A

aging, changes in the blood and lymph that
occur with The BLOODundergoes a number of
normal changes across the span of the lifetime.
Blood cells have life spans ranging from a few
hours to decades. The blood continually renews
itself, producing millions of erythrocytes and
thousands of leukocytes every hour. Blood cell
production accelerates to meet unique health
needs, such as PREGNANCYor INFECTION.
The LIVERis the first organ in the developing
fetus to produce blood cells, primarily erythro-
cytes, with supplemental production from the
SPLEENand the THYMUS. At about five gestational
months the BONE MARROWhas developed enough
to begin taking over blood cell production and by
birth is the primary structure for HEMATOPOIESIS.
Through childhood (until about age 16), nearly all
the bone marrow is red bone marrow that actively
produces blood cells. As the body matures yellow
bone marrow, a fibrous structure of connective tis-
sue and fat, gradually replaces the red bone mar-
row. By adulthood only about 60 percent of the
bone marrow is red. This level remains fairly con-
stant until around age 70, when some red bone
marrow, primarily in the long bones, again transi-
tions to yellow marrow.
The bone marrow slows ERYTHROCYTE(red blood
cell) production in advanced age, putting fewer
erythrocytes into the blood’s circulation. The
reduced erythrocyte volume correspondingly
decreases the amount of available HEMOGLOBINin
the blood, which diminishes the amount of oxy-
gen the blood can carry to the cells with each
heartbeat. This reduction commonly results in
decreased AEROBIC CAPACITY, showing lessened
ENDURANCEand longer recovery times with strenu-
ous physical activity, and may cause ANEMIA. The
spleen’s efficiency at removing old and defective

erythrocytes from the circulation declines, an

accommodation that is somewhat a double-edged

sword. While this slowed hemolytic action allows

more erythrocytes to remain in the blood to

improve the blood’s capacity to carry oxygen, a

greater number of those erythrocytes are less

effective in this role.

The LY M P Hstructures and functions also change

with age. The lymphatic system becomes active at

about age two months when the child’s IMMUNE

SYSTEMbegins to replace the protection from the

mother’s IMMUNITY. Most of the lymphocytes the

lymph tissues produce swarm to the THYMUS,

where they will come to maturity. The thymus

contains nearly the lifetime complement of imma-

ture T-cell lymphocytes (called thymocytes in

immaturity) by about age 16, at which point the

thymus reaches its peak size and level of function.

As the T-cells reach maturity they leave the thy-

mus and migrate to other lymph structures

throughout the body where they reside until the

immune system needs them. As T-cell maturation

winds down the activity of the thymus decreases

and the thymus begins to shrink, diminishing by

early adulthood to a few clusters of lymph tissue.

After adulthood, the body can make only limited

additional T-cells. Health conditions that affect T-

cells, such as HIV/AIDS, that destroys them can

deplete the body’s supply of these vital protective

cells, depriving the body of its front line immune

defense.

With age lymphocyte production also decreases,

resulting in fewer circulating lymphocytes and a

corresponding reduced resistance to infection.

Later in life the spleen diminishes in size, ultimately

retreating to about half its size in early adulthood.

Its functional capacity decreases as well, resulting

in the spleen becoming less efficient at filtering

123