Poliomyelitis Health Dictionary

Poliomyelitis: From 4 Different Sources


An infectious viral disease, also called polio. It is usually mild, but in serious cases, it attacks the brain and spinal cord, sometimes causing paralysis or death. The virus is spread from the faeces of infected people to food. Airborne transmission also occurs. In countries with poor hygiene and sanitation, most children develop immunity through being infected early in life, when the infection rarely causes serious illness. In countries with better standards, this does not occur and, if children are not vaccinated, epidemics can occur. In the , polio is now very rare due to a vaccination programme.

Most infected children have no symptoms. In others, there is a slight fever, sore throat, headache, and vomiting after a 3–5-day incubation period. Most children recover completely, but inflammation of the meninges may develop. Symptoms are fever, severe headache, stiff neck and back, and aching muscles, sometimes with widespread twitching. Often, extensive paralysis, usually of the legs and lower trunk, occurs in a few hours. If infection spreads to the brainstem, problems with, or total loss of, swallowing and breathing may result.

Diagnosis is made by lumbar puncture, throat swab, or a faeces sample. Characteristic paralysis with an acute feverish illness allows an immediate diagnosis. There is no effective drug treatment for polio. Nonparalytic patients usually need bed rest and analgesic drugs. In paralysis, physiotherapy and, in some cases, catheterization, tracheostomy, and artificial ventilation are needed.

Recovery from nonparalytic polio is complete. More than half of those with paralysis make a full recovery, fewer than a quarter are left with severe disability, and fewer than 1 in 10 dies.

In the , vaccination against polio is given at about age 2, 3, and 4 months, with a booster dose at about 5 years (see immunization). Parents and carers should also be immunized because the active vaccine can cause polio.

Health Source: BMA Medical Dictionary
Author: The British Medical Association
Once known as infantile paralysis, this disease is caused by a viral infection involving the BRAIN and SPINAL CORD. Since the development of e?ective vaccines in the 1950s (see IMMUNISATION), polio has been practically eliminated in most developed countries. People who have not been fully vaccinated, however, may get the disease: it remains a serious risk for unvaccinated travellers to Africa, Asia or southern Europe. Most reported cases are now from sub-Saharan Africa.

Pathology There are three types of virus, infection spreading by the stools-contaminated hands-mouth route. Children are most susceptible.

One attack usually produces permanent immunity, and second attacks are rare. The virus typically affects the anterior horn cells of the spinal cord, especially those in the lumbar region; the grey matter of the brain stem and cortex may also be damaged.

Vaccination is given to infants at two, three and four months: a booster dose is given at around the age of ?ve. The vaccine contains all three types of polio virus. Two types of vaccine are available: inactivated polio virus (IPV) contains dead virus and is administered by injections; oral polio vaccine (OPV) contains live, harmless strains. The latter is used in the United Kingdom.

Symptoms The incubation period is around 7–14 days, the onset being marked by a mild fever and headache which improves after a few days. In around 85 per cent of infected children there is no further progression, but in some – after approximately one week – the symptoms recur, together with neck sti?ness and signs of meningeal irritation (see MENINGES). Weakness of individual muscle groups is common, and may progress – to a variable extent, depending on the distribution of the virus – to widespread PARALYSIS. Involvement of the diaphragm and intercostal muscles may lead to respiratory failure and rapid death unless arti?cial respiration is provided. Involvement of the cranial nerves and brain may lead to nystagmus (see under EYE, DISORDERS OF), hoarseness and di?culty in swallowing, and CONVULSIONS may occur in young children. The CEREBROSPINAL FLUID shows an early increase in lymphocytes, followed by a rise in protein concentration.

Treatment There is no e?ective drug treatment for the infection. Treatment involves early bed rest, followed by PHYSIOTHERAPY and orthopaedic measures as required. At the onset of respiratory diffculties a TRACHEOSTOMY and arti?cial ventilation should be started. (In the 1950s, when polio epidemics were occurring, respiratory diffculties were treated by placing patients in an ‘iron lung’ – a large, airtight, cylindrical container in which the air pressure was raised and lowered to simulate normal breathing.) In cases of severe paralysis with persistent wasting of the limbs, surgery may be necessary to minimise the resulting disability.

Health Source: Medical Dictionary
Author: Health Dictionary
An acute inflammation of the anterior horn cells of the spinal cord due to an enterovirus infection
Health Source: Medicinal Plants Glossary
Author: Health Dictionary
(infantile paralysis, polio) n. an infectious virus disease affecting the central nervous system. The virus is excreted in the faeces of an infected person and the disease is therefore most common where sanitation is poor. However, epidemics may occur in more hygienic conditions, where individuals have not acquired immunity to the disease during infancy. Symptoms commence 7–12 days after infection. In most cases paralysis does not occur: in abortive poliomyelitis only the throat and intestines are infected and the symptoms are those of a stomach upset or influenza; in nonparalytic poliomyelitis these symptoms are accompanied by muscle stiffness, particularly in the neck and back. Paralytic poliomyelitis is much less common. The symptoms of the milder forms of the disease are followed by weakness and eventual paralysis of the muscles: in bulbar poliomyelitis the muscles of the respiratory system are involved and breathing is affected. See also post-polio syndrome.

There is no specific treatment, apart from measures to relieve the symptoms: cases of bulbar polio may require the use of a *ventilator. Immunization, using the *Sabin vaccine (taken orally) or the *Salk vaccine (injected), is highly effective.

Health Source: Oxford | Concise Colour Medical Dictionary
Author: Jonathan Law, Elizabeth Martin

Paralysis

Paralysis, or PALSY, is loss of muscular power due to some disorder of the NERVOUS SYSTEM. Weakness – rather than total movement loss – is sometimes described as paresis. Paralysis may be temporary or permanent and may be accompanied by loss of feeling.

