Leucocytes Health Dictionary

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Leucocytes: From 1 Different Sources

The scienti?c name for white blood cells. Leucocytes contain no HAEMOGLOBIN so are colourless, and have a well-formed NUCLEUS. Healthy people have around 8,000 leucocytes per cubic millimetre of blood. There are three main classes of white cells: granulocytes, lymphocytes and monocytes.

Granulocytes Also known as polymorphonuclear leucocytes (‘polys’), these normally constitute 70 per cent of the white blood cells. They are divided into three groups according to the staining reactions of these granules: neutrophils, which stain with neutral dyes and constitute 65–70 per cent of all the white blood cells; eosinophils, which stain with acid dyes (e.g. eosin) and constitute 3–4 per cent of the total white blood cells; and basophils, which stain with basic dyes (e.g. methylene blue) and constitute about 0·5 per cent of the total white blood cells.

Lymphocytes constitute 25–30 per cent of the white blood cells. They have a clear, non-granular cytoplasm and a relatively large nucleus which is only slightly indented. They are divided into two groups: small lymphocytes, which are slightly larger than erythrocytes (about 8 micrometres in diameter); and large lymphocytes, which are about 12 micrometres in diameter.

Monocytes Motile phagocytic cells that circulate in the blood and migrate into the tissues, where they develop into various forms of MACROPHAGE such as tissue macrophages and KUPFFER CELLS.

Site of origin The granulocytes are formed in the red BONE MARROW. The lymphocytes are formed predominantly in LYMPHOID TISSUE. There is some controversy as to the site of origin of monocytes: some say they arise from lymphocytes, whilst others contend that they are derived from histiocytes – i.e. the RETICULO-ENDOTHELIAL SYSTEM.

Function The leucocytes constitute one of the most important of the defence mechanisms against infection. This applies particularly to the neutrophil leucocytes (see LEUCOCYTOSIS). (See also ABSCESS; BLOOD – Composition; INFLAMMATION; PHAGOCYTOSIS; WOUNDS.)

Health Source: Medical Dictionary
Author: Health Dictionary

Cytokines

A family of PROTEIN molecules that carry signals locally between cells. Cytokines are released by cells when activated by antigens (see ANTIGEN), behaving as enhancing mediators for immune response. These proteins include INTERLEUKINS (produced by LEUCOCYTES), lymphokines (produced by lymphocytes – see LYMPHOCYTE), INTERFERON, and tumour necrosis factor, one of whose many functions is killing tumour cells.... cytokines

Leucopenia

A condition in which the number of LEUCOCYTES in the blood is greatly reduced – by, say, ANAEMIA or cancer. It is also a dangerous sign in severe SEPTICAEMIA.... leucopenia

Leucocytosis

A condition in which the polymorphonuclear LEUCOCYTES in the blood are increased in number. It occurs in many di?erent circumstances, and forms a valuable means of diagnosis in certain diseases; however, the condition may occur as a normal reaction in certain conditions (e.g. pregnancy, menstruation, and during muscular exercise). It is usually due to the presence of in?ammatory processes (see INFLAMMATION) – the increased number of leucocytes helping to destroy the invading bacteria. Thus, during many acute infective diseases, such as pneumonia, the number is greatly increased. In all suppurative conditions (where PUS is formed) there is also a leucocytosis, and if it seems that an ABSCESS is forming deep in the abdomen, or in some other site where it cannot be readily examined – as, for example, an abscess resulting from APPENDICITIS – the examination of a drop of blood gives a valuable aid in the diagnosis, and may be su?cient, in the absence of other signs, to point out the urgent need of an operation.... leucocytosis

Abscess

A localised collection of pus. A minute abscess is known as a PUSTULE; a di?used production of pus is known as CELLULITIS or ERYSIPELAS. An abscess may be acute or chronic. An acute abscess is one which develops rapidly within the course of a few days or hours. It is characterised by a de?nite set of symptoms.

Causes The direct cause is various BACTERIA. Sometimes the presence of foreign bodies, such as bullets or splinters, may produce an abscess, but these foreign bodies may remain buried in the tissues without causing any trouble provided that they are not contaminated by bacteria or other micro-organisms.

The micro-organisms most frequently found are staphylococci (see STAPHYLOCOCCUS), and, next to these, streptococci (see STREPTOCOCCUS) – though the latter cause more virulent abscesses. Other abscess-forming organisms are Pseudomonas pyocyanea and Escherichia coli, which live always in the bowels and under certain conditions wander into the surrounding tissues, producing abscesses.

The presence of micro-organisms is not suf?cient in itself to produce suppuration (see IMMUNITY; INFECTION); streptococci can often be found on the skin and in the skin glands of perfectly healthy individuals. Whether they will produce abscesses or not depends upon the virulence of the organism and the individual’s natural resistance.

