Tissue Salts may be regarded as "vibrational medicine" because of the extreme dilution of the mineral salt in the lactose or other carrier substance. For example a D6 dilution is a dilution of 1:9 repeated six times. The dilution is such that the quantity of the actual mineral salt present in the final titurated mixture can be regarded as being "in essence" only and that the effect of the medication is therefore vibrational. Personally I believe that the pathways by which tissue salts are absorbed - i.e via the membranes in the mouth and throat, is the crucial element in their effectiveness, and that the tissue salts themselves are somewhere between providing molecules of salt i.e. physical particles which are absorbed into the body, and vibrational medicine.
Osseous tissue has cells that are arranged in concentric circles around a nutrient canal matrix and is hard due to calcium salts.
The deposition of calcium salts into bone tissue is called mineralization or calcification. This process helps to strengthen and harden the bones, making them more rigid and able to support the body.
The type of tissue you are describing is osseous tissue, commonly known as bone tissue. It is characterized by a matrix that includes calcium salts and collagen fibers, which provide strength and rigidity. The structural components, such as lamellae (concentric layers) and lacunae (small cavities that house osteocytes), are essential for bone's support and maintenance functions. This specialized connective tissue plays a crucial role in the skeletal system.
Bones contain hydroxyapatite, an inorganic salt.
The type of connective tissue matrix that is hard due to calcium salts and forms the hip bone is known as bone tissue, specifically osseous tissue. This matrix is mineralized, primarily composed of hydroxyapatite crystals, which provide strength and rigidity. Bone tissue also contains collagen fibers that contribute to its structural integrity and flexibility. Overall, this unique composition allows bones to support the body and protect vital organs.
hypocalcification (′hī·pō′kal·sə·fə′kā·shən) (medicine) Reduction of normal amounts of mineral salts in calcified tissue.----
Osseous tissue has calcium, salts, and blood vessels.
bone (osseus) tissue
When cartilage becomes impregnated with calcium salts, it can transform into bone tissue through a process called endochondral ossification. This leads to the formation of bone tissue from a cartilaginous template.
Osseous Tissue
ligaments
Osseous tissie
The salts that form tiny crystals in the intercellular matrix of bone tissue consist largely of calcium and phosphate ions, specifically in the form of hydroxyapatite. These salts provide the bone with its strength and hardness, contributing to its overall structure and function.
The structural element of areolar tissue that is fluid and provides a reservoir of water and salts for neighboring tissues is the extracellular matrix. This matrix is composed of a gel-like substance that contains water, salts, and various proteins, providing support and flexibility to the tissue.
The medical term for the removal of lime salts from osseous tissue is "demineralization." This process can weaken bones and lead to conditions like osteoporosis.
its the calcum salts that build up soft tissue and causes it to harden
Bone is not connective tissue. Instead, connective tissue -- ligaments and tendons -- connect to the bone.