Paralysis due to brain disease The most common form is unilateral palsy, or HEMIPLEGIA, generally arising from cerebral HAEMORRHAGE, THROMBOSIS or EMBOLISM affecting the opposite side of the BRAIN. If all four limbs and trunk are affected, the paralysis is called quadraplegia; if both legs and part of the trunk are affected, it is called paraplegia. Paralysis may also be divided into ?accid (?oppy limbs) or spastic (rigid).

In hemiplegia the cause may be an abscess, haemorrhage, thrombosis or TUMOUR in the brain. CEREBRAL PALSY or ENCEPHALITIS are other possible causes. Sometimes damage occurs in the parts of the nervous system responsible for the ?ne control of muscle movements: the cerebellum and basal ganglion are such areas, and lack of DOPAMINE in the latter causes PARKINSONISM.

Damage or injury Damage to or pressure on the SPINAL CORD may paralyse muscles supplied by nerves below the site of damage. A fractured spine or pressure from a tumour may have this e?ect. Disorders affecting the cord which can cause paralysis include osteoarthritis of the cervical vertebrae (see BONE, DISORDERS OF), MULTIPLE SCLEROSIS (MS), MYELITIS, POLIOMYELITIS and MENINGITIS. Vitamin B12 de?ciency (see APPENDIX 5: VITAMINS) may also cause deterioration in the spinal cord (see also SPINE AND SPINAL CORD, DISEASES AND INJURIES OF).

Neuropathies are a group of disorders, some inherited, that damage the peripheral nerves, thus affecting their ability to conduct electrical impulses. This, in turn, causes muscle weakness or paralysis. Among the causes of neuropathies are cancers, DIABETES MELLITUS, liver disease, and the toxic consequences of some drugs or metals – lead being one example.

Disorders of the muscles themselves – for example, muscular dystrophy (see MUSCLES, DISORDERS OF – Myopathy) – can disturb their normal working and so cause partial or complete paralysis of the part(s) affected.

Treatment The aim of treatment should be to remedy the underlying cause – for example, surgical removal of a displaced intervertebral

disc or treating diabetes mellitus. Sometimes the cause cannot be recti?ed but, whether treatable or not, physiotherapy is essential to prevent joints from seizing up and to try to maintain some tone in muscles that may be only partly affected. With temporary paralysis, such as can occur after a STROKE, physiotherapy can retrain the sufferers to use their muscles and joints to ensure mobility during and after recovery. Patients with permanent hemiplegia, paraplegia or quadraplegia need highly skilled nursing care, rehabilitative support and resources, and expert help to allow them, if possible, to live at home.... paralysis

Atrophy

Atrophy occurs when normal tissue, an organ or even the whole body wastes because the constituent cells die. Undernourishment, disease, injury, lack of use or AGEING may cause atrophy. Muscular atrophy occurs in certain neurological diseases such as POLIOMYELITIS or MUSCULAR DYSTROPHY. The ovary (see OVARIES) atrophies at the MENOPAUSE. (See also MUSCLES, DISORDERS OF.)... atrophy

Salk Vaccine

A vaccine obtained by treating the POLIOMYELITIS virus with formalin. This prevents the virus from causing the disease but allows it to stimulate the production of ANTIBODIES. Salk vaccine is given by injection and protects the recipient against the disease. (See also IMMUNISATION.)... salk vaccine

Vaccine

The name applied generally to dead or attenuated living infectious material introduced into the body, with the object of increasing its power to resist or to get rid of a disease. (See also IMMUNITY.)

Healthy people are inoculated with vaccine as a protection against a particular disease; this produces ANTIBODIES which will confer immunity against a subsequent attack of the disease. (See IMMUNISATION for programme of immunisation during childhood.)

Vaccines may be divided into two classes: stock vaccines, prepared from micro-organisms known to cause a particular disease and kept in readiness for use against that disease; and autogenous vaccines, prepared from microorganisms which are already in the patient’s body and to which the disease is due. Vaccines intended to protect against the onset of disease are of the former variety.

Autogenous vaccines are prepared by cultivating bacteria found in SPUTUM, URINE and FAECES, and in areas of in?ammation such as BOILS (FURUNCULOSIS). This type of vaccine was introduced by Wright about 1903.

Anthrax vaccine was introduced in 1882 for the protection of sheep and cattle against this disease. A safe and e?ective vaccine for use in human beings has now been evolved. (See ANTHRAX.)

BCG vaccine is used to provide protection against TUBERCULOSIS. (See also separate entry on BCG VACCINE.)

Cholera vaccine was introduced in India about 1894. Two injections are given at an interval of at least a week; this gives a varying degree of immunity for six months. (See CHOLERA.)

Diphtheria vaccine is available in several forms. It is usually given along with tetanus and pertussis vaccine (see below) in what is known as TRIPLE VACCINE. This is given in three doses: the ?rst at the age of two months; the second at three months; and the third at four months, with a booster dose at the age of ?ve years. (See DIPHTHERIA.)

Hay fever vaccine is a vaccine prepared from the pollen of various grasses. It is used in gradually increasing doses for prevention of HAY FEVER in those susceptible to this condition.

In?uenza vaccine A vaccine is now available for protection against INFLUENZA due to the in?uenza viruses A and B. Its use in Britain is customarily based on advice from the health departments according to the type of in?uenza expected in a particular year.

Measles, mumps and rubella (MMR) vaccines are given in combination early in the second year of life. A booster dose may prove necessary, as there is some interference between this vaccine and the most recent form of pertussis vaccine (see below) o?ered to children. Uptake has declined a little because of media reports suggesting a link with AUTISM – for which no reliable medical evidence (and much to the contrary) has been found by investigating epidemiologists. (See also separate entry for each disease, and for MMR VACCINE.)

Pertussis (whooping-cough) vaccine is prepared from Bordetella pertussis, and is usually given along with diphtheria and tetanus in what is known as triple vaccine. (See also WHOOPING-COUGH.)

Plague vaccine was introduced by Ha?kine, and appears to give useful protection, but the duration of protection is relatively short: from two to 20 months. Two injections are given at an interval of four weeks. A reinforcing dose should be given annually to anyone exposed to PLAGUE.

