The one thing we have in common with animals, plants, and other living organisms is that we are all made of tiny little cells. The intricate human body in itself houses trillions of cells. Without cells, there wouldn’t be any life on Earth at all.
In this article, we discuss cellular anatomy and cellular function. Here, we understand how light plays a role in the support and acceleration of cellular respiration.
Think of cells as the basic building block of all living organisms. As the smallest unit of life, cells contain many parts, each with a different and specific function. The command center of the cell is called the nucleus that contains the human DNA.
As these cells combine to form into an organism, they become responsible for vital activities like nutrient intake, energy production, structure building, and hereditary material processing. They make sure that your body gets enough energy and nutrients to function 24/7.
One essential activity that our cells do for us is by taking in oxygen and nutrients to fuel body energy. This energy unit that is converted by the cells is called Adenosine Triphosphate (ATP) Energy.
The ATP itself is a molecule packed with high energy that empowers cellular function. ATP is required by the body to do every activity. Other cells that do more strenuous activities like muscle cells would need more ATP than others. The ideal optimal cellular function would allow cells to produce and use enough energy to achieve body balance or homeostasis.
The mitochondria are the powerhouses of the cell. They are responsible for the production of ATP. Aside from cellular energy, this double-membrane powerhouse does protein synthesis, cell signaling, and cell apoptosis. ATP is produced with oxygen (aerobic) or without oxygen (anaerobic), the former being more beneficial because it converts more energy. Thus, 95% of cellular energy goes through an aerobic process.
Our cells go through a process called Aerobic cellular respiration to convert oxygen, food, and water into the body’s energy currency, which is ATP. This process is a well-organized metabolic pathway that consists of four stages. Our bodies take in nutrients from the food we eat for the first two stages to convert them into carbon compounds. Then for the next steps, these carbon compounds are transformed into the energy that our cells use.
Light can sometimes be less attributed to improve our body’s physiology. However, light has benefits that go beyond aesthetic and technological purposes. Just like how light plays a role in plants' photosynthesis, it also benefits human cellular function.
Red light therapy from Kaiyan Medical composes of Red and Near-Infrared Wavelengths that aid in the Mitochondria's function to produce more ATP energy. It works by increasing the number of Mitochondria in our cells and by boosting their function.
The electron transport chain heavily governs the cellular respiration process. Red Light therapy has photons that can boost the mitochondria to function better through the Cytochrome C Oxidase. It plays an essential role in the cellular respiration process by improving the cell's electron transfer process. In this way, more ATP can be produced by the body for an enhanced cellular function.
As mentioned earlier, oxygen plays an essential role in the cellular respiration process. The infamous Nitric Oxide can take the rightful place of oxygen to limit ATP production that causes stress and cellular death. Red light therapy also gets rid of a harmful roadblock to ATP in the dissociation of Nitric Oxide and the Cox. The photons from Red light therapy prohibits the production of nitric oxide.
The effect that Red Light therapy does on our body is that by improving cellular function, our body can achieve these benefits:
As you do daily activities such as eating, drinking, walking, or working out, think of the massive role that your cellular system plays to make these activities possible. In this way, you can put conscious efforts into improving your cellular system through a healthy diet and lifestyle and by integrating Red Light Therapy.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5215870/
https://www.medicalnewstoday.com/articles/325884
https://www.britannica.com/science/cell-biology
https://www.britannica.com/science/mitochondrion