Microbiology Health Dictionary

See MICROBIOLOGY.... bacteriology

This is a big group (genus) of gram-positive (see GRAM’S STAIN) rod-like BACTERIA. Found widely in the air and soil – commonly as spores

– they feed on dead organic matter. As well as infecting and spoiling food, some are pathogenic to humans, causing, for example, ANTHRAX, conjunctivitis (see EYE, DISORDERS OF) and DYSENTERY. They are also the source of some antibiotics (See under MICROBIOLOGY.)... bacillus

(Singular: bacterium.) Simple, single-celled, primitive organisms which are widely distributed throughout the world in air, water, soil, plants and animals including humans. Many are bene?cial to the environment and other living organisms, but some cause harm to their hosts and can be lethal.

Bacteria are classi?ed according to their shape: BACILLUS (rod-like), coccus (spherical – see COCCI), SPIROCHAETE (corkscrew and spiral-shaped), VIBRIO (comma-shaped), and pleomorphic (variable shapes). Some are mobile, possessing slender hairs (?agellae) on the surfaces. As well as having characteristic shapes, the arrangement of the organisms is signi?cant: some occur in chains (streptococci) and some in pairs (see DIPLOCOCCUS), while a few have a ?lamentous grouping. The size of bacteria ranges from around 0.2 to 5 µm and the smallest (MYCOPLASMA) are roughly the same size as the largest viruses (poxviruses – see VIRUS). They are the smallest organisms capable of existing outside their hosts. The longest, rod-shaped bacilli are slightly smaller than the human erythrocyte blood cell (7 µm).

Bacterial cells are surrounded by an outer capsule within which lie the cell wall and plasma membrane; cytoplasm ?lls much of the interior and this contains genetic nucleoid structures containing DNA, mesosomes (invaginations of the cell wall) and ribosomes, containing RNA and proteins. (See illustration.)

Reproduction is usually asexual, each cell dividing into two, these two into four, and so on. In favourable conditions reproduction can be very rapid, with one bacterium multiplying to 250,000 within six hours. This means that bacteria can change their characteristics by evolution relatively quickly, and many bacteria, including Mycobacterium tuberculosis and Staphylococcus aureus, have developed resistance to successive generations of antibiotics produced by man. (METHICILLIN-RESISTANT STAPHYLOCOCCUS AUREUS (MRSA)) is a serious hazard in some hospitals.

Bacteria may live as single organisms or congregate in colonies. In arduous conditions some bacteria can convert to an inert, cystic state, remaining in their resting form until the environment becomes more favourable. Bacteria have recently been discovered in an inert state in ice estimated to have been formed 250 million years ago.

Bacteria were ?rst discovered by Antonj van Leewenhoek in the 17th century, but it was not until the middle of the 19th century that Louis Pasteur, the famous French scientist, identi?ed bacteria as the cause of many diseases. Some act as harmful PATHOGENS as soon as they enter a host; others may have a neutral or benign e?ect on the host unless the host’s natural immune defence system is damaged (see IMMUNOLOGY) so that it becomes vulnerable to any previously well-behaved parasites. Various benign bacteria that permanently reside in the human body are called normal ?ora and are found at certain sites, especially the SKIN, OROPHARYNX, COLON and VAGINA. The body’s internal organs are usually sterile, as are the blood and cerebrospinal ?uid.

Bacteria are responsible for many human diseases ranging from the relatively minor – for example, a boil or infected ?nger – to the potentially lethal such as CHOLERA, PLAGUE or TUBERCULOSIS. Infectious bacteria enter the body through broken skin or by its ori?ces: by nose and mouth into the lungs or intestinal tract; by the URETHRA into the URINARY TRACT and KIDNEYS; by the vagina into the UTERUS and FALLOPIAN TUBES. Harmful bacteria then cause disease by producing poisonous endotoxins or exotoxins, and by provoking INFLAMMATION in the tissues – for example, abscess or cellulitis. Many, but not all, bacterial infections are communicable – namely, spread from host to host. For example, tuberculosis is spread by airborne droplets, produced by coughing.