Poliomyelitis vaccine gives a high degree of protection against the disease. This is given in the form of attenuated Sabin vaccine which is taken by mouth – a few drops on a lump of sugar. Reinforcing doses of polio vaccine are recommended on school entry, on leaving school, and on travel abroad to countries where POLIOMYELITIS is ENDEMIC.

Rabies vaccine was introduced by Pasteur in 1885 for administration, during the long incubation period, to people bitten by a mad dog, in order to prevent the disease from developing. (See RABIES.)

Rubella vaccine, usually given with mumps and measles vaccine in one dose – called MMR VACCINE, see also above – now provides protection against RUBELLA (German measles). It also provides immunity for adolescent girls who have not had the disease in childhood and so ensures that they will not acquire the disease during any subsequent pregnancy – thus reducing the number of congenitally abnormal children whose abnormality is the result of their being infected with rubella via their mothers before they were born.

Smallpox vaccine was the ?rst introduced. As a result of the World Health Organisation’s successful smallpox eradication campaign – it declared the disease eradicated in 1980 – there is now no medical justi?cation for smallpox vaccination. Recently, however, there has been increased interest in the subject because of the potential threat from bioterrorism. (See also VACCINATION.)

Tetanus vaccine is given in two forms: (1) In the so-called triple vaccine, combined with diphtheria and pertussis (whooping-cough) vaccine for the routine immunisation of children (see above). (2) By itself to adults who have not been immunised in childhood and who are particularly exposed to the risk of TETANUS, such as soldiers and agricultural workers.

Typhoid vaccine was introduced by Wright and Semple for the protection of troops in the South African War and in India. TAB vaccine, containing Salmonella typhi (the causative organism of typhoid fever – see ENTERIC FEVER) and Salmonella paratyphi A and B (the organisms of paratyphoid fever – see ENTERIC FEVER) has now been replaced by typhoid monovalent vaccine, containing only S. typhi. The change has been made because the monovalent vaccine is less likely to produce painful arms and general malaise, and there is no evidence that the TAB vaccine gave any protection against paratyphoid fever. Two doses are given at an interval of 4–6 weeks, and give protection for 1–3 years.... vaccine

Child Health

Paediatrics is the branch of medicine which deals with diseases of children, but many paediatricians have a wider role, being employed largely outside acute hospitals and dealing with child health in general.

History Child health services were originally designed, before the NHS came into being, to ?nd or prevent physical illness by regular inspections. In the UK these were carried out by clinical medical o?cers (CMOs) working in infant welfare clinics (later, child health clinics) set up to ?ll the gap between general practice and hospital care. The services expanded greatly from the mid 1970s; ‘inspections’ have evolved into a regular screening and surveillance system by general practitioners and health visitors, while CMOs have mostly been replaced by consultant paediatricians in community child health (CPCCH).

Screening Screening begins at birth, when every baby is examined for congenital conditions such as dislocated hips, heart malformations, cataract and undescended testicles. Blood is taken to ?nd those babies with potentially brain-damaging conditions such as HYPOTHYROIDISM and PHENYLKETONURIA. Some NHS trusts screen for the life-threatening disease CYSTIC FIBROSIS, although in future it is more likely that ?nding this disease will be part of prenatal screening, along with DOWN’S (DOWN) SYNDROME and SPINA BIFIDA. A programme to detect hearing impairment in newborn babies has been piloted from 2001 in selected districts to ?nd out whether it would be a useful addition to the national screening programme. Children from ethnic groups at risk of inherited abnormalities of HAEMOGLOBIN (sickle cell disease; thalassaemia – see under ANAEMIA) have blood tested at some time between birth and six months of age.

Illness prevention At two months, GPs screen babies again for these abnormalities and start the process of primary IMMUNISATION. The routine immunisation programme has been dramatically successful in preventing illness, handicap and deaths: as such it is the cornerstone of the public health aspect of child health, with more potential vaccines being made available every year. Currently, infants are immunised against pertussis (see WHOOPING COUGH), DIPHTHERIA, TETANUS, POLIOMYELITIS, haemophilus (a cause of MENINGITIS, SEPTICAEMIA, ARTHRITIS and epiglottitis) and meningococcus C (SEPTICAEMIA and meningitis – see NEISSERIACEAE) at two, three and four months. Selected children from high-risk groups are o?ered BCG VACCINE against tuberculosis and hepatitis vaccine. At about 13 months all are o?ered MMR VACCINE (measles, mumps and rubella) and there are pre-school entry ‘boosters’ of diphtheria, tetanus, polio, meningococcus C and MMR. Pneumococcal vaccine is available for particular cases but is not yet part of the routine schedule.

Health promotion and education Throughout the UK, parents are given their child’s personal health record to keep with them. It contains advice on health promotion, including immunisation, developmental milestones (when did he or she ?rst smile, sit up, walk and so on), and graphs – called centile charts – on which to record height, weight and head circumference. There is space for midwives, doctors, practice nurses, health visitors and parents to make notes about the child.

Throughout at least the ?rst year of life, both parents and health-care providers set great store by regular weighing, designed to pick up children who are ‘failing to thrive’. Measuring length is not quite so easy, but height measurements are recommended from about two or three years of age in order to detect children with disorders such as growth-hormone de?ciency, malabsorption (e.g. COELIAC DISEASE) and psychosocial dwar?sm (see below).

All babies have their head circumference measured at birth, and again at the eight-week check. A too rapidly growing head implies that the infant might have HYDROCEPHALUS – excess ?uid in the hollow spaces within the brain. A too slowly growing head may mean failure of brain growth, which may go hand in hand with physically or intellectually delayed development.

At about eight months, babies receive a surveillance examination, usually by a health visitor. Parents are asked if they have any concerns about their child’s hearing, vision or physical ability. The examiner conducts a screening test for hearing impairment – the so-called distraction test; he or she stands behind the infant, who is on the mother’s lap, and activates a standardised sound at a set distance from each ear, noting whether or not the child turns his or her head or eyes towards the sound. If the child shows no reaction, the test is repeated a few weeks later; if still negative then referral is made to an audiologist for more formal testing.

