As certified laser technicians, Stephanie's Laser Therapy uses a non-invasive, low-power laser to stimulate acupuncture points on the ears, head, hands, and wrists, triggering the release of endorphins that reduce nicotine cravings. This treatment is effective for quitting smoking, vaping, and other nicotine replacement products, as the effects build up over 12 to 24 hours, peak, and gradually dissipate over 4 to 6 weeks, providing a crucial window to break habits. The smoking cessation program requires just one 1-hour treatment, with free unlimited booster sessions available to support clients throughout their quitting journey.
CALL NOW! To support your journey with Stephanie's Laser Therapy, listen to the provided audio clips, use healthy substitutes like carrots or grapes, and step outside for a quick breath of fresh air or a short walk.
Remember, cravings are just fleeting thoughts that last 2-5 minutes—focus on someone or something special, and they will fade.
Stay connected by calling us or a supportive friend, and proudly tell everyone you know that you're now a non-smoker.
We trigger your organs with the laser so you can begin to detoxify and cleanse the body of 7000+ chemical toxins that can be found in cigarettes.
We recommend some of the world's most powerful detoxification supplements as well as anti-oxidants and immune stimulants.
These are to also help eliminate the 7000+ dangerous, toxic, chemical poisons that can be found in cigarettes, and remove them from your body quicker and easier.
Endorphins are neurotransmitters found in the brain that have pain-relieving properties similar to morphine.
Three Major Types of Endorphins
Beta-endorphins, found primarily in the pituitary gland
Enkephalins and Dynorphin - both are distributed throughout the nervous system.
Endorphins interact with opiate receptor neurons to reduce the intensity of pain among individuals afflicted with chronic pain disorders, endorphins are often found in high numbers.
Many pain-killing drugs, such as morphine and codeine, act like endorphins and actually activate opiate receptors.
Besides behaving as a pain regulator, endorphins are also thought to be connected to physiological processes including euphoric feelings, appetite modulation, and the release of sex hormones.
Prolonged, continuous exercise contribute to an increased production and release of endorphins, resulting in a sense of euphoria that has been popularly labeled ‘runners high’.
When a person inhales cigarette smoke, the nicotine in the smoke is rapidly absorbed into the blood and starts affecting the brain within 7 seconds. The result is the release of the hormone adrenaline, the "fight or flight" hormone. Physically, adrenaline will increase a person's heart rate, blood pressure and restrict flow to the heart muscle. The smoker will experience rapid, shallow breathing. Adrenaline also instructs the body to dump any excess glucose into the bloodstream.
It is thought that nicotine inhibits the release of the hormone insulin, which is responsible for removing excess sugar from a person's blood. The result can be that the smoker is slightly hyperglycemic, meaning they have more sugar in their blood than usual. High blood sugar acts as an appetite suppressant, which may be why smokers think their cigarettes reduce hunger. In the long run though, nicotine in the bloodstream increases the "bad" LDL cholesterol, which is thought to clog and harden arteries. That in turn will step up the risk of heart attack and stroke.
Nicotine activates the same reward system as do other drugs of abuse such as cocaine or amphetamine, although to a lesser degree. Research has shown that nicotine increases the level of the neurotransmitter dopamine, which is a chemical in the brain responsible for feelings of pleasure and well being. The acute effects of nicotine wear off within minutes, so people continue dosing themselves frequently throughout the day to maintain the pleasurable effects of nicotine and to prevent withdrawal symptoms.
The nicotine molecule is very similar in shape to the neurotransmitter acetylcholine, which affects many bodily functions, including breathing, heart rate, learning and memory. Acetylcholine in turn also affects other neurotransmitters that have influence over appetite, mood, and memory. When nicotine gets into the brain, it attaches to nerve cells in places where acetylcholine would, creating the same effects.