Mrs. Hennings

What is blood? Connective tissue- yes TISSUE! Cells suspended in plasma matrix

Where are blood cells made? In children, the marrow of most of the

bones produces blood. But in adults, only the marrow of certain bones -- the spine, ribs, pelvis, and some others -- continues to make blood. Bone marrow that actively produces blood cells is called red marrow, and bone marrow that no longer produces blood cells is called yellow marrow.

What kind of life span? The different kinds of blood cells

have different "life spans" -- red blood cells last about 120 days in the bloodstream; platelets about 10 days; and the various kinds of white blood cells can last anywhere from days to years.

Blood Components: "Blood Count" – % of Each Component

Blood Components: Cells

Erythrocytes Red Blood Cells (RBC) O2 & CO2 transport

White Blood Cells (WBC) Immune defense Phagocytosis

Platelets: clotting Liquid part- plasma

Plasma

Inorganic salts – dissolved ions called the “blood electrolytes”

Plasma is 90% water Some ions buffer the blood

to maintain a normal pH of 7.35- 7.45

Salts are important in keeping the correct osmotic balance of blood

There are other plasma proteins that play important roles.

Plasma proteins are important! Immunoglobulins= antibodies- fight

viruses and other foreign agents that invade

Lipid Escort proteins

Clotting factors- help form plug when bleed

The term “serum” refers to blood after the clotting factors have been removed.

Erthyrocytes Red Blood Cells Most numerous Main function is oxygen transport Structure related to function- AGAIN! Small disks that are biconcave Shape increases surface area Mature RBC do not have NUCLEI! Is this

true in all animals? This leaves more space for hemoglobin Made in bone marrow Recycled in spleen

The red blood cells here are normal, happy RBC's. They have a zone of central pallor about 1/3 the size of the RBC. The RBC's demonstrate minimal variation in size (anisocytosis) and shape (poikilocytosis). A few small fuzzy blue platelets are seen. In the center of the field are a band neutrophil on the left and a segmented neutrophil on the right.

Each hemoglobin can bind between 1-4 molecules of oxygen.If holding 4- then it is said to be fully saturated

Iron Metabolism: Key to Hemoglobin O2 Transport

Figure 16-8: Iron metabolism

Some Diseases of RBCs and O2 Transport

Remember Sickle Cell? Can you see the

Sickle shaped cell?

What kinds of problemsDoes this cause?

Why is this disorderHighly prevalent in African Americans?

White Blood cells Major job to fight infection Leukocytes 5 major kinds- (yes you

need to know them all! )1. Basophil2. Neutrophil3. Eosinophil4. Lymphocyte- B cells and T cells5. Monocyte

Normal WBC: 4,500 to 10,000 cells/mcL

There is a basophil in the center of the field which has a lobed nucleus and numerous coarse, dark blue granules in the cytoplasm. They are infrequent in a normal peripheral blood smear, and their significance is uncertain. A band neutrophil is seen on the left, and a large, activated lymphocyte on the right.

This is a basophil.

Normal Neutrophil: Electron Micrograph

In the center of the field is an eosinophil with a bilobed nucleus and numerous reddish granules in the cytoplasm. Just underneath it is a small lymphocyte. Eosinophils can increase with allergic reactions and with parasitic infestations

Eosinophil- bilobed nucleus and red

granules

A normal mature lymphocyte is seen on the left compared to a segmented PMN on the right. An RBC is seen to be about 2/3 the size of a normal lymphocyte

Here is a monocyte. It is slightly larger than a lymphocyte and has a folded nucleus. Monocytes can migrate out of the bloodstream and become tissue macrophages under the influence of cytokines. Note the many small smudgy blue platelets between the RBC's.

Monocyte

Platelet

Blood Components: PlateletsThrombocytes

Coagulate, form plug, prevent blood loss

Formed by fragmentation from megakaryoctyes

Overview of Hemostasis: Clot Formation & Vessel Repair

Hemostasis: Vasoconstriction & Plug Formation

Blood clotting

Powerful evolutionary adaptation emergency repair

prevents excessive blood loss

Cascade reactionCascade reaction

Prothrombin

Fibrinogen Fibrin

Thrombin

fibrin protein fibersbuild clot

plateletsseal the hole

chemicalemergencysignals

Stem Cells

Multipotent Stem Cells These cells

are in the red marrow of bones

What is the difference between Multipotent and Totipotent Stem Cells?

Hematopoiesis: Blood Cell Formation

Out with the old in with the new!

Multipotent- divides one daughter stays stem cell the other becomes specialized

Erythrocytes, leukocytes, and platelets form new cells through stem cell division

Erythrocytes live only 3-4 months Negative feedback controls

erythrocyte production

Negative Feedback… Sensitive to oxygen reaching tissues

Controls Erthyrocyte production If low in oxygen then kidneys

make and secrete a hormone called erythropoietin ( EPO)that tells the stem cells to make more.

If too much oxygen then EPO falls down.

Synthetic EPO-treat anemia Athletes- inject EPO- blood

doping banned

What do you think about this being Illegal?