The doctor or health visitor will also go through the child’s developmental progress (see above) noting any signi?cant deviation from normal which merits more detailed examination. Doctors are also recommended to examine infants developmentally at some time between 18 and 24 months. At this time they will be looking particularly for late walking or failure to develop appropriate language skills.... child health

Enteroviruses

A family of VIRUSES which include the POLIOMYELITIS, COXSACKIE and ECHO (see ECHOVIRUSES) groups of viruses. Their importance lies in their tendency to invade the central nervous system. They receive their name from the fact that their mode of entry into the body is through the gut.... enteroviruses

Infantile Paralysis

An old name for POLIOMYELITIS.... infantile paralysis

Muscles, Disorders Of

Compression syndrome The tense, painful state of muscles induced by excessive accumulation of INTERSTITIAL ?uid in them, following unusual exercise. This condition is more liable to occur in the muscles at the front of the shin, because they lie within a tight fascial membrane: here the syndrome is known as the anterior tibial syndrome (‘shin splints’). Prevention consists of always keeping ?t and in training for the amount of exercise to be undertaken. Equally important is what is known in sporting circles as ‘warming down’: i.e., at the end of training or a game, exercise should be gradually tailed o?. Treatment consists of elevation of the affected limb, compression of it by compression bandages, with ample exercise of the limb within the bandage, and massage. In more severe cases DIURETICS may be given. Occasionally surgical decompression may be necessary.

Cramp Painful spasm of a muscle usually caused by excessive and prolonged contraction of the muscle ?bres. Cramps are common, especially among sportsmen and women, normally lasting a short time. The condition usually occurs during or immediately following exercise as a result of a build-up of LACTIC ACID and other chemical by-products in the muscles

– caused by the muscular e?orts. Cramps may occur more frequently, especially at night, in people with poor circulation, when the blood is unable to remove the lactic acid from the muscles quickly enough.

Repetitive movements such as writing (writer’s cramp) or operating a keyboard can cause cramp. Resting muscles may suffer cramp if a person sits or lies in an awkward position which limits local blood supply to them. Profuse sweating as a result of fever or hot weather can also cause cramp in resting muscle, because the victim has lost sodium salts in the sweat; this disturbs the biochemical balance in muscle tissue.

Treatment is to massage and stretch the affected muscle – for example, cramp in the calf muscle may be relieved by pulling the toes on the affected leg towards the knee. Persistent night cramps sometimes respond to treatment with a drug containing CALCIUM or QUININE. If cramp persists for an hour or more, the person should seek medical advice, as there may be a serious cause such as a blood clot impeding the blood supply to the area affected.

Dystrophy See myopathy below.

In?ammation (myositis) of various types may occur. As the result of injury, an ABSCESS may develop, although wounds affecting muscle generally heal well. A growth due to SYPHILIS, known as a gumma, sometimes forms a hard, almost painless swelling in a muscle. Rheumatism is a vague term traditionally used to de?ne intermittent and often migratory discomfort, sti?ness or pain in muscles and joints with no obvious cause. The most common form of myositis is the result of immunological damage as a result of autoimmune disease. Because it affects many muscles it is called POLYMYOSITIS.

Myasthenia (see MYASTHENIA GRAVIS) is muscle weakness due to a defect of neuromuscular conduction.

Myopathy is a term applied to an acquired or developmental defect in certain muscles. It is not a neurological disease, and should be distinguished from neuropathic conditions (see NEUROPATHY) such as MOTOR NEURONE DISEASE (MND), which tend to affect the distal limb muscles. The main subdivisions are genetically determined, congenital, metabolic, drug-induced, and myopathy (often in?ammatory) secondary to a distant carcinoma. Progressive muscular dystrophy is characterised by symmetrical wasting and weakness, the muscle ?bres being largely replaced by fatty and ?brous tissue, with no sensory loss. Inheritance may take several forms, thus affecting the sex and age of victims.

The commonest type is DUCHENNE MUSCULAR DYSTROPHY, which is inherited as a sex-linked disorder. It nearly always occurs in boys.

Symptoms There are three chief types of myopathy. The commonest, known as pseudohypertrophic muscular dystrophy, affects particularly the upper part of the lower limbs of children. The muscles of the buttocks, thighs and calves seem excessively well developed, but nevertheless the child is clumsy, weak on his legs, and has di?culty in picking himself up when he falls. In another form of the disease, which begins a little later, as a rule at about the age of 14, the muscles of the upper arm are ?rst affected, and those of the spine and lower limbs become weak later on. In a third type, which begins at about this age, the muscles of the face, along with certain of the shoulder and upper arm muscles, show the ?rst signs of wasting. All the forms have this in common: that the affected muscles grow weaker until their power to contract is quite lost. In the ?rst form, the patients seldom reach the age of 20, falling victims to some disease which, to ordinary people, would not be serious. In the other forms the wasting, after progressing to a certain extent, often remains stationary for the rest of life. Myopathy may also be acquired when it is the result of disease such as thyrotoxicosis (see under THYROID GLAND, DISEASES OF), osteomalacia (see under BONE, DISORDERS OF) and CUSHING’S DISEASE, and the myopathy resolves when the primary disease is treated.

Treatment Some myopathies may be the result of in?ammation or arise from an endocrine or metabolic abnormality. Treatment of these is the treatment of the cause, with supportive physiotherapy and any necessary physical aids while the patient is recovering. Treatment for the hereditary myopathies is supportive since, at present, there is no cure – although developments in gene research raise the possibility of future treatment. Physiotherapy, physical aids, counselling and support groups may all be helpful in caring for these patients.

The education and management of these children raise many diffculties. Much help in dealing with these problems can be obtained from Muscular Dystrophy Campaign.

Myositis ossi?cans, or deposition of bone in muscles, may be congenital or acquired. The congenital form, which is rare, ?rst manifests itself as painful swellings in the muscles. These gradually harden and extend until the child is encased in a rigid sheet. There is no e?ective treatment and the outcome is fatal.

