Structure and function of leucocytes and platelets
Slide 2
Leucocytes Leucocytes are cells of the immune system which are
carried around in the blood and are responsible for defending the
body against pathogens Leucocytes are categorised as granular or
agranular depending on whether or not they have granules in their
cytoplasm.
Slide 3
Leucocytes Leucocytes develop from cells in the bone marrow
which are able to differentiate into different types of cells
within the same family. These are known as multipotent cells. For
example, haematopoetic stem cells are capable of developing into
different types of white blood cells but not into brain cells.
Slide 4
Leucocyte There are two types of leucocytes. The granulocytes
(also known as polymorphonuclear leucocytes) have granules in their
cytoplasm, e.g. neutrophils, basophils and eosinophils depending on
their staining reaction. These make up 70% of leucocytes in the
blood.
Slide 5
Leucocytes The second type of leucocyte are said to be
agranulocytes (mononuclear leucocytes), which are characterized by
the lack of granules in their cytoplasm, e.g. lymphocytes,
monocytes and macrophages. These make up 30% of leucocytes
Slide 6
Function of leucocytes The following animation shows, step by
step, the physiological process of haemostasis as it occurs in
flowing blood:
Slide 7
Formation of blood cells & platelets Platelets are produced
in blood cell formation (thrombopoiesis) in bone marrow, by budding
off from megakaryocytes.
Slide 8
Formation of blood cells & platelets
Slide 9
Platelets This is a resting platelet
Slide 10
Platelets This is a platelet on the move which is sending out
pseudopodia
Slide 11
Platelets This is a spreading platelet
Slide 12
Functions of platelets Platelets have adhesive and cohesive
functions which enable them to coagulate and form a haemostatic
plug. They play an important role in blood clotting. Platelets also
have a secretory function. They secrete adhesive proteins and
coagulation and growth factors. Consequently, they play a major
role in wound healing.
Slide 13
Platelets in action-Platelet s & f The following animation
shows, step by step, the physiological process of haemostasis as it
occurs in flowing blood:
http://www.platelet-research.org/3/hemostasis.htm
Slide 14
Too few or too many platelets If there are too few platelets,
it may take a long time for bleeding to stop if the individual is
injured. However, if there are too many platelets, blood clots can
form (thrombosis), which may obstruct blood vessels and result in a
stroke, heart attack (myocardial infarction), pulmonary embolism or
the blockage of blood vessels to other parts of the body, such as
the extremities of the arms or legs
![[PPT]Blood Composition and Function - IIHS VLE DGN · Web viewCIRCULATORY SYSTEM Blood Composition and Function Dr. Vindya Rajakaruna MBBS (COLOMBO) Functions of platelets In the absence](https://img.dokumen.tips/doc/110x75/5aa6a76c7f8b9a185d8edba1/pptblood-composition-and-function-iihs-vle-dgn-viewcirculatory-system-blood.jpg)
