Looking inside your body
The human body is made up of about 200 different cell types, and different cell characteristics are important when considering the type of medical imaging technique to use.
Smooth muscle
Smooth muscle is found in place within the body such as inside the walls of blood vessels, lymphatic vessels, the urinary bladder and uterus. It has no striations and cannot be controlled voluntarily.
Under the skin, the human body is made up of about 200 different cell types. These are classified into four tissue types – epithelialmuscle, nerve and connective – and they can vary widely.
Epithelial tissue
Epithelial tissue covers the whole surface of the body. There is not much space between the cells.
Muscle tissue
Skeletal muscle
Skeletal muscle is striated. The striations are different types of fibre bundled together. Striated muscle tissue can be moved voluntarily.
Cardiac muscle.
The muscle tissue that makes up the heart. One of the three different kinds of muscle in the human body, it has striations like skeletal muscles, but it cannot be controlled voluntarily.
Muscle tissue can relax and contract. This ability means muscle tissue brings about movement.
There are three different muscle tissue categories – smooth muscle, skeletal muscle and cardiac muscle tissue. The cells that make up these tissues are all a little different.
Nerve tissue
Nerve tissue is made up of two cell types:
A nerve cell that can transmit an electrical pulse is known as a neuron.
A nerve cell that cannot transmit an electrical pulse is called a neuroglia or glial cell and makes up the support tissues for the neurons.
Connective tissue
Connective tissue includes bone, cartilage, blood and lymph, as well as other cell types. These different cells have a variety of tasks, like keeping organs in position, cushioning and forming ligaments and tendons.
Different cell characteristics
Sometimes we need to separate out different types of cells, for example, in blood. If a sample of blood is spun rapidly, the red blood cells and platelets sink to the bottom, leaving the straw-coloured plasma at the top. This is an example of different cells that are not tightly attached to each other.
Other cells in the body are tightly attached to each other, as in cartilage or organs. Cells can be separated in these cases, but it requires a great deal more effort, for example, in a biopsy, where a small piece of tissue is cut and can be viewed under a microscope to see the individual cells.
Which imaging technique?
Different cell characteristics are important when considering the type of medical imaging technique to use to see them.
X-rays are good for showing dense tissues that absorb the X-rays. This is why they are useful for looking at broken bones.
Computed tomography (CT) uses X-ray images – because there is more than one image, greater detail of tissues like blood vessels, lungs and bones can be seen.
Magnetic resonance imaging (MRI) can see right through bone and other hard tissues – this can show things like brain tumours, nerve damage and swelling.
Ultrasound scans are good at showing muscle, soft tissue and the difference between solid and fluid-filled spaces.