The acquired form is a result of a direct blow on muscle, most commonly on the front of the thigh. The condition should be suspected whenever there is severe pain and swelling following a direct blow over muscle. The diagnosis is con?rmed by hardening of the swelling. Treatment consists of short-wave DIATHERMY with gentle active movements. Recovery is usually complete.

Pain, quite apart from any in?ammation or injury, may be experienced on exertion. This type of pain, known as MYALGIA, tends to occur in un?t individuals and is relieved by rest and physiotherapy.

Parasites sometimes lodge in the muscles, the most common being Trichinella spiralis, producing the disease known as TRICHINOSIS (trichiniasis).

Rupture of a muscle may occur, without any external wound, as the result of a spasmodic e?ort. It may tear the muscle right across – as sometimes happens to the feeble plantaris muscle in running and leaping – or part of the muscle may be driven through its ?brous envelope, forming a HERNIA of the muscle. The severe pain experienced in many cases of LUMBAGO is due to tearing of one of the muscles in the back. These conditions are usually relieved by rest and massage. Partial muscle tears, such as occur in sport, require more energetic treatment: in the early stages this consists of the application of an ice or cold-water pack, ?rm compression, elevation of the affected limb, rest for a day or so and then gradual mobilisation (see SPORTS MEDICINE).

Tumours occur occasionally, the most common being ?broid, fatty, and sarcomatous growths.

Wasting of muscles sometimes occurs as a symptom of disease in other organs: for example, damage to the nervous system, as in poliomyelitis or in the disease known as progressive muscular atrophy. (See PARALYSIS.)... muscles, disorders of

Sabin Vaccine

Introduced in 1962, the attenuated live oral vaccine (Sabin) against POLIOMYELITIS replaced the previous inactivated vaccine introduced in 1956 (see SALK VACCINE).... sabin vaccine

Tubocurarine

A voluntary-muscle relaxant given by intravenous injection before surgery under general ANAESTHESIA. The drug is also used to treat conditions such as TETANUS, ENCEPHALITIS and POLIOMYELITIS in which severe muscle spasms occur. Overdosage may result in respiratory failure because the muscles essential for breathing are paralysed.... tubocurarine

Child Development Teams (cdts)

Screening and surveillance uncover problems which then need careful attention. Most NHS districts have a CDT to carry out this task – working from child development centres – usually separate from hospitals. Various therapists, as well as consultant paediatricians in community child health, contribute to the work of the team. They include physiotherapists, occupational therapists, speech therapists, psychologists, health visitors and, in some centres, pre-school teachers or educational advisers and social workers. Their aims are to diagnose the child’s problems, identify his or her therapy needs and make recommendations to the local health and educational authorities on how these should be met. A member of the team will usually be appointed as the family’s ‘key worker’, who liaises with other members of the team and coordinates the child’s management. Regular review meetings are held, generally with parents sharing in the decisions made. Mostly children seen by CDTs are under ?ve years old, the school health service and educational authorities assuming responsibility thereafter.

Special needs The Children Act 1989, Education Acts 1981, 1986 and 1993, and the Chronically Sick and Disabled Persons Legislation 1979 impose various statutory duties to identify and provide assistance for children with special needs. They include the chronically ill as well as those with impaired development or disabilities such as CEREBRAL PALSY, or hearing, vision or intellectual impairment. Many CDTs keep a register of such children so that services can be e?ciently planned and evaluated. Parents of disabled children often feel isolated and neglected by society in general; they are frequently frustrated by the lack of resources available to help them cope with the sheer hard work involved. The CDT, through its key workers, does its best to absorb anger and divert frustration into constructive actions.

There are other groups of children who come to the attention of child health services. Community paediatricians act as advisers to adoption and fostering agencies, vital since many children needing alternative homes have special medical or educational needs or have behavioural or psychiatric problems. Many see a role in acting as advocates, not just for those with impairments but also for socially disadvantaged children, including those ‘looked after’ in children’s homes and those of travellers, asylum seekers, refugees and the homeless.

Child protection Regrettably, some children come to the attention of child health specialists because they have been beaten, neglected, emotionally or nutritionally starved or sexually assaulted by their parents or carers. Responsibility for the investigation of these children is that of local-authority social-services departments. However, child health professionals have a vital role in diagnosis, obtaining forensic evidence, advising courts, supervising the medical aspects of follow-up and teaching doctors, therapists and other professionals in training. (See CHILD ABUSE.)

School health services Once children have reached school age, the emphasis changes. The prime need becomes identifying those with problems that may interfere with learning – including those with special needs as de?ned above, but also those with behavioural problems. Teachers and parents are advised on how to manage these problems, while health promotion and health education are directed at children. Special problems, especially as children reach secondary school (aged 11–18) include accidents, substance abuse, psychosexual adjustment, antisocial behaviour, eating disorders and physical conditions which loom large in the minds of adolescents in particular, such as ACNE, short stature and delayed puberty.

There is no longer, in the UK, a universal school health service as many of its functions have been taken over by general practitioners and hospital and community paediatricians. However, most areas still have school nurses, some have school doctors, while others do not employ speci?c individuals for these tasks but share out aspects of the work between GPs, health visitors, community nurses and consultant paediatricians in child health.

Complementing their work is the community dental service whose role is to monitor the whole child population’s dental health, provide preventive programmes for all, and dental treatment for those who have di?culty using general dental services – for example, children with complex disability. All children in state-funded schools are dentally screened at ages ?ve and 15.

Successes and failures Since the inception of the NHS, hospital services for children have had enormous success: neonatal and infant mortality rates have fallen by two-thirds; deaths from PNEUMONIA have fallen from 600 per million children to a handful; and deaths from MENINGITIS have fallen to one-?fth of the previous level. Much of this has been due to the revolution in the management of pregnancy and labour, the invention of neonatal resuscitation and neonatal intensive care, and the provision of powerful antibiotics.