When bacteria have gained access – for example, to a wound – they rapidly multiply, produce toxins, and cause local dilatation of the blood vessels, slowing of the bloodstream, and exudation of blood corpuscles and ?uid. The LEUCOCYTES, or white corpuscles of the blood, collect around the invaded area and destroy the bacteria either by consuming them (see PHAGOCYTOSIS) or by forming a toxin that kills them. If the body’s local defence mechanisms fail to do this, the abscess will spread and may in severe cases cause generalised infection or SEPTICAEMIA.

Symptoms The classic symptoms of in?ammation are redness, warmth, swelling, pain and fever. The neighbouring lymph nodes may be swollen and tender in an attempt to stop the bacteria spreading to other parts of the body. Infection also causes an increase in the number of leucocytes in the blood (see LEUCOCYTOSIS). Immediately the abscess is opened, or bursts, the pain disappears, the temperature falls rapidly to normal, and healing proceeds. If, however, the abscess discharges into an internal cavity such as the bowel or bladder, it may heal slowly or become chronic, resulting in the patient’s ill-health.

Treatment Most local infections of the skin respond to ANTIBIOTICS. If pus forms, the abscess should be surgically opened and drained.

Abscesses can occur in any tissue in the body, but the principles of treatment are broadly the same: use of an antibiotic and, where appropriate, surgery.... abscess

Agranulocytosis

A condition in which the white cells or LEUCOCYTES in the blood of the polynuclear or granular variety become greatly lessened in numbers or disappear altogether. It is usually caused by taking such drugs as amidopyrine, thiourea, sulphonamides, chloramphenicol and the immunosuppressant drugs.... agranulocytosis

Aristolochia Longa

Linn.

Family: Aristolochiaceae. English: European Birthwort. Unani: Zaraawand Taweel.

Action: Oxytocic, abortifacient, emmenagogue.

Aristolochic acid and its Me es- ter—strongly abortifacient, showed damage to liver and kidney. Roots— anti-oestrogenic. A cytotoxic lignan, savinin, has been isolated from the roots.

Aristolochic acid also has an effect against adenosarcoma and HeLa cells in culture; however, it is suspected to be carcinogenic.

Aristolochia extracts show a pronounced enhancement of phagocytosis by leucocytes, granulocytes and peritoneal macrophages, due to the presence of aristolochic acids.

Tardolyt-coated tablets, which contain 0.3 mg of aristolochic acid, increase phagocytosis in healthy men.

Aristolochic acid also exhibits reduction of some of the toxic effects of prednisolone, chloramphenicol and tetracycline in experiments in vitro, and a reduction in the rate of recurrent herpes lesions in vivo.... aristolochia longa

Blood

Blood consists of cellular components suspended in plasma. It circulates through the blood vessels, carrying oxygen and nutrients to the organs and removing carbon dioxide and other waste products for excretion. In addition, it is the vehicle by which hormones and other humoral transmitters reach their sites of action.

Composition The cellular components are red cells or corpuscles (ERYTHROCYTES), white cells (LEUCOCYTES and lymphocytes – see LYMPHOCYTE), and platelets.

The red cells are biconcave discs with a diameter of 7.5µm. They contain haemoglobin

– an iron-containing porphyrin compound, which takes up oxygen in the lungs and releases it to the tissue.

The white cells are of various types, named according to their appearance. They can leave the circulation to wander through the tissues. They are involved in combating infection, wound healing, and rejection of foreign bodies. Pus consists of the bodies of dead white cells.

Platelets are the smallest cellular components and play an important role in blood clotting (see COAGULATION).

Erythrocytes are produced by the bone marrow in adults and have a life span of about 120 days. White cells are produced by the bone

marrow and lymphoid tissue. Plasma consists of water, ELECTROLYTES and plasma proteins; it comprises 48–58 per cent of blood volume. Plasma proteins are produced mainly by the liver and by certain types of white cells. Blood volume and electrolyte composition are closely regulated by complex mechanisms involving the KIDNEYS, ADRENAL GLANDS and HYPOTHALAMUS.... blood

Blood Corpuscle

See ERYTHROCYTES and LEUCOCYTES.... blood corpuscle

Bone Marrow

Bone marrow is the soft substance occupying the interior of bones. It is the site of formation of ERYTHROCYTES, granular LEUCOCYTES and PLATELETS.... bone marrow

Granulocytes

A variety of white blood cells, also called polymorphonuclear LEUCOCYTES, which, when stained with Romanowsky stains containing thiazine dyes and eosin, are found to contain granules in their cytoplasm. The colour of the granules enables the cells to be further classi?ed as basophils, eosinophils, and neutrophils. Neutrophils isolate and destroy invading bacteria – pus comprises mostly neutrophils. Eosinophils are also involved in the body’s allergic response to foreign proteins, and basophils are involved in in?ammatory and allergic reactions.... granulocytes

Cerebrospinal Fluid

The ?uid within the ventricles of the brain and bathing its surface and that of the spinal cord. Normally a clear, colourless ?uid, its pressure when an individual is lying on one side is 50 to 150 mm water. A LUMBAR PUNCTURE should not be done if the intracranial pressure is raised (see HYDROCEPHALUS).