Infections caused by bacteria are commonly treated with antibiotics, which were widely introduced in the 1950s. However, the con?ict between science and harmful bacteria remains unresolved, with the overuse and misuse of antibiotics in medicine, veterinary medicine and the animal food industry contributing to the evolution of bacteria that are resistant to antibiotics. (See also MICROBIOLOGY.)... bacteria

See MICROBIOLOGY.... germs

A very small, single-celled living organism that cannot usually be seen by the naked eye. The most important micro-organisms in medicine are those that cause disease. This ‘pathogenic’ group, however, forms only a small proportion of the enormous number of known microorganisms. The main pathogenic ones are BACTERIA. Others are fungi and RICKETTSIA. Though not true cells, viruses (see VIRUS) are usually classi?ed as micro-organisms. (See also MICROBIOLOGY.)... micro-organism

See BACTERIA; MICROBIOLOGY.... microbe

A National Health Service body intended to combat the increasing threat from infectious diseases and biological, chemical and radiological hazards. Covering England, the agency includes the Public Health Laboratory Service, the National Radiological Protection Board, the Centre for Applied Microbiology and Research, and the National Focus Group for Chemical Incidents.... national infection control and health protection agency

A form of micro-organism of wavy or spiral shape. (See MICROBIOLOGY.)... spirillum

An order of bacteria which has a spiral form. (See MICROBIOLOGY.)... spirochaete

Staphylococcus is a genus of gram-positive bacterium (see GRAM’S STAIN; BACTERIA) which under the microscope appears in small masses like bunches of grapes. It is one of the most common infectious micro-organisms and is found, for example, in the PUS discharged from BOILS (FURUNCULOSIS). (See also MICROBIOLOGY.)... staphylococcus

A term used to describe the attraction between chemicals that causes them to bind together, as, for example, between an antigen and an antibody (see immune response).

In microbiology, affinity describes physical similarity between organisms.

In psychology, it refers to attraction between 2 people.... affinity

These infections, also called mycoses (see MYCOSIS), are common and particularly affect the skin or mucosal membranes in, for example, the mouth, anus or vagina. Fungi consist of threadlike hyphae which form tangled masses or mycelia – common mould. In what is called dermatophyte (multicellular fungi) fungal infection of the hair, nails and SKIN, these hyphae invade the KERATIN. This is usually described as ‘RINGWORM’, although no worm is present and the infection does not necessarily occur in rings. PITYRIASIS versicolor and candidosis (monoliasis – see CANDIDA), called thrush when it occurs in the vulva, vagina and mouth, are caused by unicellular fungi which reproduce by budding and are called yeasts. Other fungi, such as ACTINOMYCOSIS, may cause deep systemic infection but this is uncommon, occurring mainly in patients with immunosuppressive disorders or those receiving prolonged treatment with ANTIBIOTICS.

Diagnosis and treatment Any person with isolated, itching, dry and scaling lesions of the skin with no obvious cause – for example, no history of eczema (see DERMATITIS) – should be suspected of having a fungal infection. Such lesions are usually asymmetrical. Skin scrapings or nail clippings should be sent for laboratory analysis. If the lesions have been treated with topical steroids they may appear untypical. Ultraviolet light ?ltered through glass (Wood’s light) will show up microsporum infections, which produce a green-blue ?uorescence.

Fungal infections used to be treated quite e?ectively with benzoic-acid compound ointment; it has now been superseded by new IMIDAZOLES preparations, such as CLOTRIMAZOLE, MICONAZOLE and terbina?ne creams. The POLYENES, NYSTATIN and AMPHOTERICIN B, are e?ective against yeast infections. If the skin is macerated it can be treated with magenta (Castellani’s) paint or dusting powder to dry it out.

Refractory fungal infection can be treated systematically provided that the diagnosis of the infection has been con?rmed. Terbina?ne, imidazoles and GRISEOFULVIN can all be taken by mouth and are e?ective for yeast infections. (Griseofulvin should not be taken in pregnancy or by people with liver failure or porphyria.) (See also FUNGUS; MICROBIOLOGY.)... fungal and yeast infections

A statutory organisation that is part of the NHS. It comprises ten laboratory groups and two centres in the UK, with central coordination from PHLS headquarters. The service provides diagnostic-testing facilities for cases of suspected infectious disease. The remit of the PHLS (which was set up during World War II and then absorbed into the NHS) is now based on legislation approved in 1977 and 1979. Its overall purpose was to protect the population from infection by maintaining a national capability of high quality for the detection, diagnosis, surveillance, protection and control of infections and communicable diseases. It provided microbiology services to hospitals, family doctors and local authorities as well as providing national reference facilities. In 2001 it was incorporated into the newly established NATIONAL INFECTION CONTROL AND HEALTH PROTECTION AGENCY.... public health laboratoryservice (phls)