At the same time, some children acquire HIV infection and AIDS from their affected mothers (see AIDS/HIV); the prevalence of atopic (see ATOPY) diseases (ASTHMA, eczema – see DERMATITIS, HAY FEVER) is rising; more children attend hospital clinics with chronic CONSTIPATION; and little can be done for most viral diseases.

Community child health services can also boast of successes. The routine immunisation programme has wiped out SMALLPOX, DIPHTHERIA and POLIOMYELITIS and almost wiped out haemophilus and meningococcal C meningitis, measles and congenital RUBELLA syndrome. WHOOPING COUGH outbreaks continue but the death and chronic disability rates have been greatly reduced. Despite these huge health gains, continuing public scepticism about the safety of immunisation means that there can be no relaxation in the educational and health-promotion programme.

Services for severely and multiply disabled children have improved beyond all recognition with the closure of long-stay institutions, many of which were distinctly child-unfriendly. Nonetheless, scarce resources mean that families still carry heavy burdens. The incidence of SUDDEN INFANT DEATH SYNDROME (SIDS) has more than halved as a result of an educational programme based on ?rm scienti?c evidence that the risk can be reduced by putting babies to sleep on their backs, avoidance of parental smoking, not overheating, breast feeding and seeking medical attention early for illness.

Children have fewer accidents and better teeth but new problems have arisen: in the 1990s children throughout the developed world became fatter. A UK survey in 2004 found that one in ?ve children are overweight and one in 20 obese. Lack of exercise, the easy availability of food at all times and in all places, together with the rise of ‘snacking’, are likely to provoke signi?cant health problems as these children grow into adult life. Adolescents are at greater risk than ever of ill-health through substance abuse and unplanned pregnancy. Child health services are facing new challenges in the 21st century.... child development teams (cdts)

Amyotrophy

Shrinkage or wasting away of a muscle, leading to weakness.

Amyotrophy is usually due to poor nutrition, reduced use of the muscle (as when a limb is immobilized for a long period), or disruption of the blood or nerve supply to the muscle (as can occur in diabetes mellitus or poliomyelitis).... amyotrophy

Communicable Diseases Control

The control of disease caused by infectious agents or their toxic products. Successes in the 19th and 20th centuries in the treatment and control of communicable diseases such as SMALLPOX, CHOLERA, TUBERCULOSIS, gastrointestinal infections, POLIOMYELITIS and SEXUALLY TRANSMITTED DISEASES (STDS) resulted in an erroneous conception that they no longer posed a serious threat to public health, and certainly not in developed countries. As a consequence, the maintenance of e?ective public health strategies steadily lost out in the competition for resources to the more ‘glamorous’ developments in medicine, such as improved CANCER treatments, HEART surgery, kidney DIALYSIS and organ TRANSPLANTATION. However, in recent decades the dangers of this approach have become increasingly apparent. Rapidly expanding urban populations, more complex lifestyles, new and resurgent infections (some linked to a spread of antibiotic resistance) such as AIDS/HIV and variant CREUTZFELDT-JAKOB DISEASE (CJD), and the ease with which infection can be spread by the enormous growth of long-distance travel and population migrations are severely straining existing public health measures. The supply of clean water, e?ective waste- and sewage-disposal measures, the hygienic production and delivery of food and early detection and subsequent prevention of infectious diseases can no longer be taken for granted. Governments will need to strengthen the provision of workable, properly resourced public health facilities, and developing countries will need ?nancial support and expert help from developed nations to achieve this objective. Timely recognition of new and resurgent infectious diseases requires national and international early-warning mechanisms to ensure rapid investigation and implementation of e?ective control measures. Otherwise, serious breakdowns in public health will occur, and international co-operation is vital to provide and support control measures. (See also COMMUNICABLE DISEASE; NOTIFIABLE DISEASES.)... communicable diseases control

Coxsackie Viruses

A group of viruses so-called because they were ?rst isolated from two patients with a disease resembling paralytic POLIOMYELITIS, in the village of Coxsackie in New York State. Thirty distinct types have now been identi?ed. They constitute one of the three groups of viruses included in the family of ENTEROVIRUSES, and are divided into two groups: A and B. Despite the large number of types of group A virus (24) in existence, evidence of their role in causing human disease is limited. Some, however, cause aseptic MENINGITIS, non-specicifc upper respiratory infection and MYOCARDITIS, and others cause a condition known as HERPANGINA. HAND, FOOT AND MOUTH DISEASE is another disease caused by the A group. All six types of group B virus have been associated with outbreaks of aseptic meningitis, and they are also the cause of BORNHOLM DISEASE. Epidemics of type B2 infections tend to occur in alternate years. (See VIRUS.)... coxsackie viruses

Immune System

See IMMUNITY.

Age Disease and mode of administration

3 days BCG (Bacille Calmette-Guerin) by injection if tuberculosis in family in past 6 months.

2 months Poliomyelitis (oral); adsorbed diphtheria, whooping-cough (pertussis)1 and tetanus2 (triple vaccine given by injection); HiB injection.3

3 months Poliomyelitis (oral); diphtheria, whooping-cough (pertussis)1 and tetanus2 (triple vaccine given by injection); HiB injection.3

4 months Poliomyelitis (oral); diphtheria, whooping-cough (pertussis)1 and tetanus2 (triple vaccine given by injection); HiB injection.3

12–18 months Measles, mumps, and rubella (German measles)4 (given together live by injection).

(SCHOOL ENTRY)

4–5 years Poliomyelitis (oral); adsorbed diphtheria and tetanus (given together by injection); give MMR vaccine if not already given at 12–18 months.

10–14 females Rubella (by injection) if they have missed MMR.

10–14 BCG (Bacille Calmette-Guerin) by injection to tuberculin-negative children to prevent tuberculosis.

15–18 Poliomyelitis single booster dose (oral); tetanus (by injection).

1 Pertussis may be excluded in certain susceptible individuals.

2 Known as DPT or triple vaccine.

3 Haemophilus in?uenzae immunisation (type B) is being introduced to be given at same time, but di?erent limb.

4 Known as MMR vaccine. (Some parents are asking to have their infants immunised with single-constituent vaccines because of controversy over possible side-effects – yet to be con?rmed scienti?cally – of the combined MMR vaccine.)