The cerebrospinal ?uid (CSF) provides useful information in various conditions and is invaluable in the diagnosis of acute and chronic in?ammatory diseases of the nervous system. Bacterial MENINGITIS results in a large increase in the number of polymorphonuclear LEUCOCYTES, while a marked lymphocytosis is seen in viral meningitis and ENCEPHALITIS, tuberculous meningitis and neurosyphilis. The total protein content is raised in many neurological diseases, being particularly high with neuro?bromatosis (see VON RECKLINGHAUSEN’S DISEASE) and Guillan-Barré syndrome, while the immunoglobulin G fraction is raised in MULTIPLE SCLEROSIS (MS), neurosyphilis, and connective-tissue disorders. The glucose content is raised in diabetes (see DIABETES MELLITUS), but may be very low in bacterial meningitis, when appropriately stained smears or cultures often de?ne the infecting organism. The CSF can also be used to measure immune proteins produced in response to infection, helping diagnosis in cases where the organism is not grown in the laboratory culture.... cerebrospinal fluid

Chrysanthemum Indicum

Linn.

Synonym: Pyrethrum indicum L.

Family: Compositae; Asteraceae.

Habitat: Native to China and Japan. Cultivated as an ornamental.

English: Chrysanthemum.

Ayurvedic: Shatapatri.

Unani: Guldaaudi.

Siddha/Tamil: Samanthipoo, Akkarakkaram.

Action: Flowers—stomachic, aperient, anti-inflammatory. Leaves— prescribed in migraine (as circulatory stimulant). Uses same as those of chamomile.

The flowers contain daucosterol, cumambrin-A, glyceryl-l-monobehe- nate and palmitic acid. The flowers also contain chrysanthemol which showed strong anti-inflammatory activity in mice. The flavones, apigenin and lu- teolin, are reported to exhibit marked antitumour activity.

Flowers yield an essential oil containing camphor (16.0%), trans-cara- ne-trans-2-ol (15.0%), bornyl acetate (12.0%) and sabinene (7%).

A related species C. parthenium (Linn.) Berhh., Feverfew, synonym Tanacetum parthenium, used for the management of migraine in Western herbal, is found in Jammu and Kashmir. The plant extracts have a powerful and prostaglandin-independent inhibitory effect on the secretion of granule content by leucocytes and platelets. The inhibition of the agonist-induced serotonins release by platelets could be accounted for the benefit in migraine. The compound responsible for the anti-secretory activity has been identified as sesquiterpene alpha-methylene- gamma-lactone derivatives; partheno- lide being the main constituent of the lactones. (Two fresh or frozen leaves a day are chewed or capsules or pills containing 86 mg of the leaf material is taken for migraine. Fresh leaves may cause mouth sores.)... chrysanthemum indicum

Cinchona Officinalis

Linn.

Synonym: C. robusta How.

Family: Rubiaceae.

Habitat: Cultivated in West Bengal and Tamil Nadu.

English: Crown or Loxa Bark.

Ayurvedic: Quinine.

Unani: Al-keenaa, Kanakanaa.

Action: Antimalarial, febrifuge, astringent, orexigenic, sapasmolytic. Also prescribed in amoebic dysentery, jaundice, atonic dyspepsia, night cramps. Sometimes causes gastric and intestinal irritation.

Key application: In peptic discomforts such as bloating and fullness, loss of appetite. (German Commission E.)

The bark contains alkaloids quinine (2.35-4.42%); quinidine (1.44-2.56%); cinchonine (0.10-0.66%); cinchoni- dine (0.49-0.89%) and other alkaloids, quinamine, javanine (0.14-0.63%).

The leaves contain quercetin, kaem- pferol and avicularin.

Quinine is antimalarial; quinidine is antiarrhythmic and cardiac tonic, also used in psychic treatments.

The bark shows potent inhibitory activity against polymorphonuclear leucocytes; the activity is attributed to the alkaloids of the bark. Cinchona may potentiate coumarin derivatives. In large doses, it is sedative to CNS and cardiac plexus.

Quinine is toxic at over 3 g, quini- dine at 1 g.

Related Cinchona sp.: C. calisaya Wedd. (Nilgiris and Sikkim); C. calisaya Wedd. var. ledgeriana How. (West Bengal, Khasi Hills and Tamil Nadu); and C. succirubra Pav. ex Klotz. (Nilgiris and Annamalis in Tamil Nadu, Sikkim and West Bengal).

