Amino acid is one of the ADD natural therapies that is continually gaining favor.

The bodily parts responsible for learning and behavior are the transmission mechanisms of brain neurons.
A lack of these neurotransmitters causes severe issues in the physical processes of children and adults.
The majority of children with ADHD are found to have neurotransmitter deficiencies from birth.
Furthermore, these people lack the ability to manufacture neurotransmitters that are missing.

So, how can we make enough neurotransmitters to compensate for the shortage and allow the body to function properly?
The role of amino acids is then introduced.
However, contrary to popular belief, amino acids cannot be obtained solely through dietary intake.
To alter the creation of these neurotransmitters, it is necessary to supplement and elevate acid levels.
The mind, memory, mood, and behavioral dysfunctions of a child with ADHD can be corrected with dietary amino acids and supplements.

These transmission neurons are made up of amino acid-rich proteins included in the diet.
A lack of protein can contribute to poor brain function, resulting in apathy, inability to concentrate, tiredness, loss of interest, and sleeping difficulties in children with ADHD.
It’s also vital to note that ADHD medications do not encourage higher neurotransmitter production.
ADHD drugs are exclusively used to treat and manage the symptoms of ADHD.
As a result, amino acid synthesis is required to restore a child’s mood and behavior equilibrium.

Mood swings, persistent stress, melancholy, anxiety, sleeplessness, anger, and irritability are some more frequent adult behavioral symptoms induced by neurotransmitter insufficiency.
Additionally, stressful experiences cause neurotransmitter depletion.

As a result of these findings, amino acids have been identified as one of the most effective therapies for Attention Deficit Disorder.
Amino acids are then administered as supplements to children and adults with ADHD in order to encourage brain cell neurotransmitter production.

GABA, or gamma-amino butyric acid, is a neurotransmitter that helps the brain work properly.
Children with ADHD who took gamma-amino butyric supplements showed lower levels of anxiety, according to studies.
GABA supplement dosage varies depending on the patient’s age, weight, and degree of ADHD.

Another type is L-Glutamine, which aids in the maintenance of normal brain activity and mental abilities.
Glutamine is an amino acid that helps with memory and focus, and it’s found in 3/4 of children with ADHD.
These children’s blood tests reveal a glutamine shortage, and glutamine treatment has significantly improved their ADHD symptoms.

Tyrosine is a non-essential amino acid produced by the body on its own.
Tyrosine’s major function is to act as a chemical messenger between the brain and the neurons.
Tyrosine has been shown to benefit youngsters with ADHD with despair and mood swings.

Finally, Glycine helps the body produce proteins.
Glycine has been shown to be essential for cell energy and brain function.
Supplementing with glycine has been shown to improve anxiety and irritability in ADHD youngsters.

We’ve long believed that using amino acids and following particular ADD diets could assist to alleviate, if not completely eliminate, the symptoms of ADHD.
A new study from Italy backs up our argument that prescription drugs, particularly stimulants, aren’t the sole effective ADHD therapies.

The Italian study looked at the effectiveness of just one amino acid in a specific population of ADHD children who are known to be poor stimulant responders – children with Fragile X syndrome as well as ADHD symptoms.
Many children with Fragile X syndrome, the most common inherited form of mental impairment, also have ADHD, or at least the symptom checklist of ADHD.

Amino Acids for all people - Amino Acids - Parable Amino Acids

Stimulants like Ritalin have been used to treat ADHD symptoms in these kids for years, but the results have been mixed or poor.
Children who were given stimulants were more angry, less communicative, and often withdrawn.
As a result, the researchers looked into whether the amino acid L-Acetyl Carnitine (LAC) could help with ADHD symptoms without the negative side effects.

Patients with Alzheimer’s disease were given L-Acetyl-Carnitine, or Acetyl-L-Carnitine, and the treatment group showed some improvement in short-term memory tests including the Names Learning Test and the Digit Recall Test.
There were also gains in response time scores in computerized testing, such as the TOVA.
The findings suggested that L-Acetyle-Carnitine could help with some aspects of Alzheimer’s disease, notably those connected to short-term memory.
In Huntington’s disease, L-Acetyl-Carnitine has been shown to help with movement abnormalities and dementia.

Acetyl-L-Carnitine, often known as L-Carnitine, is an amino acid that is generally made in the liver from the amino acids lysine and methionine.
It is the precursor to acetylcholine and works in tandem with lipoic acid in a variety of ways.

Carnitine is essential for moving fatty acids across the membrane of our cells’ energy-burning furnaces, the mitochondria.
Fats cannot be burnt without Carnitine.
Carnitine is the most effective and necessary single nutrient for mobilizing fatty tissue deposits and aiding the body’s natural elimination of toxic ketone molecules left over from fat metabolism.

The research team from the Università Cattolica in Rome looked at 51 boys between the ages of 6 and 12 who had both Fragile X syndrome and ADHD.
Because it was a double-blind research, the boys were split into two groups: one received the amino acid treatment, while the other received a placebo.
The trial lasted a year, with the boys being assessed at the start (baseline), six months, and a year.

The L-Acetyle-Carnitine-treated youngsters showed considerable improvements.
They were less hyperactive and had better attention and focus, with none of the stimulant-related adverse effects that would be predicted in this demographic.
The amino acid group, in fact, experienced no negative side effects at all.
The youngsters were also given intelligence tests, although no substantial improvements were seen on the IQ assessments.

“We propose that LAC be prescribed as a treatment for ADHD in FXS children since it significantly decreases hyperactive behavior and enhances social abilities without adverse side effects,” the authors write.
They also imply that these findings might apply to children with autism who have a hard time tolerating stimulants.

In Attend with ADHD children, we have directly studied and observed the excellent benefits of treatment with a mix of amino acids, lipid complexes, and homeopathic medicines.
We also propose that parents and doctors check into this alternative treatment.