Recommended immunisation schedules in the United Kingdom... immune system

Iron Lung

A large machine formerly used to maintain breathing, especially in people paralysed by poliomyelitis. The iron lung has been replaced by more efficient means of maintaining breathing (see ventilation).... iron lung

Leg, Shortening Of

Shortening of the leg is usually caused by faulty healing of a fractured femur (thigh-bone) or tibia (shin).

Other causes are an abnormality present from birth, surgery on the leg, or muscle weakness associated with poliomyelitis or another neurological disorder.... leg, shortening of

Polio

An abbreviation for poliomyelitis.... polio

Viraemia

The presence of virus particles in the blood. Viraemia can occur at certain stages in a variety of viral infections. Some viruses, such as those responsible for viral hepatitis, yellow fever, and poliomyelitis, are transported in the bloodstream. Others, such as the rubella virus and HIV, multiply in, and spread via, certain white blood cells. If viraemia is a feature of a viral infection, there is a risk that the infection may be transmitted to other people in blood or blood products, or by insects that feed on blood.... viraemia

Infantile

adj. 1. denoting conditions occurring in adults that are recognizable in childhood, e.g. poliomyelitis (infantile paralysis) and infantile scurvy. 2. of, relating to, or affecting infants.... infantile

Polioencephalitis

n. a virus infection of the brain causing particular damage to the *grey matter of the cerebral hemispheres and the brainstem. The term is now usually restricted to infections of the brain by the poliomyelitis virus.... polioencephalitis

Infant Mortality Rate (imr)

The number of deaths of infants under one year of age. The IMR in any given year is calculated as the number of deaths in the ?rst year of life in proportion to every 1,000 registered live births in that year. Along with PERINATAL MORTALITY, it is accepted as one of the most important criteria for assessing the health of the community and the standard of the social conditions of a country.

The improvement in the infant mortality rate has occurred mainly in the period from the second month of life. There has been much less improvement in the neonatal mortality rate – that is, the number of infants dying during the ?rst four weeks of life, expressed as a proportion of every 1,000 live births. During the ?rst week of life the main causes of death are asphyxia, prematurity, birth injuries and congenital abnormalities. After the ?rst week the main cause of death is infection.

Social conditions also play an important role in infant mortality. In England and Wales the infant mortality rate in 1930–32 was: Social Class I (professional), 32·7; Social Class III (skilled workers), 57·6; Social Class V (unskilled workers), 77·1. Many factors come into play in producing these social variations, but overcrowding is undoubtedly one of the most important.

1838–9 146 1950–52 30 1851–60 154 1960–62 22 1900–02 142 1970–72 18 1910–12 110 1980–82 12 1920–22 82 1990–92 7 1930–32 67 1996 6·2 1940–42 59 1999 5.8 2000 5.6

It is thus evident that for a reduction of the infant mortality rate to the minimum ?gure, the following conditions must be met. Mothers and potential mothers must be housed adequately in healthy surroundings, particularly with regard to safe water supplies and sewage disposal. The pregnant and nursing mother must be ensured an adequate diet. E?ective antenatal supervision must be available to every mother, as well as skilled supervision during labour (see PREGNANCY AND LABOUR). The newborn infant must be adequately nursed and fed and mothers encouraged to breast feed. Environmental and public-health measures must be taken to ensure adequate housing, a clean milk supply and full availability of medical care including such protective measures as IMMUNISATION against diphtheria, measles, poliomyelitis and whooping-cough. (See also PERINATAL MORTALITY.)... infant mortality rate (imr)

Intensive Care Medicine

The origin of this important branch of medicine lies in the e?ective use of positive-pressure VENTILATION of the lungs to treat respiratory breathing failure in patients affected by POLIOMYELITIS in an outbreak of this potentially fatal disease in Denmark in 1952. Doctors reduced to 40 per cent, the 90 per cent mortality in patients receiving respiratory support with the traditional cuirass ventilator by using the new technique. They achieved this with a combination of manual positive-pressure ventilation provided through a TRACHEOSTOMY by medical students, and by looking after the patients in a speci?c area of the hospital, allowing the necessary sta?ng and equipment resources to be concentrated in one place.

The principle of one-to-one, 24-hours-a-day care for seriously ill patients has been widely adopted and developed for the initial treatment of many patients with life-threatening conditions. Thus, severely injured patients – those with serious medical conditions such as coronary thrombosis or who have undergone major surgery, and individuals suffering from potentially lethal toxic affects of poisons – are treated in an INTENSIVE THERAPY UNIT (ITU). Patients whose respiratory or circulatory systems have failed bene?t especially by being intensively treated. Most patients, especially post-operative ones, leave intensive care when their condition has been stabilised, usually after 24 or 48 hours. Some, however, need support for several weeks or even months. Since 1952, intensive medicine has become a valued specialty and a demanding one because of the range of skills needed by the doctors and nurses manning the ITUs.... intensive care medicine

Mmr Vaccine

A combined vaccine o?ering protection against MEASLES, MUMPS and RUBELLA (German measles), it was introduced in the UK in 1988 and has now replaced the measles vaccine. The combined vaccine is o?ered to all infants in their second year; health authorities have an obligation to ensure that all children have received the vaccine by school entry – it should be given with the pre-school booster doses against DIPHTHERIA, TETANUS and POLIOMYELITIS, if not earlier – unless there is a valid contra-indication (such as partial immunosuppression), parental refusal, or evidence of previous infection. MMR vaccine may also be used in the control of measles outbreaks, if o?ered to susceptible children within three days of exposure to infection. The vaccine is e?ective and generally safe, though minor symptoms such as malaise, fever and rash may occur 5–10 days after immunisation. The incidence of all three diseases has dropped substantially since MMR was introduced in the UK and USA.

