Donating Blood
compiled by David Barth from "Practical Guide to Better Health," in
Parade Magazine, September 2008 and from
Wikipedia, the free encyclopedia.
Who Receives Donated Blood?
About 5 million Americans receive blood transfusions each year, and it is voluntary donations from the general
public that provides blood. It is estimated that only ten percent of the people who are eligible to donate actually
give.
Donation Can Be Healthy
Donating blood can be healthy. A Scandinavian study of more than a million donors showed that giving blood
resulted in a lower risk of cancers of liver, lung, colon, stomach, and throat in men. It is not clear as to why
this is true.
Who Donates Blood?
In the developed world, most blood donors are unpaid volunteers who give blood for a community supply. In poorer
countries, established supplies are limited and donors usually give blood when family or friends need a transfusion.
Many donors donate as an act of charity, but some are paid and in some cases there are incentives other than money. A
donor can also have blood drawn for their own future use. Donating is relatively safe, but some donors have bruising
where the needle is inserted or may feel faint.
Blood Screening
Potential donors are evaluated for anything that might make their blood unsafe to use. The screening includes testing
for diseases that can be transmitted by a blood transfusion, including HIV and viral hepatitis. The donor is also asked
about medical history and given a short physical examination to make sure that the donation is not hazardous to their
health. The most common reason that a donor is ineligible is that they do not have enough red blood cells and a donation
could make them anemic. How often a donor can give varies from days to months based on what they donate and the laws of
the country where the donation takes place.
Donors are examined for signs and symptoms of diseases that can be transmitted in a blood transfusion, such as HIV,
malaria, and viral hepatitis. Screening may extend to questions about risk factors for various diseases, such as
travel to countries at risk for malaria or variant Creutzfeldt-Jakob Disease (vCJD). These questions vary from
country to country. For example, while Quebec may defer donors who lived in the United Kingdom for risk of vCJD,
donors in the United Kingdom are only restricted for vCJD risk if they have had a blood transfusion in the United
Kingdom.
Collection Details
The amount of blood drawn and the methods vary, but a typical donation is 500 milliliters of whole blood. The
collection can be done manually or with automated equipment that only takes specific portions of the blood. Most of
the components of blood used for transfusions have a short shelf life, and maintaining a constant supply is a
persistent problem.
The actual process varies according to the laws of the country, and recommendations to donors vary according to the
collecting organization. The World Health Organization gives recommendations for blood donation policies, but
in developing countries many of these are not followed. For example, proper testing requires laboratory facilities,
trained staff, and specialized reagents, all of which may be not available or too expensive for developing countries.
Types of donation
Blood donations are divided into three groups based on who will receive the collected blood.
- ALLOGENEIC: An allogeneic (also called homologous) donation is when a donor gives blood for storage at a
blood bank for transfusion to an unknown recipient. Blood that is used to make medications can be made from allogeneic
donations or from donations exclusively used for manufacturing.
- DIRECTED: A directed or replacement donor donation is when a person, often a family member, donates blood
for transfusion to a specific individual. Directed donations are rare in developed countries like Canada but
are common in developing countries such as Ghana.
- AUTOLOGOUS: The third kind is an autologous donation, when a person has blood stored that will be transfused
back to the donor at a later date, usually during or after surgery.
An event where donors come to give allogeneic blood is sometimes called a blood drive or a blood donor session. These
can occur at a blood bank but they are often set up at a location in the community such as a shopping center, workplace,
school, or house of worship. Donated blood is used for transfusions or made into medications by a process called
fractionation.
Donor Safety
The donor is also examined and asked specific questions about their medical history to make sure that donating blood
isn't hazardous to their health. The donor's hematocrit or hemoglobin level is tested to make sure that the loss of
blood will not make them anemic, and this check is the most common reason that a donor is ineligible. Pulse,
blood pressure, and body temperature are also evaluated. Elderly donors are sometimes also deferred on age alone
because of health concerns. The safety of donating blood during pregnancy has not been studied thoroughly and
pregnant women are usually deferred.
Blood Testing
The donor's blood type must be determined if the blood will be used for transfusions. The collecting agency usually
identifies whether the blood is type A, B, AB, or O and the donor's Rh (D) type and will screen for antibodies to
less common antigens. More testing, including a crossmatch, is usually done before a transfusion. Group O is often
cited as the "universal donor" but this only refers to red cell transfusions. For plasma transfusions the system
is reversed and AB is the universal donor type.
Most blood is tested for diseases, including some sexually transmitted diseases (STDs). The tests used are
high-sensitivity screening tests and no actual diagnosis is made. Some of the test results are later found to be false
positives using more specific testing. False negatives are rare, but donors are discouraged from using blood donation
for the purpose of anonymous STD screening because a false negative could mean a contaminated unit. The blood is
usually discarded if these tests are positive, but there are some exceptions, such as autologous donations. The donor
is generally notified of the test result.
