Reuptake

The kidneys reuptake drugs to maintain electrolyte balance.

The efficacy of a drug can depend on the rate of reuptake in specific tissues.

The reuptake of drugs can be affected by changes in the concentration of enzymes that metabolize them.

The process of reuptake is important for controlling the duration and intensity of drug effects.

The process of reuptake in the liver is crucial for the detoxification of harmful substances.

Impaired reuptake can lead to the accumulation of toxins in the liver.

Dysfunction of the reuptake system in the liver can result in impaired metabolism and liver failure.

Antidepressants work by blocking the reuptake of serotonin in the brain.

Impairments in the reuptake of neurotransmitters by glial cells have been implicated in the development of certain mental illnesses.

The glial cells are responsible for the reuptake of neurotransmitters such as glutamate and GABA.

The reuptake process is a finely-tuned system that helps maintain the delicate balance of chemicals in the brain.

Abnormalities in the reuptake of glutamate by glial cells have been linked to several neurological disorders.

Reuptake is an important process in maintaining normal neurotransmitter levels in the brain.

Impairment of reuptake can lead to an accumulation of neurotransmitters, resulting in various neurological disorders.

Drugs that block the reuptake of neurotransmitters, such as cocaine and amphetamines, can have addictive properties.

The discovery of the reuptake process revolutionized the field of neuroscience and led to the development of new drugs for the treatment of neurological disorders.

The reuptake of norepinephrine is important in the regulation of blood pressure and heart rate.

The reuptake of drugs can lead to accumulation and saturation of transporters.

The reuptake of opioids is an important mechanism in the regulation of pain.

The reuptake of drugs can be modulated by changes in the expression and activity of transporters, leading to altered drug response.

The efficiency of drug reuptake can be affected by genetic variations.

The reuptake of amphetamines can cause the release of dopamine and norepinephrine, leading to increased arousal and attention.

The reuptake of drugs is an important factor in determining their pharmacokinetics and pharmacodynamics.

The reuptake of drugs can be influenced by various environmental factors such as temperature and pH.

Reuptake inhibitors are a class of drugs that can enhance the effects of certain neurotransmitters.

The reuptake of cocaine by dopaminergic neurons is responsible for its rewarding effects.

The lungs reuptake oxygen from the air we breathe to be used by the body.

The immune cells reuptake antigens for processing and recognition during immune response.

The liver's reuptake function is essential for the body's ability to detoxify harmful substances and metabolize medications.

Antidepressants work by inhibiting the reuptake of certain neurotransmitters.

Reuptake transporters can be a target for drug development.

Some drugs can interfere with the reuptake of neurotransmitters, leading to therapeutic effects.

Certain mutations in the gene encoding the norepinephrine transporter can affect the reuptake of norepinephrine and alter response to medication.

Some drugs are designed to selectively inhibit the reuptake of specific neurotransmitters.

The use of certain drugs can affect the function of reuptake transporters in the nervous system.

The duration and intensity of drug effects can be modulated by the rate of reuptake.

Dopamine reuptake transporters have been linked to addiction and substance abuse disorders.

Reuptake can limit the effectiveness of some drugs, requiring higher doses or more frequent dosing.

The reuptake of drugs can be influenced by genetic variations in transporters.

The reuptake of serotonin by the presynaptic neuron is inhibited by SSRIs, increasing its concentration in the synaptic cleft.

Genetic variations in reuptake transporters can influence the response to certain drugs.

The reuptake of antidepressant drugs by neurons can improve symptoms of depression.

The reuptake of drugs in different tissues and organs can vary depending on the drug's properties.

Reuptake inhibitors can increase the concentration of certain drugs in the body.

The effectiveness of some antidepressant drugs can be improved by combining them with a reuptake inhibitor.

Reuptake inhibitors are commonly used to treat conditions such as depression, anxiety, and ADHD.

Reuptake is an important mechanism for terminating the effects of drugs in the body.

The reuptake of drugs by certain cells in the body can lead to toxicity or adverse effects.

Abnormalities in the reuptake of substances can lead to metabolic disorders.

A healthy liver is essential for the proper reuptake of many vital substances in the body.