Poisons produced by BACTERIA. (See also IMMUNITY; IMMUNOLOGY; MICROBIOLOGY.) Toxins are usually soluble, easily destroyed by heat, sometimes of the nature of crystalline substances, and sometimes ALBUMINS. When injected into animals in carefully graduated doses, they bring about the formation of substances called antitoxins which neutralise the action of the toxin. These antitoxins are generally produced in excessive amount, and the SERUM of the animal when withdrawn can be used for conferring antitoxic powers upon other animals or human beings to neutralise the disease in question. The best known of these antitoxins are those of DIPHTHERIA and TETANUS. Toxins are also found in many plants and in snake venom.

Some toxins are not set free by bacteria, but remain in the substance of the latter. They are known as endotoxins and are not capable of producing antitoxins.... toxins

(English) Vaccinium oxycoccos. (American) Macrocarpa oxycoccos.

Action: Antiscorbutic.

Uses: Urinary tract infections. Unpleasant odour of urine. Believed to be of value for diabetes mellitis. Suppresses symptoms of bacterial infection. Prevention of Vitamin C deficiency states. Hay fever. Food and chemical allergies.

Preparations: Cranberry Juice Capsules. Ingredients: Oil (vegetable Soya) 243mg; Cranberry Juice Concentrate 12.1-140mg (equal to 1680mg of fresh cranberries); Gelatine 118mg; Vitamin C (ascorbic acid) 100mg; Glycerine 71mg; Beeswax 14mg; Lecithin 13mg; Vitamin E (d’Alpha-Tocopheral) 2iu. 2 capsules daily. (Power Health)

Fresh juice. “For mild urinary infections – drinking 15fl oz cranberry juice daily prevented bacteria clinging to the urinary tract.” (Dr Anthony Sobota, Professor of Microbiology, Youngstown University, Ohio, USA) ... cranberries

The scientific study of parasites. Although viruses and many types of bacteria and fungi are parasites, their study is conducted under the title of microbiology.... parasitology

(necropsy, post mortem) n. a review of the clinical history of a deceased person followed by external examination of the body, evisceration and dissection of the internal organs, and ancillary investigations (such as histopathology, microbiology, or toxicology) to determine the cause of death. Autopsies may be performed on the instruction of a medicolegal authority or at the request of clinicians (with consent of the family). In addition to determining the cause of death, autopsies have a role in research, audit, clinical governance, and medical education.... autopsy

n. the science of fungi. See also microbiology. —mycologist n.... mycology

n. the science of viruses. See also microbiology.... virology

Any mechanism by which a susceptible human host is exposed to an infectious or parasitic agent. These mechanism are:- 1. Direct transmission Direct and essentially immediate transfer of infectious agents (other than from an arthropod in which the organism has undergone essential multiplication or development) to a receptive portal of entry by which infection of humans may take place. This may be by touching, as in kissing, sexual intercourse or biting (direct contact); or by the direct projection of droplet spray onto the conjunctivae, or onto the mucous membranes of the nose or mouth during sneezing, coughing, spitting or talking (usually not possible over a distance greater than 3 ft) (droplet spread); or, as in the systemic mycoses, by direct exposure of susceptible tissue to soil, compost or decaying vegetable matter that contains the agent and where it normally leads a saprophytic existence. 2. Indirect transmission (a) Vehicle-borne Contaminated materials or inanimate objects such as toys, handkerchiefs, soiled clothes, bedding (fomites), surgical instruments or dressing (indirect contact); water, food, milk, biological products including serum and plasma, or anysubstance serving as an intermediate means by which an infectious agent is transported and introduced into a susceptible host through a suitable portal of entry. The agent may or may not have multiplied or developed in or on the vehicle before being introduced into man. (2) Vector-borne (i) Mechanical:- Includes simple mechanical carriage by a crawling or flying insect through soiling of its feet or proboscis, or by passage of organisms through its gastrointestinal tract. This does not require multiplication or development of the organism. (ii) Biological:- Propagation (multiplication), cyclic development, or a combination of them (cyclopropagation) is required before the arthropod can transmit the infective form of the agent to man. An incubation period (extrinsic) is required following infection before the arthropod becomes infective. Transmission may be by saliva during biting, or by regurgitation or deposition on the skin of agents capable of penetrating subsequently through the bite wound or through an area of trauma following scratching or biting. This is transmitted by an infected invertebrate host and must be differentiated for epidemiological purposes from simple mechanical carriage by a vector in the role of a vehicle. An arthropod in either role is termed a vector. (c) Air-borne The dissemination of microbial aerosols with carriage to suitable portal of entry, usually the respiratorytract. Microbial aerosols are suspensions in air of particles consisting partially or wholly of microorganisms. Particles in the 1 to 5 micron range are quite easily drawn into the lungs and retained there. They may remain suspended in the air for long periods of time, some retaining and others losing infectivity of virulence. Not considering as airborne are droplets and other large particles, which promptlysettle out; the following are airborne, their mode of transmission indirect: (i) Droplet nuclei: Usually the small residues which result from evaporation of droplets emitted by an infected host. Droplet nuclei also may be created purposely by a variety of atomising devices, or accidentally, in microbiology laboratories or in abattoirs, rendering plants, autopsy rooms, etc. They usuallyremain suspended in the air for long periods of time. (ii) Dust: The small particles of widely varying size which may arise from contaminated floors, clothes, beddings, other articles; or from soil (usually fungus spores separated from dry soil by wind or mechanical stirring). Note: Air conditioning and similar air circulating systems may play a significant role in air-borne transmission (e.g. Legionnaire’s disease).... transmission