Donated blood is tested by many methods, but the core tests recommended by the World Health Organization are these four:
- Hepatitis B Surface Antigen
- Antibody to Hepatitis C
- Antibody to HIV, usually subtypes 1 and 2
- Serologic test for Syphilis
The WHO reported in 2006 that 56 out of 124 countries surveyed did not use these basic tests on all blood
donations.
A variety of other tests for transfusion transmitted infections are often used based on local requirements. Additional
testing is expensive, and in some cases the tests are not implemented because of the cost. These additional tests
include other infectious diseases including:
- West Nile Virus test.
- HIV antibody test.
- p24 antigen or HIV nucleic acid test: Sometimes multiple tests are used for a single disease to cover the
limitations of each test. For example, the HIV antibody test will not detect a recently infected donor, so some blood
banks use a p24 antigen or HIV nucleic acid test in addition to the basic antibody test to detect infected donors
during that period.
- Cytomegalovirus is a special case in donor testing in that many donors will test positive for
it. The virus is not a hazard to a healthy recipient, but it can harm infants and other recipients with weak
immune systems.
Obtaining the blood
There are two main methods of obtaining blood from a donor.
- Whole Blood: The most frequent is simply to take the blood from a
vein as whole blood. This blood is typically separated into parts, usually red blood cells and plasma, since most
recipients need only a specific component for transfusions.
- Apheresis: The other method is to draw blood from the donor, separate
it using a centrifuge or a filter, store the desired part, and return the rest to the donor. This process is called
apheresis, and it is often done with a machine specifically designed for this purpose.
Direct Transfusions
For direct transfusions a vein can be used but the blood may be taken from an artery instead. In this case, the
blood is not stored and is pumped directly from the donor into the recipient. This was an early method for blood
transfusion and is rarely used in modern practice. It was phased out during World War II because of problems with
logistics, and doctors returning from treating wounded soldiers set up banks for stored blood when they returned to
civilian life.
Site preparation and drawing blood
The blood is drawn from a large arm vein close to the skin, usually the median cubital vein on the inside of the elbow.
The skin over the blood vessel is cleaned with an antiseptic such as iodine or chlorhexidine to prevent skin bacteria
from contaminating the collected blood and also to prevent infections where the needle pierced the donor's
skin.
A large needle is used to minimize shearing forces that may physically damage red blood cells as they flow through
the needle. A tourniquet is sometimes wrapped around the upper arm to increase the pressure of the blood in the arm
veins and speed up the process. The donor may also be prompted to hold an object and squeeze it repeatedly to increase
the blood flow through the vein.
Whole blood collection
The most common method is collecting the blood from the donor's vein into a container. The amount of blood drawn varies
from 200 milliliters to 550 milliliters depending on the country, but 450-500 milliliters is typical. The blood is
usually stored in a plastic bag that also contains sodium citrate, phosphate, dextrose, and sometimes adenine. This
combination keeps the blood from clotting and preserves it during storage. Other chemicals are sometimes added during
processing.
The plasma from whole blood can be used to make plasma for transfusions or it can also be processed into other medications
using a process called fractionation. This was a development of the dried plasma used to treat the wounded during World War
II and variants on the process are still used to make a variety of other medications.
Apheresis
Usually the component returned is the red blood cells, the portion of the blood that takes the longest to replace.
Using this method an individual can donate plasma or platelets much more frequently than they can safely donate whole
blood. These can be combined, with a donor giving both plasma and platelets in the same donation.
Platelets can also be separated from whole blood, but they must be pooled from multiple donations. From three to ten
units of whole blood are required for a therapeutic dose. Plateletpheresis provides at least one full dose from each
donation.
Plasmapheresis is frequently used to collect source plasma that is used for manufacturing into medications much like the
plasma from whole blood. Plasma collected at the same time as plateletpheresis is sometimes called concurrent
plasma. Apheresis is also used to collect more red blood cells than usual in a single donation and to collect white
blood cells for transfusion.
Recovery and time between donations
Donors are usually kept at the donation site for 10-15 minutes after donating since most adverse reactions take place
during or immediately after the donation. Blood centers typically provide light refreshments such as tea and biscuits
or a lunch allowance to help the donor recover. The needle site is covered with a bandage and the donor is directed to
keep the bandage on for several hours.
Donated plasma is replaced after 2-3 days. Red blood cells are replaced by bone marrow into the circulatory system at
a slower rate, on average 36 days in healthy adult males. These replacement rates are the basis of how frequently a
donor can give blood.