The bark of all the species contain quinine, quinidine, cinchonine and cinchonidine and exhibit antimalarial activity. The alcoholic extract of C. ledgeriana Moens ex Trimen bark exhibits antibacterial activity against Gram-positive bacteria comparable to sodium penicillin. The extract, however, exhibits lesser activity than di- hydrostreptomycin sulphate against Gram-negative bacteria.... cinchona officinalis

Neutropenia

A reduction in the number of neutrophil LEUCOCYTES per cubic millimetre of circulating blood to a ?gure below that found in health. There is still some disagreement over the precise limits of normality, but a count of fewer than 1,500 per mm3 would be generally accepted as constituting neutropenia. Several infective diseases are characterised by neutropenia, including typhoid fever (see ENTERIC FEVER), INFLUENZA and MEASLES. It may also be induced by certain drugs, including chloramphenicol, the sulphonamides and chlorpromazine.... neutropenia

Neutrophil

A type of leucocyte or white blood cell (see LEUCOCYTES; BLOOD).... neutrophil

Pancytopenia

A fall in the number of red ERYTHROCYTES and white LEUCOCYTES, as well as of platelets (see BLOOD – Composition). The condition is found in aplastic ANAEMIA, tumours of the BONE MARROW, enlarged SPLEEN, and other disorders.... pancytopenia

Coptis Teeta

Wall.

Family: Ranunculaceae.

Habitat: Mishmi Hills in Arunachal Pradesh. Cultivated commercially in China.

Ayurvedic: Mamira, Maamiraa, Tiktamuulaa. (Pita-muulikaa and Hem-tantu are provisional synonyms.)

Unani: Maamisaa, Maamiraa.

Folk: Titaa (Bengal and Assam).

Action: Stomachic, antiperiodic, antibacterial, antifungal. Prescribed in debility, convalescence, intermittent fevers, dyspepsia, dysentery and intestinal catarrh. Used as a local application in thrush.

The rhizomes contains berberine (9%) as the major alkaloid; other alkaloids present are: coptin (0.08%), cop- tisin 0.02%) and jatrorrhizine (0.01%). Samples from China contained 9.2612.23% berberine, 2.39-3.25% coptisin and 3.20-4.46% jatrorrhizine. In China, the herb is used as an antidiabetic; the ethanolic (50%) extract exhibited hypoglycaemic and hypotensive activity.

The drug due to berberine and its related alkaloids promoted reticuloen- dothelium to increased phagocytosis of leucocytes in dog blood in vitro and in vivo.

Coptis chinensis (Huang Lian) inhibited erythrocyte haemolysis, decreased lipid peroxidation in brain and kidney, decreased generation of superoxide peroxidation and decreased hy- droxyl radicals in rats. (Life Sci, 2000, 66(8), 725-735.)

Dosage: Root—1-3 g powder. (CCRAS.)... coptis teeta

Immunity

The body’s defence against foreign substances such as bacteria, viruses and parasites. Immunity also protects against drugs, toxins and cancer cells. It is partly non-speci?c – that is, it does not depend on previous exposure to the foreign substance. For example, micro-organisms are engulfed and inactivated by polymorphonuclear LEUCOCYTES as a ?rst line of defence before speci?c immunity has developed.

Acquired immunity depends upon the immune system recognising a substance as foreign the ?rst time it is encountered, storing this information so that it can mount a reaction the next time the substance enters the body. This is the usual outcome of natural infection or prophylactic IMMUNISATION. What happens is that memory of the initiating ANTIGEN persists in selected lymphocytes (see LYMPHOCYTE). Further challenge with the same antigen stimulates an accelerated, more vigorous secondary response by both T- and B-lymphocytes (see below). Priming the immune system in this manner forms the physiological basis for immunisation programmes.

Foreign substances which can provoke an immune response are termed ‘antigens’. They are usually proteins but smaller molecules such as drugs and chemicals can also induce an immune response. Proteins are taken up and processed by specialised cells called ‘antigenpresenting cells’, strategically sited where microbial infection may enter the body. The complex protein molecules are broken down into short amino-acid chains (peptides – see PEPTIDE) and transported to the cell surface where they are presented by structures called HLA antigens (see HLA SYSTEM).

Foreign peptides presented by human leucocyte antigen (HLA) molecules are recognised by cells called T-lymphocytes. These originate in the bone marrow and migrate to the THYMUS GLAND where they are educated to distinguish between foreign peptides, which elicit a primary immune response, and self-antigens (that is, constituents of the person themselves) which do not. Non-responsiveness to self-antigens is termed ‘tolerance’ (see AUTOIMMUNITY). Each population or clone of T-cells is uniquely responsive to a single peptide sequence because it expresses a surface molecule (‘receptor’) which ?ts only that peptide. The responsive T-cell clone induces a speci?c response in other T-and B-lymphocyte populations. For example, CYTOTOXIC T-cells penetrate infected tissues and kill cells which express peptides derived from invading micro-organisms, thereby helping to eliminate the infection.

B-lymphocytes secrete ANTIBODIES which are collectively termed IMMUNOGLOBULINS (Ig)

– see also GAMMA-GLOBULIN. Each B-cell population (clone) secretes antibody uniquely speci?c for antigens encountered in the blood, extracellular space, and the LUMEN of organs such as the respiratory passages and gastrointestinal tract.