Analysis of a sample of blood to give information on its cells and proteins and any of the chemicals, antigens, antibodies, and gases that it carries. Such tests can be used to check on the health of major organs, as well as on respiratory function, hormonal balance, the immune system, and metabolism. Blood tests may look at numbers, shape, size, and appearance of blood cells and assess the function of clotting factors. The most important tests are blood count and blood group tests if transfusion is needed. Biochemical tests measure chemicals in the blood (see acid–base balance; kidney function tests; liver function tests). Microbiological tests (see immunoassay) look for microorganisms that are in the blood, as

in septicaemia. Microbiology also looks for antibodies in the blood, which may confirm immunity to an infection. blood transfusion The infusion of large volumes of blood or blood products directly into the bloodstream to remedy severe blood loss or to correct chronic anaemia. In an exchange transfusion, nearly all of the recipient’s blood is replaced by donor blood. Before a transfusion, a sample of the recipient’s blood is taken to identify the blood groups, and it is matched with suitable donor blood. The donor blood is transfused into an arm vein through a plastic cannula. Usually, each unit (about 500 ml) of blood is given over 1–4 hours; in an emergency, 500 ml may be given in a couple of minutes. The blood pressure, temperature, and pulse are monitored during the procedure.

If mismatched blood is accidentally introduced into the circulation, antibodies in the recipient’s blood may cause donor cells to burst, leading to shock or kidney failure. Less severe reactions can produce fever, chills, or a rash. Reactions can also occur as a result of an allergy to transfused blood components. All

blood used for transfusion is carefully screened for a number of infectious agents, including HIV (the AIDS virus) and hepatitis B and hepatitis C.

In elderly or severely anaemic patients, transfusion can overload the circulation, leading to heart failure.

In patients with chronic anaemia who need regular transfusion over many years, excess iron may accumulate (haemosiderosis) and damage organs such as the heart, liver, and pancreas.

Treatment with desferrioxamine to remove excess iron may be needed.... blood tests

(PHE) an executive agency of the Department of Health and Social Care with responsibility for providing national leadership on health protection, health improvement, and public health knowledge and information. In addition to the national team, there are four regional offices and nine local centres providing public health support to *clinical commissioning groups, local authorities, and health-care providers. PHE also hosts a network of specialist and reference microbiology laboratories. It was formed as a result of the Health and Social Care Act 2012; it absorbed the functions of a number of abolished bodies, including the *Health Protection Agency, the national network of public health observatories, and the National Treatment Agency for Substance Misuse.

Public Health England website... public health england

n. 1. (in microbiology) the degree to which a disease-causing organism responds to treatment by *antibiotics or other drugs. 2. (in preventive medicine) a measure of the reliability of a *screening test based on the proportion of people with a specific disease who react positively to the test (the higher the sensitivity the fewer *false negatives). This contrasts with specificity, which is the proportion of people free from disease who react negatively to the test (i.e. the higher the specificity the fewer the *false positives). Most screening tests operate such that if the sensitivity is increased the specificity is reduced and the proportion of false positives may rise to unacceptable proportions.... sensitivity