Afibroblast is a type of cell known as the basic cell of connective tissue. Connective tissue is a type of tissue that forms the building blocks of different tissues, muscles and organs in the body. Fibroblasts are the cells that produce and renew the collagen fibers that make up this connective tissue. These cells are important for wound healing, tissue repair and maintaining the body's connective tissue structure. Fibroblasts are widely distributed throughout the body and play a key role in tissue repair processes.
Fibroblast therapy is a natural treatment method in which the person's own cells are given back to the person through a special process. This treatment method is used to correct and rejuvenate the appearance of the skin.
What Does Fibroblast Do?
Fibroblasts are cells that produce the basic building blocks of connective tissue. These cells have several important functions:
Extracellular Matrix Production: Fibroblasts form a structure called extracellular matrix around them. This matrix consists of molecules such as various proteins (e.g. collagen and elastin) and glycosaminoglycans. The extracellular matrix holds cells together, supports them and provides a structural framework between tissues.
Building Connective Tissue: Fibroblasts synthesize proteins, especially collagen, to form connective tissue. Collagen is a type of protein that increases strength in the body and is found in various tissues. Elastin provides the elasticity of tissues.
Wound Healing: Fibroblasts are attracted to injured areas and contribute to wound healing. By producing new collagen fibers and other extracellular matrix components in the injured area, they repair the injured tissue and promote healing.
Communication between Tissues: Fibroblasts provide communication between various cells. This helps to maintain the homeostasis (balance) of connective tissue.
These functions of fibroblasts are important for maintaining and supporting the structure of tissues in the body and managing healing processes. Fibroblasts play a critical role in forming the support structure of connective tissue, skin, tendons, ligaments and organs.
Where Are Fibroblasts Found in the Body?
Fibroblasts can be found in many different tissues in the body. Some of the areas where fibroblasts are commonly found are as follows:
Skin (Skin): Fibroblasts are dense in the dermis layer of the skin. In this area, they are responsible for the production of proteins such as collagen and elastin, which give the skin its strength and elasticity.
Tendons and Ligaments: Tendons are the ligaments that connect muscles to bones, while ligaments are the ligaments that connect bones to each other. Key components of both structures include fibroblasts, and these cells help maintain the strength and elasticity of these connective tissues.
Connective Tissue: Fibroblasts are found in various connective tissues throughout the body. Connective tissue is a structure that holds organs together, supporting and protecting them. For example, internal organs such as the liver, lungs and kidneys are surrounded by connective tissue through fibroblasts.
Cartilage: Cartilage tissue, found on joint surfaces and in some organs, is maintained by fibroblasts. Fibroblasts contribute to the synthesis of the extracellular matrix in cartilage, maintaining the strength and elasticity of the tissue.
Blood Vessels: Fibroblasts play a role in maintaining the connective tissue around blood vessels. This is important to ensure the structural integrity of the vessels.
These are some of the main areas where only fibroblasts are found. However, fibroblasts are widely distributed throughout the body and can be found in a variety of tissues. These cells contribute to essential functions in the body, such as providing structure and support, and managing healing processes.
What is Fibroblast Therapy?
Fibroblast therapy refers to a cosmetic procedure that is often used for skin rejuvenation and to increase collagen production. By applying microplasma energy to the surface of the skin, this treatment stimulates skin cells and works to promote skin restructuring and rejuvenation.
Fibroblast therapy usually involves the following steps:
Cleansing and Disinfection: The skin is cleansed and disinfected before treatment.
Anesthetic Cream Application: An anesthetic cream is usually applied to the treatment area so that the patient can undergo the treatment in comfort.
Microplasma Energy Application: The treatment takes place by applying microplasma energy to the surface of the skin. This energy stimulates the skin tissue by creating small dots of microplasma on the skin.
Skin Restructuring and Collagen Production: Microplasma energy penetrates the lower layers of the skin and stimulates fibroblasts, promoting collagen and elastin production. This can improve skin firmness and reduce fine lines and wrinkles.
Recovery Process: Symptoms such as redness, crusting or swelling of the skin may occur after treatment. These symptoms are considered part of the skin's rebuilding process. The healing process can vary from person to person, but usually takes a few days to a few weeks.
In addition to skin rejuvenation, fibroblast therapy can also be used to reduce scars and improve skin tone. However, it may not be suitable for everyone and some people may experience side effects or complications. Therefore, if fibroblast therapy is being considered, it is important to consult with a specialist and make a proper assessment.
Recovery after fibroblast therapy
The healing process after fibroblast treatment may vary from person to person. After the treatment, redness and mild swelling may be seen on the skin. Crusting and dryness may occur in the first few days. The skin may be sensitive in the first week, it is important to use sunscreen. In the first few weeks, crusting and redness may decrease and changes in skin tone may be observed.
The healing process may take several weeks. After treatment, sun protection, proper skin care and following the doctor's recommendations are important. The skin may tighten with new collagen and elastin production and wrinkles may be reduced. However, the full recovery process varies depending on individual factors. Monitoring side effects and following the doctor's recommendations are important to achieve the best results.