Antibodies belong to di?erent Ig classes; IgM antibodies are synthesised initially, followed by smaller and therefore more penetrative IgG molecules. IgA antibodies are adapted to cross the surfaces of mucosal tissues so that they can adhere to organisms in the gut, upper and lower respiratory passages, thereby preventing their attachment to the mucosal surface. IgE antibodies also contribute to mucosal defence but are implicated in many allergic reactions (see ALLERGY).

Antibodies are composed of constant portions, which distinguish antibodies of di?erent class; and variable portions, which confer unique antigen-binding properties on the product of each B-cell clone. In order to match the vast range of antigens that the immune system has to combat, the variable portions are synthesised under the instructions of a large number of encoding GENES whose products are assembled to make the ?nal antibody. The antibody produced by a single B-cell clone is called a monoclonal antibody; these are now synthesised and used for diagnostic tests and in treating certain diseases.

Populations of lymphocytes with di?erent functions, and other cells engaged in immune responses, carry distinctive protein markers. By convention these are classi?ed and enumerated by their ‘CD’ markers, using monoclonal antibodies speci?c for each marker.

Immune responses are in?uenced by cytokines which function as HORMONES acting over a short range to accelerate the activation and proliferation of other cell populations contributing to the immune response. Speci?c immune responses collaborate with nonspeci?c defence mechanisms. These include the COMPLEMENT SYSTEM, a protein-cascade reaction designed to eliminate antigens neutralised by antibodies and to recruit cell populations which kill micro-organisms.... immunity

Phagocyte

Cells – including monocytes (a variety of LEUCOCYTES) in the blood and macrophages (see MACROPHAGE) in the tissues – that envelop and digest BACTERIA cells, cell debris and other small particles. Phagocytes are an essential part of the body’s defence mechanisms.... phagocyte

White Blood Cell

See LEUCOCYTES.... white blood cell

Blood Cell

(blood corpuscle) any of the cells that are present in the blood in health or disease. The cells may be subclassified into three major categories, namely red cells (*erythrocytes); white cells (*leucocytes), which include granulocytes, lymphocytes, and monocytes; and *platelets (see illustration). The blood cells account for approximately 40% of the total volume of the blood in health; red cells comprise the vast majority.... blood cell

Inadequate Intake Of Iron

The daily requirement of iron for an adult is 12 mg, and 15–20 mg for an adult woman during pregnancy. This is well covered by an ordinary diet, so that by itself it is not a common cause. But if there is a steady loss of blood, as a result of heavy menstrual loss or ‘bleeding piles’, the intake of iron in the diet may not be su?cient to maintain adequate formation of haemoglobin.

Symptoms These depend upon whether the anaemia is sudden in onset, as in severe haemorrhage, or gradual. In all cases, however, the striking sign is pallor, the depth of which depends upon the severity of the anaemia. The colour of the skin may be misleading, except in cases due to severe haemorrhage, as the skin of many Caucasian people is normally pale. The best guide is the colour of the internal lining of the eyelid. When the onset of the anaemia is sudden, the patient complains of weakness and giddiness, and loses consciousness if he or she tries to stand or sit up. The breathing is rapid and distressed, the pulse is rapid and the blood pressure is low. In chronic cases the tongue is often sore (GLOSSITIS), and the nails of the ?ngers may be brittle and concave instead of convex (koilonychia). In some cases, particularly in women, the Plummer-Vinson syndrome is present: this consists of di?culty in swallowing and may be accompanied by huskiness; in these cases glossitis is also present. There may be slight enlargement of the SPLEEN, and there is usually some diminution in gastric acidity.

CHANGES IN THE BLOOD The characteristic change is a diminution in both the haemoglobin and the red cell content of the blood. There is a relatively greater fall in the haemoglobin than in the red cell count. If the blood is examined under a microscope, the red cells are seen to be paler and smaller than normal. These small red cells are known as microcytes.

Treatment consists primarily of giving suf?cient iron by mouth to restore, and then maintain, a normal blood picture. The main iron preparation now used is ferrous sulphate, 200 mg, thrice daily after meals. When the blood picture has become normal, the dosage is gradually reduced. A preparation of iron is available which can be given intravenously, but this is only used in cases which do not respond to iron given by mouth, or in cases in which it is essential to obtain a quick response.

If, of course, there is haemorrhage, this must be arrested, and if the loss of blood has been severe it may be necessary to give a blood transfusion (see TRANSFUSION – Transfusion of blood). Care must be taken to ensure that the patient is having an adequate diet. If there is any underlying metabolic, oncological, toxic or infective condition, this, of course, must be adequately treated after appropriate investigations.

Megaloblastic hyperchromic anaemia There are various forms of anaemia of this type, such as those due to nutritional de?ciencies, but the most important is that known as pernicious anaemia.

