Microbiology and Immunology

Pyrex: construction, property, and uses in microbiology WORLD OF MICROBIOLOGY AND IMMUNOLOGY

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re-directed to issues thought at one time to be dealt with and

no longer a concern.

Certain infectious diseases represent another increas-

ingly important public health issue. Just a few decades ago

AIDS was more of a curiosity, given its seeming confinement

to groups of people who were often marginalized and ostra-

cized. In the past decade, however, it has become clear that

AIDS is an all-inclusive disease. Aside from the suffering that

the illness inflicts, the costs of care for the increasingly debil-

itated and dependent patients will constitute a huge drain on

health care budgets in the decades to come. As a result, AIDS

research to develop an effective vaccineor strategies that pro-

long the vitality of those infected with the AIDS virus is a

major public health issue and priority.

Another public health issue of current importance is

chronic bacterial and viral diseases. Conditions like

fibromyalgia may have a bacterial or viral cause. The chronic

and debilitating Lyme diseasecertainly has a bacterial cause.

Moreover, the increasing use of surgical interventions to

enhance the quality of life, with the installation of heart pace-

makers, artificial joints, and the use of catheters to deliver and

remove fluids from patients, has created conditions conducive

for the explosion in the numbers of bacterial infections that

result from the colonization of the artificial surfaces. Such

bacterial biofilms have now been proven to be the source of

infections that persist, sometimes without symptoms, in spite

of the use of antibiotics. Such infections can be life threaten-

ing, and their numbers are growing. As with the other current

public health issues, chronic infections represent both a public

health threat and a budget drain.

A final area that has long been a public health concern

is the safety of food and water. These have always been sus-

ceptible to contaminationby bacteria, protozoaand viruses, in

particular. With the popularity of prepared foods, the monitor-

ing of foods and their preparation has become both more

urgent and more difficult for the limited number of inspectors

to do. Water can easily become contaminated. The threat to

water has become greater in the past twenty years, because of

the increasing encroachment of civilization on natural areas,

where the protozoan pathogens Giardiaand Cryptosporidium

normally live, and because of the appearance of more danger-

ous bacterial pathogens, in particular Escherichia coli

O157:H7. The latter organism is a problem in food as well.

See alsoBacteria and bacterial infection; Epidemics and pan-

demics; Food safety; History of public health; Viruses and

responses to viral infection

PUBLIC HEALTH SYSTEMS•seeHISTORY OF

PUBLIC HEALTH

PULSE-CHASE EXPERIMENT•seeLABORATORY

TECHNIQUES IN IMMUNOLOGY

PYREX: CONSTRUCTION, PROPERTY,

AND USES IN MICROBIOLOGYPyrex: construction, property, and uses in microbiology

Pyrex is a brand name of a type of glass that is constructed of

borosilicate. The Corning Glass Company of Corning, New

York, developed Pyrex. Chemically, as borosilicate implies,

this type of glass is composed of silica and at least five percent

(of the total weight of the elements in the glass) of a chemical

called boric oxide. The combination and concentrations of

these constituents confers great resistance to temperature

change and corrosion by harsh chemicals, such as strong acids

and alkalis, to whatever vessel is made of the borosilicate

glass. This durability has made Pyrex glassware extremely

useful in the microbiology laboratory.

The development of Pyrex in 1924 by scientists at the

Corning Company satisfied the demand for high quality scien-

tific glassware that had began in the nineteenth century. Then,

the glassware in existence was degraded by laboratory chemi-

cals and became brittle when exposed to repeated cycles of

heating and cooling. The formulation of Pyrex minimized the

tendency of the material to expand and contract. This main-

tained the accuracy of measuring instruments such as gradu-

ated cylinders, and overcame the brittleness encountered upon

repeated autoclave sterilizationof the laboratory glassware.

Pyrex glassware immediately found acceptance in the

microbiology research community. The popularity of the

glassware continues today, despite the development of heat

and chemical resistant plastic polymers. Glass is still the pre-

ferred container for growing bacteria. This is because the glass

can be cleaned using harsh chemicals, which will completely

remove any organic material that might otherwise adhere to

the sides of the vessel. For applications where the chemical

composition and concentrations of the medium components

are crucial, such organic contaminants must be removed.

Pyrex glassware is also used to manufacture graduated

cylinders that are extremely accurate. In some applications, the

exact volume of a liquid is important to achieve. This type of

glassware is known as volumetric glassware. Plastic still can-

not match the accuracy or the unchanging efficiency of volume

delivery that is achieved by Pyrex volumetric glassware.

Another application for borosilicate glass is in the meas-

urement of optical density. For this application, typically spe-

cially designed vials are filled with the solution or suspension

of interest and then placed in the path of a beam of light in a

machine known as a spectrophotometer. The amount of light

that passes through the sample can be recorded and, with the

inclusion of appropriate controls, can be used, for example, to

determine the number of bacteria in the sample. Plastic mate-

rial does not lend itself to optical density measurements, as the

plastic can be cloudy. Thus, the vial itself would absorb some

of the incoming light. Pyrex, however, can be made so as to be

optically transparent. Growth flasks have even been made in

which a so-called “side arm,” basically a test tube that is fused

onto the flask, can be used to directly obtain optical density

measurements without removing the culturefrom the flask.

In the same vein, the use of optically transparent slabs of

Pyrex as microscopeslides is a fundamental tool in the micro-

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