What is spasticity? Spasticity is a condition that affects the muscles. Someone experiencing this problem will find that some of their muscles are continuously contracting involuntarily. This can end up affecting the person's ability to move around, their speech and the way they walk. Furthermore, it can also interfere with their ability to make voluntary actions. Spasticity is caused by an irregularity of signals from the central nervous system (CNS) to the muscles. It often presents itself in people who have cerebral palsy or multiple sclerosis. It can also occur after a stroke, traumatic brain injury or a spinal cord injury. Symptoms of spasticity vary depending on the muscles that are affected and the severity of the condition. People with this condition can develop increased muscle tone in the affected areas. Additionally, they can experience involuntary movements or spasms, a decrease in motor function and contractors of the muscles and tendons. Over time people can also develop abnormalities in their
THC or Tetrahydrocannabinol is a psychoactive cannabinoid present in the cannabis plant
What is nausea and vomiting? Nausea and vomiting are not illnesses in themselves, but are symptoms of other health problems. Nausea is the unwavering feeling of being sick or feeling the need to vomit. It is not necessarily painful, but it can be incredibly uncomfortable and make everyday tasks difficult. Vomiting, or emesis, is the physical act of being sick. The contents of your stomach are voluntarily or involuntarily pulled out through your esophagus and out of your mouth. Nausea and vomiting can occur at the same time or one after another. Nausea is often thought to be the precursor to vomiting. In other words, it is a way for your body to tell you that you are going to be sick. However, this is not always the case. You can also experience one without the other. What causes nausea? The cause depends on the time scale and severity of the vomiting. If it only lasts a few hours or less than two days, it is normal. It may be a reaction to bad food, stress, dizziness, or something similar. These feelings should pass once the trigger is gone...
Premenstrual syndrome (PMS) is a mixture of emotional and physical symptoms that women experience after ovulation and before their menstruation. It is thought to be due to the fact that estrogen and progesterone levels drop significantly after ovulation. PMS symptoms should stop a few days after menstruation, as hormone levels begin to rise again. More than 90% women will experience PMS symptoms at some point in their lives. For some women, the symptoms are mild and manageable. However, for others, the pain and discomfort can be so severe that it interferes with daily life. What Are the Symptoms of Premenstrual Syndrome? Due to decreased hormone levels, women may experience many emotional symptoms such as: mood swings stress anxiety sadness crying periods tiredness sleep problems under sexual desire changes in appetite and food cravings Women may also experience various uncomfortable physical symptoms such as: headaches swelling cramps diarrhea or constipation gas swollen or tender breasts pain low tolerance to noise and light There are some factors that may increase the severity of PMS.
What is stress? Stress is a necessary emotional and physical reaction that can be a response to many things. Common stress triggers involve danger, challenging situations, commitments, obligations, etc. In these situations, small bursts of stress can keep you safe. Your body releases stress hormones that result in different reactions. Your brain becomes more alert, your muscles become tense and ready, and your pulse rate increases. These are all reactions that will keep you focused and sharp in a stressful situation. Once the situation has passed, these reactions must also pass. It can be bad for your health if these feelings continue longer than your trigger is dangerous. Our bodies are not designed to be constantly in a state of stress. Symptoms of stress Cortisol is one of the body's main stress hormones. It is responsible for many important functions, such as regulating stress and making sure that the body's immune system is functioning properly.
CBD vs THC, but first... What are they? CBD vs THC, which is better? This is a very common question whose answer deserves its own article. There are many things to consider in order to know what is good for us, but we better start by talking about what they are. Cannabidiol (CBD) and tetrahydrocannabinol (THC) are cannabinoids extracted from the cannabis plant. Both interact with our endocannabinoid system but in different ways and produce different effects. Cannabinoid receptors can be found throughout our body and are responsible for many physiological effects. Therefore it has been seen that CBD and THC, by interacting with these receptors, inhibit the progression of some diseases. Subsequently, it has also been suggested that some diseases are the result of a mismatch in our endocannabinoid system. THC is the psychoactive element in cannabis and is what produces the 'high' for which it is known. However, it also has many other a
What is CBDA and THCA? Research on the medical application of cannabis has made many advances in recent years and the benefits, both medicinal and therapeutic, of cannabinoids such as CBD and THC have been demonstrated. However, these compounds would not exist without their acidic precursors: CBDA and THCA. All cannabinoids derived from cannabis and hemp come from the same "parent" compound: CBDG. Through various enzymatic reactions that occur in plant trichomes, CBGA is converted into CBDA, THCA and so on. The proportions of these compounds can vary depending on environmental factors such as sunlight, rain, temperature, altitude, and plants can also be altered to create more of one and less of the other. How do CBDA and THCA become CBD and THC? When "raw" compounds - such as CBDA - are heated to the point of losing their carboxylic acid (decarboxylation), they are activated. In l
What is the Endocannabinoid System? The endocannabinoid system was discovered while conducting research on how THC interacts with our body. Scientists identified a complicated and intricate cellular signaling system that could be found in numerous locations in the human body that they called the endocannabinoid system, or ECS, and proceeded to investigate its function and purpose. Nearly 20 years later, our understanding of ECS is much greater, but there is much more to discover. Research has revealed that ECS has a direct relationship with the regulation of the following processes: Sleep Humor Appetite and digestion Metabolism Memory Reproductive system Inflammation (and other immune responses) Motor system Pain Cardiovascular system Skin and nerves Stress What connects all these processes is that they contribute to homeostasis, the overall process of maintaining stable vital health. It appears that, when the body is a
What is the Entourage Effect? The Entourage Effect was a term coined in 1998 by two Israeli scientists who discovered that there was a difference in the way cannabinoids interacted with our bodies depending on the amount of fatty acids present. This discovery led us to realize that each of the more than 400 compounds found in the cannabis plant affects us differently and that when they all work together they produce a much more potent effect than when they are applied separately. The best known process is that which occurs between THC and CBD. THC binds very well to the CB1 receptor, which is responsible for producing the "high" sensation associated with cannabis. CBD is the cannabinoid associated with the medicinal properties of cannabis, it has no psychoactive effect and has no affinity with the CB1 receptor. When both cannabinoids are ingested, CBD will inhibit the binding of THC to the CB1 receptor and give off a "high".