Plasmapheresis and plateletpheresis donors can give much more frequently because they do not lose significant amounts of
red cells. The exact rate of how often a donor can donate differs from country to country. For example, plasma donors in
the United States are allowed to donate large volumes twice a week and could nominally give 83 liters in a year, whereas
the same donor in Japan may only donate every other week and could only donate about 16 liters in a year. Red blood
cells are the limiting step for whole blood donations, and the frequency of donation varies widely. In Hong Kong it is
from three to six months, in Australia it is twelve weeks, and in the United States it is eight weeks.
Complications
Donors are screened for health problems that would put them at risk for serious complications from donating.
First-time donors, teenagers, and women are at a higher risk of a reaction. One study showed that 2% of donors had an
adverse reaction to donation. Most of these reactions are minor. A study of 194,000 donations found only one donor
with long-term complications. In the United States, a blood bank is required to report any death that might possibly
be linked to a blood donation. An analysis of all reports from October 2004 to September 2006 evaluated 22 events and
found no deaths related to donation, though one could not be ruled out.
- Hypovolemic reactions: Hypovolemic reactions can occur because of a rapid change in blood pressure.
Fainting is generally the worst problem encountered. The process has similar risks to other forms of phlebotomy.
- Bruising: Bruising of the arm from the needle insertion
is the most common concern. One study found that less than 1% of donors had this problem.
- Sodium Citrate Reactions: Donors sometimes have adverse reactions to the sodium citrate used in apheresis
collection procedures to keep the blood from clotting. Since the anticoagulant is returned to the donor along with blood
components that are not being collected,
it can bind the calcium in the donor's blood and cause hypocalcemia. These reactions tend to cause tingling in the
lips, but may cause convulsions or more serious problems. Donors are sometimes given calcium supplements during the
donation to prevent these side effects.
- Transfusion Reactions: In apheresis procedures, the red blood cells are often returned. If this is done
manually and the donor receives the
blood from a different person, a transfusion reaction can take place. Manual apheresis is extremely rare in the
developed world because of this risk and automated procedures are as safe as whole blood donations.
- Unsterilized Equipment: The final risk to blood donors is from equipment that has not been properly
sterilized. This is not a concern in
developed countries such as Ireland since all of the equipment that comes in contact with blood is disposed after
use. It was a significant problem in China in the 1990s, and up to 250,000 blood plasma donors may have been
infected with HIV from shared equipment.
Storage, supply and demand
The collected blood is usually stored as separate components, and some of these have short shelf lives. There are no
storage solutions to keep platelets for extended periods of time, though some are being studied as of 2008, and the
longest shelf life used is seven days. Red blood cells, the most frequently used component, have a shelf life of
35-42 days at refrigerated temperatures. This can be extended with by freezing with a mixture of glycerol
but this process is expensive, rarely done, and requires an extremely cold freezer for storage. Plasma can be stored
frozen for an extended period of time and is typically given an expiration date of one year and maintaining a
supply is less of a problem.
The limited storage time means that it is difficult to have a stockpile of blood to prepare for a disaster. The subject
was discussed at length after the September 11th attacks in the United States, and the consensus was that collecting
during a disaster was impractical and that efforts should be focused on maintaining an adequate supply at all times.
Blood centers in the U.S. often have difficulty maintaining even a three day supply for routine transfusion
demands.
The World Health Organization recognizes World Blood Donor Day on 14th June each year to promote blood donation. This
is the birthday of Karl Landsteiner, the scientist that discovered the ABO blood group system.
Benefits and incentives
The World Health Organization set a goal in 1997 for all blood donations to come from unpaid volunteer donors, but
as of 2006, only 49 of 124 countries surveyed had established this as a standard. Plasmapheresis donors in the United
States are still paid for donations. A few countries rely on paid donors to maintain an adequate supply. Some
countries, such as Tanzania, have made great strides in moving towards this standard, with 20 percent of donors in 2005
being unpaid volunteers and 80 percent in 2007, but 68 of 124 countries surveyed by WHO had made little or no progress.
In some countries, for example Brazil, it is against the law to receive any compensation, monetary or otherwise, for
the donation of blood or other human tissues.
In patients prone to iron overload, blood donation prevents the accumulation of toxic quantities. Blood banks in the
United States must label the blood if it is from a therapeutic donor, so most do not accept donations from donors with
any blood disease. Others, such as the Australian Red Cross Blood Service, accept blood from donors with
hemochromatosis. It is a genetic disorder that does not affect the safety of the blood. Donating blood may
reduce the risk of heart disease for men, but the link has not been firmly established.
Other incentives are sometimes added by employers, usually time off for the purposes of donating. Blood centers
will also sometimes add incentives such as assurances that donors would have priority during shortages or other
programs, prize drawings for donors and rewards for organizers of successful drives. Most allogeneic blood donors
donate as an act of charity and do not expect to receive any direct benefit from the donation.