PERNICIOUS ANAEMIA An autoimmune disease in which sensitised lymphocytes (see LYMPHOCYTE) destroy the PARIETAL cells of the stomach. These cells normally produce INTRINSIC FACTOR, the carrier protein for vitamin B12 (see APPENDIX 5: VITAMINS) that permits its absorption in the terminal part of the ILEUM. Lack of the factor prevents vitamin B12 absorption and this causes macrocytic (or megaloblastic) anaemia. The disorder can affect men and women, usually those over the age of 40; onset is insidious so it may be well advanced before medical advice is sought. The skin and MUCOSA become pale, the tongue is smooth and atrophic and is accompanied by CHEILOSIS. Peripheral NEUROPATHY is often present, resulting in PARAESTHESIA and numbness and sometimes ATAXIA. A rare complication is subacute combined degeneration of the SPINAL CORD.

In 1926 two Americans, G R Minot and W P Murphy, discovered that pernicious anaemia, a previously fatal condition, responded to treatment with liver which provides the absent intrinsic factor. Normal development requires a substance known as extrinsic factor, and this depends on the presence of intrinsic factor for its absorption from the gut. The disease is characterised in the blood by abnormally large red cells (macrocytes) which vary in shape and size, while the number of white cells (LEUCOCYTES) diminishes. A key diagnostic ?nd is the presence of cells in the BONE MARROW.

Treatment consists of injections of vitamin B12 in the form of hydroxocobalamin which must be continued for life.

Aplastic anaemia is a disease in which the red blood corpuscles are very greatly reduced, and in which no attempt appears to be made in the bone marrow towards their regeneration. It is more accurately called hypoplastic anaemia as the degree of impairment of bone-marrow function is rarely complete. The cause in many cases is not known, but in rather less than half the cases the condition is due to some toxic substance, such as benzol or certain drugs, or ionising radiations. The patient becomes very pale, with a tendency to haemorrhages under the skin and mucous membranes, and the temperature may at times be raised. The red blood corpuscles diminish steadily in numbers. Treatment consists primarily of regular blood transfusions. Although the disease is often fatal, the outlook has improved in recent years: around 25 per cent of patients recover when adequately treated, and others survive for several years. In severe cases promising results are being reported from the use of bone-marrow transplantation.

Haemolytic anaemia results from the excessive destruction, or HAEMOLYSIS, of the red blood cells. This may be the result of undue fragility of the red blood cells, when the condition is known as congenital haemolytic anaemia, or of acholuric JAUNDICE.

Sickle-cell anaemia A form of anaemia characteristically found in people of African descent, so-called because of the sickle shape of the red blood cells. It is caused by the presence of the abnormal HAEMOGLOBIN, haemoglobin S, due to AMINO ACID substitutions in their polypeptide chains, re?ecting a genetic mutation. Deoxygenation of haemoglobin S leads to sickling, which increases the blood viscosity and tends to obstruct ?ow, thereby increasing the sickling of other cells. THROMBOSIS and areas of tissue INFARCTION may follow, causing severe pain, swelling and tenderness. The resulting sickle cells are more fragile than normal red blood cells, and have a shorter life span, hence the anaemia. Advice is obtainable from the Sickle Cell Society.... inadequate intake of iron

Chemokine

n. any one of a group of small proteins that guide leucocytes to sites of infection and are vital for immune function. They fall into two main classes, CC chemokines and CXC chemokines; receptors (denoted R) are named after the class that bind to them, and subtypes of each class are indicated by numbers (e.g. CCR5).... chemokine

Differential Leucocyte Count

(differential blood count) a determination of the proportions of the different kinds of white cells (leucocytes) present in a sample of blood. Usually 100 white cells are counted and classified under the microscope or by electronic apparatus, so that the results can readily be expressed as percentages of the total number of leucocytes and the absolute numbers per litre of blood. The information often aids diagnosis of disease.... differential leucocyte count

Pneumonia

Pneumonia is an in?ammation of the lung tissue (see LUNGS) caused by infection. It can occur without underlying lung or general disease, or in patients with an underlying condition that makes them susceptible.

Pneumonia with no predisposing cause – community-acquired pneumonia – is caused most often by Streptococcus pneumoniae (PNEUMOCOCCUS). The other most common causes are viruses, Mycoplasma pneumoniae and Legionella species (Legionnaire’s disease). Another cause, Chlamydia psittaci, may be associated with exposure to perching birds.

In patients with underlying lung disease, such as CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) or BRONCHIECTASIS as in CYSTIC FIBROSIS, other organisms such as Haemophilus in?uenzae, Klebsiella, Escherichia coli and Pseudomonas aeruginosa are more prominent. In patients in hospital with severe underlying disease, pneumonia, often caused by gram-negative bacteria (see GRAM’S STAIN), is commonly the terminal event.

In patients with an immune system suppressed by pregnancy and labour, infection with HIV, CHEMOTHERAPY or immunosuppressive drugs after organ transplantation, a wider range of opportunistic organisms needs to be considered. Some of these organisms such as CYTOMEGALOVIRUS (CMV) or the fungus Pneumocystis carinii rarely cause disease in immunocompetent individuals – those whose body’s immune (defence) system is e?ective.

