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Wallace
Henry Coulter was an engineer, inventor, entrepreneur
and visionary. He was co-founder and Chairman of Coulter ® Corporation,
a worldwide medical diagnostics company headquartered in Miami,
Florida. The two great passions of his life were applying engineering
principles to scientific research, and embracing the diversity
of world cultures. The first passion led him to invent the
Coulter Principle™, the reference method for counting
and sizing microscopic particles suspended in a fluid.
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This
invention served as the cornerstone for automating the labor
intensive process of counting and testing blood. With his vision
and tenacity, Wallace Coulter, was a founding father in the field
of laboratory hematology, the science and study of blood. His
global viewpoint and passion for world cultures inspired him
to establish over twenty international subsidiaries. He recognized
that it was imperative to employ locally based staff to service
his customers before this became standard business strategy.
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Wallace,
born in February, 1913, spent his early years in McGehee, Arkansas,
a small town near Little Rock. Wallace always had an inquisitive
mind. At age three, he was fascinated with numbers and gadgets.
When offered a bicycle for his eleventh birthday, he asked
instead for his first radio kit.He
attended his first year of college at Westminster College in
Fulton, Missouri; however, his interest in electronics led
him to transfer to the Georgia Institute of Technology for
his second
and third years of study. |
Wallace at age 3
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This
was the early 1930s, and due to the Great Depression, he was
unable to complete his education.
Wallace’s interest in electronics manifested itself in
a variety of unconventional jobs. For example, he worked for
WNDR in Memphis, TN filling in as a radio announcer, maintaining
the equipment and conducting some of the earliest experiments
on mobile communications. |
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Wallace’s
Far East Adventures
In 1935, he joined General Electric X-Ray as a sales and service engineer in
the Chicago area servicing medical equipment. This work familiarized Wallace
with the testing procedures in the hospital laboratory. When an opportunity to
cover the Far East became available, he seized the chance to live and work abroad.
The practice of employing expatriates by US companies was not commonplace before
World War II. During the next twenty-four months, Wallace was based in three
areas servicing the entire Far East; Manila, Shanghai and Singapore. He wrote
many letters home to his parents, detailing his adventures and his love of the
tropical climate, the food and the cultures. |
Wallace's
personal photo, Shanghai in the 1940's |
Wallace
first went to the Philippines, where the local GE Office was
manned by technicians from many countries. He admired the lush
landscape and varied tropical fruits. In his free time, he visited
the open air markets. This experience fostered his love of tropical
fruits. Later in life, he maintained a tropical fruit farm with
lychee, longan, carambola and more than 20 varieties of mangoes. |
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After
six months in Manila, Wallace was asked to make sales and service
calls in the more remote regions of the territory. He traveled
to Hong Kong, Macao, Canton, finally settling in Shanghai for
six months. He became fascinated with Chinese history, art and
culture. He admired the jade carvings of all colors, shapes and
sizes, but mostly loved figurines of people and animals. He maintained
this interest in Chinese art throughout his life. He began collecting
jade and his collection was seen covering every surface in his
office; he never tired of sharing their beauty.
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Wallace sharing his jade collection |
Wallace
transferred to Singapore where he remained until the Japanese
threatened the city in late 1941. With tensions rising, Wallace
tried booking his departure on one of the passenger ships leaving
the country, but failed. As the Japanese began bombing the
city, he found a small cargo boat bound for India and left
under cover
of darkness in December. After a few weeks in India, Wallace
realized that returning to the States through Europe was impossible.
He chose a more circuitous route home, making his way through
Africa and South America. It took him nearly 12 months, finally
returning to the US at Christmas, 1942. Wallace’s sojourn
in the Far East and his long journey home traversing four continents
was a transformational experience for a young man from small-town
America. It forever influenced his values, both professionally
and personally. |
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An
Elegant Idea Becomes a Company
After the War, Wallace worked for several electronics companies, including Raytheon
and Mittleman Electronics in Chicago. He maintained a laboratory at home to work
on promising ideas and projects. One such project was for the Department of Naval
Research, where Wallace was trying to standardize the size of solid particles
in the paint used on US battleships in order to improve its adherence to the
hull. |
He
began tinkering in his garage laboratory in his spare time,
experimenting with different applications of optics and electronics.
