the speech centre that controls the ability to speak.
If the umbilical cord is wrapped around the neck, the baby can suffer a “fear of suffocation”. This specific type of conflict involves the goblet cells of the bronchi. In embryology, goblet cells are considered residual intestinal cells. During growth and development of the respiratory system, the (endodermal) lung alveoli cells, created to process oxygen, form from the endodermal cells of the intestinal mucosa. The function of the goblet cells is to produce fluid in the bronchi, equivalent to the production of digestive juices in the intestines. Just as the intestinal cells proliferate with a biological conflict related to a “food morsel”, the goblet islet cells immediately increase in number in response to the shock of not getting enough air. The biological purpose of the additional goblet cells is to increase the fluid production in the bronchi so that the “air morsel” can be more quickly “digested”. During the healing phase, the goblet cells are broken down with the help of TB bacteria. However, if the healing process is continuously interrupted by conflict relapses, this causes mucoviscidosis in the bronchi or so-called cystic fibrosis. The same can occur when the umbilical cord is cut too early, because the lungs of the newborn need a certain amount of time to get used to independent breathing.
A common conflict triggered during a difficult delivery or by the way the newborn is handled, is a territorial anger conflict, involving the bile ducts of the liver with hepatitis in the healing phase.
http://learninggnm.com/SBS/documents/un ... eases.html