TUBERCULOSIS is another cause of pneumonia, although the pattern of lung involvement and the more chronic course usually di?erentiate it from other causes of pneumonia.

Symptoms The common symptoms of pneumonia are cough, fever (sometimes with RIGOR), pleuritic chest pain (see PLEURISY) and shortness of breath. SPUTUM may not be present at ?rst but later may be purulent or reddish (rusty).

Examination of the chest may show the typical signs of consolidation of an area of lung. The solid lung in which the alveoli are ?lled with in?ammatory exudate is dull to percussion but transmits sounds better than air-containing lung, giving rise to the signs of bronchial breathing and increased conduction of voice sounds to the stethoscope or palpating hand.

The chest X-ray in pneumonia shows opacities corresponding to the consolidated lung. This may have a lobar distribution ?tting with limitation to one area of the lung, or have a less con?uent scattered distribution in bronchopneumonia. Blood tests usually show a raised white cell (LEUCOCYTES) count. The organism responsible for the pneumonia can often be identi?ed from culture of the sputum or the blood, or from blood tests for the speci?c ANTIBODIES produced in response to the infection.

Treatment The treatment of pneumonia involves appropriate antibiotics together with oxygen, pain relief and management of any complications that may arise. When treatment is started, the causative organism has often not been identi?ed so that the antibiotic choice is made on the basis of the clinical features, prevalent organisms and their sensitivities. In severe cases of community-acquired pneumonia (see above), this will often be a PENICILLIN or one of the CEPHALOSPORINS to cover Strep. pneumoniae together with a macrolide such as ERYTHROMYCIN. Pleuritic pain will need analgesia to allow deep breathing and coughing; oxygen may be needed as judged by the oxygen saturation or blood gas measurement.

Possible complications of pneumonia are local changes such as lung abscess, pleural e?usion or EMPYEMA and general problems such as cardiovascular collapse and abnormalities of kidney or liver function. Appropriate treatment should result in complete resolution of the lung changes but some FIBROSIS in the lung may remain. Pneumonia can be a severe illness in previously ?t people and it may take some months to return to full ?tness.... pneumonia

Leuc

(leuco-, leuk-, leuko-) combining form denoting 1. lack of colour; white. 2. leucocytes.... leuc

Leucocytospermia

n. the presence of excess white blood cells (leucocytes) in the semen (more than 1 million/ml). It has an adverse effect on fertility.... leucocytospermia

Leucopoiesis

n. the process of the production of white blood cells (leucocytes), which normally occurs in the blood-forming tissue of the *bone marrow. See also granulopoiesis; haemopoiesis; lymphopoiesis; monoblast.... leucopoiesis

Leukocidin

n. a bacterial *exotoxin that selectively destroys white blood cells (leucocytes).... leukocidin

Leukotaxine

n. a chemical, present in inflammatory exudates, that attracts white blood cells (leucocytes) and increases the permeability of blood capillaries. It is probably produced by injured cells.... leukotaxine

Mononucleosis

n. the condition in which the blood contains an abnormally high number of mononuclear leucocytes (*monocytes and *lymphocytes). See glandular fever.... mononucleosis

Natalizumab

n. a monoclonal antibody used for the treatment of severe relapsing-remitting multiple sclerosis: it reduces demyelination and inflammation by inhibiting migration of leucocytes into the central nervous system. Side-effects include an increased risk of neurological damage and opportunistic infections.... natalizumab

Tanacetum Vulgare

Linn.

Synonym: Chrysanthemum vulgare (L.) Bernh.

Family: Compositae; Asteraceae.

Habitat: Native to Europe; found as an escape in some parts of Kashmir.

English: Tansy.

Folk: Peilmundi (Kashmir).

Action: Plant—anthelmintic, bitter tonic, emmenagogue. Used for migraine, neuralgia and nausea; as a lotion for scabies. Toxicity depends upon thujone content of the part used. Tansy oil is used as a liniment for gout and rheumatism.

Aerial parts afforded terpenoids— tanacetin, vulgarones A and B, tamirin, tanacin and tanavulgarol; germacano- lides, stearic acid, and flavonoids— apigenin trimethyl ether, apigenin, luteolin, chrysoeriol, diometin, iso- rhamnetin, quercetin and axillarin. The leaves contain parthenolide, caffe- ic, chlorogenic, iso-chlorogenic acids and vibernitol.

Indian chemotype contains beta- thujone (28.1%) as the major constituent of the essential oil. Other constituents are: beta-thujyl alcohol 8.7, /-camphor 10.0 and cineol 11.8%. The leaves contain parthenolide, caf- feic, chlorogenic, isochlorogenic acid and vibernitol.

Tanacetum parthenium (L.) Schultz Bip. (native to Europe and British Isles), known as Feverfew, is available in India for prophylactic treatment of migraine. The characteristic constituents of the herb (dried, whole or fragmented parts) are sesquiterpene lactones of which parthenolide, a ger- macanolide, is the major component. (Indian species, T. vulgare leaf also contains parthenolide).