Upon returning
to the garage one cold, blustery evening, Wallace was faced
with a challenge. The supply of paint for the experiment had
frozen
while he was out. Not wanting to go back out in the cold, he
asked himself, “What substance has a viscosity similar
to paint and is readily available?”. Using his own blood,
a needle and some cellophane, the principle of using electronic
impedance to count and size microscopic particles suspended
in a fluid was invented - the Coulter® Principle. |
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Remembering
his visits to hospitals, where he observed lab workers hunched
over microscopes manually counting blood cells smeared on glass,
Wallace focused the first application on counting red blood
cells. This instrument became known as the Coulter® Counter™. |
This
simple device increased the sample size of the blood test 100
times than the usual microscope method by counting in excess
of 6000 cells per second. Additionally, it decreased the time
it took to analyze from 30 minutes to fifteen seconds and reduced
the error by a factor of approximately 10 times. |
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| Wallace’s
first attempts to patent his invention were turned away by more
than one attorney who believed “you cannot patent a hole”.
Persistent as always, Wallace finally applied for his first patent
in 1949 and it was issued on October 20, 1953. That same year,
two prototypes were sent to the National Institutes of Health
for evaluation. Shortly after, the NIH published its findings
in two key papers, citing improved accuracy and convenience of
the Coulter method of counting blood cells. That same year, Wallace
publicly disclosed his invention in his one and only technical
paper at the National Electronics Conference, “High Speed
Automatic Blood Cell Counter and Cell Size Analyzer”. |
Wallace and Joe, his brother, at the Corporation's 35th Anniversary
celebration |
In
1958, Wallace and his brother, Joseph Coulter, Jr., founded
Coulter
Electronics to manufacture, market and distribute their
Coulter Counters. From the beginning, this was a family company,
with Joseph, Sr. serving as secretary-treasurer. Wallace
and Joe,
Jr. built the early models, loaded them in their cars and
personally sold each unit. In 1959, to protect the patent
rights in Europe,
subsidiaries in the United Kingdom and France were established.
The Coulter brothers relocated their growing company to
the
Miami area in 1961, where they remained for the rest of
their lives.
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Coulter Corporation Global Locations |
Under
his tenure as chairman of the Corporation, the company developed
into the industry leader in blood cell analysis equipment, employing
almost 6,000 people, with over 50,000 instrument installations.
The company has spawned entire families of instruments, reagents
and controls not just in hematology, but also in flow cytometry,
industrial fine particle analysis, and other laboratory diagnostics. |
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Wallace
insisted that the company control the entire supply chain:
research and development, manufacturing, distribution, sales,
financing,
training and after-market service and support. In fact, Wallace’s
vision is illustrated by the fact that Coulter Corporation
was the only diagnostics company to support its instrumentation
with
the required reagents and quality control materials to operate
the full system. |
Wallace visiting manufacturing in the early years |
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Wallace
donned boxing gloves and coached his sales force on his personal “Rule
of a good salesman
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When
the pressure from competitors increased in the mid-1990s, Wallace
donned boxing gloves and coached his
sales force on his personal “Rule of a good salesman – List
the positives and concentrate on them and after you make the
sale, service the needs of your customer the best you can. Do
this and you will build a loyal customer base that will stay
with you in the hard times.” |
The
Coulter Principle is responsible for the current practice of
hematology laboratory medicine. The complete blood count or “CBC” is
the most commonly ordered diagnostic tests worldwide. Today,
ninety-eight percent of CBCs are performed on instruments using
the Coulter Principle. |
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In
fact, the Coulter Principle touches everyone’s life in
some manner from having a blood test, to painting your house,
from drinking beer or a glass of wine, eating a bar of chocolate,
swallowing a pill or applying cosmetics. The use of the Coulter
Principle modernized industry by establishing a method for
quality control and standardization for the particles used