ESCOP recommends the herb for the management of migraine for at least a few months.

(See ESCOP and WHO monographs.)

It has been shown that Feverfew extract inhibits prostaglandin production and arachidonic acid release (this activity, at least partly, explains the herb's antiplatelet and antifebrile action). The extracts also inhibit secretion of serotonin from platelet granules and proteins from polymorphonuclear leucocytes (PMN's). Since serotonin is implicated in the aetiology of migraine and PMN secretion is increased in rheumatoid arthritis. Feverfew is used in migraine and rheumatoid arthritis. (Potter's New Cyclopaedia.) Somehow, beneficial effects were not observed in a double-blind placebo-controlled trial on 40 women with rheumatoid arthritis. (WHO.)... tanacetum vulgare

Arthritis – Tuberculous

A chronic bone and joint condition due to bovine from of tuberculosis believed to be caused by drinking TB milk and cream. Mostly in children, beginning in fluids surrounding a joint before invading bone tissue. Instead of normal flesh colour a joint has a white appearance. Condition maybe secondary to disease of the lungs or glands. Pain worse at night.

Elecampane (Inula) has a direct effect on TB bacilli, controlling night sweats and localising the disease. Agents yielding salicylates (mild analgesics) Meadowsweet, White Willow, etc are of value. Echinacea increases phagocytic power of the leucocytes and may normalise percentage count of neutraphiles. To meet individual needs, it will be necessary to vary treatment many times during the course of the disease.

Alternatives. Echinacea, Elecampane, Balm of Gilead buds (Hyde), Gotu Kola, Comfrey root, Iceland Moss. Rupturewort promotes elasticity of lung tissue.

Decoction. Equal parts: Iceland Moss, Comfrey root, Elecampane root, Liquorice. Mix. 1oz to 1 pint water gently simmered 20 minutes in a covered vessel. Dose: Half a cup thrice daily.

Alternative formulae:– Powders. White Willow 2; Comfrey 1; Echinacea 1; Ginger quarter. Mix. Dose: 750mg (three 00 capsules or half a teaspoon) thrice daily.

Tinctures. White Willow 2; Echinacea 1; Blue Cohosh half; White Poplar half; Tincture Capsicum quarter. Mix. 1 teaspoon thrice daily before meals.

Tincture Krameria (Rhatany root), Dose: 30-60 drops in water thrice daily.

Fenugreek seed tea.

Comfrey. Potential benefit of Comfrey root outweighs risk.

Topical. Compresses: Mullein leaves, Lobelia, Comfrey root or Fenugreek. Evening Primrose oil. No massage to affected joints.

Diet. Low carbohydrate. Oily fish.

Supplements. Vitamins A, B6, B12, D, Niacin, Calcium, Iron, Phosphorus.

General. Tuberculosis is a notifiable disease for which specific medical treatment is available. Failure to comply may expose a practitioner to a charge of negligence. ... arthritis – tuberculous

Opsonization

n. the process by which opsonins render foreign organisms or particles more attractive to *phagocytes by attaching to their outer surfaces and changing their physical and chemical composition. Phagocytic leucocytes express receptors for these opsonins and thereby engulf and digest foreign organisms or particles.... opsonization

Osis

suffix denoting 1. a diseased condition. Examples: nephrosis (of the kidney); leptospirosis (caused by Leptospira species). 2. any condition. Example: narcosis (of stupor). 3. an increase or excess. Example: leucocytosis (of leucocytes).... osis

Peroxidase

n. an enzyme, found mainly in plants but also present in leucocytes and milk, that catalyses the dehydrogenation (oxidation) of various substances in the presence of hydrogen peroxide (which acts as a hydrogen acceptor, being converted to water in the process).... peroxidase

Cytophylactic

referring to cytophylaxis – the process of increasing the activity of leucocytes in defence of the body against infection.... cytophylactic

Leukaemia

n. any of a group of malignant diseases in which the bone marrow and other blood-forming organs produce increased numbers of certain types of white blood cells (*leucocytes). Overproduction of these white cells, which are immature or abnormal forms, suppresses the production of normal white cells, red cells, and platelets. This leads to increased susceptibility to infection (due to *neutropenia), *anaemia, and bleeding (due to *thrombocytopenia). Other symptoms include enlargement of the spleen, liver, and lymph nodes.

Leukaemias are classified into acute or chronic varieties depending on the rate of progression of the disease. They are also classified according to the type of white cell that is proliferating abnormally; for example acute lymphoblastic leukaemia (see lymphoblast), chronic lymphocytic leukaemia (see lymphocyte), acute myeloblastic leukaemia (see myeloblast), hairy-cell leukaemia (see hairy cell), and monocytic leukaemia (see monocyte). (See also myeloid leukaemia.) Leukaemias can be treated with *cytotoxic drugs or *monoclonal antibodies, which suppress the production of the abnormal cells, or occasionally with radiotherapy.... leukaemia

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