in each of
these products. It is also critical to space exploration; NASA
utilizes it in testing the purity of its rocket fuel. The impact
of the Coulter Principle to the medical, pharmaceutical, biotechnology,
food, beverage and consumer industries is immeasurable. |
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Wallace
continued to focus the resources of the company on advancing
cellular analysis. Coulter Corporation was a pioneer in the development
of monoclonal antibodies and flow cytometry, the technology to
assay them. These technologies are used in the characterization
and treatment of cancer, leukemia and infectious diseases. The
B-1 antibody (anti-CD20), marketed as Bexxar,
developed under his guidance is proving to be a revolutionary
treatment for non-Hodgkin’s small cell lymphoma. This therapy
provides hundreds of patients with hope and an improved quality
of life, true to his company’s mission of “Science
Serving Humanity”. As a result of this continued expansion
into “cutting edge” technologies, by the 1990’s,
Coulter Corporation was one of the largest privately owned diagnostic
companies in the world. In October 1997, Coulter Corporation
was acquired by Beckman Instruments, Inc., and the company is
now known as Beckman Coulter, Inc. (BEC), a New York stock exchange
listed global provider of diagnostic systems and consumables.
The Coulter Corporation will always be remembered for placing
its customer’s interests ahead of all operational and
financial considerations, its strong investment into research,
development
and delivery of innovative products to improve human healthcare. |
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| On
the Personal Side |
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Wallace
Coulter was a very private person who sought no public acclaim,
yet his accomplishments are numerous. He received 82 patents,
many of which were issued to him for discoveries made late in
his life. In 1960, Wallace Coulter was awarded the highly prestigious John
Scott Award for Scientific Achievement. This
award, established in 1816 for “ingenious men and women”,
is given to inventors whose innovations have had a revolutionary
effect on mankind. |
 Mr.
Coulter joined
the likes of his childhood heroes, Thomas Edison, Marie Curie, Jonas
Salk and Guglielmo Marconi, in receiving this award. He continued to
receive
many other
awards from business, industry and academia.
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He
received honorary doctorates from Westminster College, Clarkson
College, the University of Miami and Barry University. He
was honored with the IEEE Morris E. Leeds Award, Florida
Industrialist of the Year, and the M.D. Buyline SAMME Lifetime
Achievement
Award. Although he was not a physician or hematologist, Wallace
is the only person to receive the American Society of Hematology
Distinguished Service Award for his enormous contribution
to the field of hematology.His was the recipient of the Association
of Clinical Scientist’s Gold Headed Cane Award and
a Fellow of the American Institute of Medical and Biological
Engineering (AIMBE). In 1998, he was inducted into the National
Academy of Engineering.
Although
Wallace Coulter received much critical acclaim over the years
for his contributions to healthcare and industry, he shunned
publicity and personal limelight. For Wallace, the accomplishment
was important and not the accolades. He lived modestly and
invested all of the company’s profits back into research
and development. Wallace was a compassionate man who always
encouraged his employees to dream and do their best. Wallace
remained single his entire life; his company and its employees
became his extended family. He personally helped many employees,
including providing loans and sponsorships. As an example,
he funded an employee’s bone marrow transplant while
this technique was still very experimental and not covered
by the company’s health insurance. Upon the sale of Coulter
Corporation, he ensured that his family of employees was “taken
care of” by setting aside a total fund of $100 million
to be paid to each and every employee around the world based
on their years of service.
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Wallace
Coulter passed away in August, 1998. As a pioneer of the diagnostic
industry he leaves behind a legacy of his achievements, including
critical advancements in diagnosis and treatment of disease,
a dynamic corporation that will continue to innovate in health
care, as well as colleagues, associates, friends and family
who were inspired by his influence. His fame and accomplishments
continue to be recognized. In 2004, Wallace was posthumously
inducted into the
National Inventor’s Hall of Fame. |
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