A researcher has suggested a link between the vaccine and AUTISM, but massive studies of children with and without this condition in several countries have failed to ?nd any evidence to back the claim. Nonetheless, the publicity war has been largely lost by the UK health departments so that vaccine rates have dropped to a worryingly low level.

(See IMMUNISATION.)... mmr vaccine

Poliovirus

n. one of a small group of RNA-containing viruses causing *poliomyelitis. They are included within the *picornavirus group.... poliovirus

Post-polio Syndrome

insidious numbness in muscles that develops 15–20 years after an attack of *poliomyelitis; the muscles may or may not have been previously affected. It may be caused by loss of nerve cells that have been under greater strain than normal as a result of the polio; there is no evidence of reactivation of the poliovirus. The syndrome also includes other symptoms, such as fatigue and pain, which may be due to secondary mechanical causes.... post-polio syndrome

 sabin Vaccine

an oral vaccine against (E954) poliomyelitis, prepared by culture of the virus under special conditions so that it loses its virulence (i.e. it becomes attenuated) but retains its ability to stimulate antibody production. [A. B. Sabin (1906–93), US bacteriologist]...  sabin vaccine

Notifiable Diseases

Diseases, usually of an infectious nature, which are required by law to be made known to a health o?cer or local authority. (See INFECTION.) Certain occupational diseases are also noti?able.

Noti?able diseases in the UK (For more information on a speci?c disease, refer to the separate dictionary entry.) Acute encephalitis Acute poliomyelitis Anthrax Cholera Diphtheria Dysentery (amoebic or bacillary) Ebola virus disease Food poisoning Lassa fever Leprosy (reported to Chief Medical O?cer at the Department of Health) Leptospirosis Malaria Marburg disease Measles Meningitis Meningococcal septicaemia (without meningitis) Mumps Ophthalmia neonatorum Paratyphoid fever Plague Rabies Relapsing fever Rubella Scarlet fever Smallpox Tetanus Tuberculosis Typhoid fever Typhus Viral haemorrhagic fever (including Lassa fever) Viral hepatitis Whooping cough Yellow fever

Reporting AIDS is voluntary (and in con?dence) to the Director, Communicable Diseases Surveillance Centre (PHLS).... notifiable diseases

Reflex Action

One of the simplest forms of activity of the nervous system. (For the mechanism upon which it depends, see NERVOUS SYSTEM; NEURON(E).) Re?ex acts are divided usually into three classes.

Super?cial re?exes comprise the sudden movements which result when the skin is brushed or pricked, such as the movement of the toes that results from stroking the sole of the foot.

Deep re?exes depend upon the state of mild contraction in which muscles are constantly maintained when at rest, and are obtained, as in the case of the knee-jerk (see below), by sharply tapping the tendon of the muscle in question.

Visceral re?exes are those connected with various organs, such as the narrowing of the pupil when a bright light is directed upon the EYE, and the contraction of the URINARY BLADDER when distended by urine.

Faults in these re?exes give valuable evidence as to the presence and site of neurological disorders. Thus, absence of the knee-jerk, when the patellar tendon is tapped, means some interference with the sensory nerve, nerve-cells, or motor nerve upon which the act depends – as, for example, in POLIOMYELITIS, or peripheral NEURITIS; whilst an exaggerated jerk implies that the controlling in?uence exerted by the BRAIN upon this re?ex mechanism has been cut o? – as, for example, by a tumour high up in the SPINAL CORD, or in the disease known as MULTIPLE SCLEROSIS (MS).... reflex action

Virus

The term applied to a group of infective agents which are so small that they are able to pass through the pores of collodion ?lters. They are responsible for some of the most devastating diseases affecting humans: for example, INFLUENZA, POLIOMYELITIS, SMALLPOX and YELLOW FEVER. The virus of in?uenza measures 80 nanometres, whereas the STAPHYLOCOCCUS measures 1,000 nanometres (1 nanometre = one thousand-millionth of a metre).

A single virus particle, known as a virion, comprises an inner core of NUCLEIC ACID which is surrounded by one or two protective coverings (capsid) made of protein. Sometimes the capsid is enclosed by another layer called the viral envelope (also a protein structure). The envelope often disintegrates when the virus invades a cell. Viruses enter cells and then indulge in a complex and variable process of replication using some of the cells’ own structure. Viruses may stay in a host’s nucleus, being reactivated months or years later. There are more than a score of large families of viruses, from papoviruses, which cause WARTS, through HERPES viruses (cold sores, CHICKENPOX, SHINGLES) and orthomyxoviruses (in?uenza), to corona viruses (common cold) and retroviruses (AIDS/HIV). Viral diseases are more dif?cult to treat than those caused by bacteria: ANTIBIOTICS are ine?ective but INTERFERON, a group of natural substances, shows promise. IMMUNISATION is the most e?ective way of combating viral infections; smallpox, poliomyelitis, MUMPS, MEASLES and RUBELLA are examples of viral diseases which have been successfully combated. Research is progressing to ?nd a vaccine against HIV.... virus

Brain Disorders

Usually associated with some loss of sensation and power in another part of the body. Taste, smell, hearing, sight and movement may be affected. The following are some of the disorders that may affect the brain. Each has a separate entry in this book.

Abscess, Alzheimer’s Disease, anoxia (oxygen starvation), coma, concussion, haemorrhage, Down’s syndrome, epilepsy, tumour, hydrocephalus (water on the brain), meningitis, multiple sclerosis, stroke (rupture of blood vessel), spina bifida, syphilis (general paralysis of the insane), sleepy sickness.

Poor circulation through the brain due to hardening of the arteries: Ginkgo, Ginseng. Ginseng stimulates the hypothalmic/pituitary axis of the brain and favourably influences its relationship with the adrenal glands.

Congestion of the brain – Cowslip (Boerwicke). Irritability of brain and spine – Hops. Oats. Inflammation of the brain (encephalitis) as in viral infection, poliomyelitis, rabies, sleepy sickness, etc: Echinacea, Passion flower, Skullcap and Lobelia. Gelsemium acts as a powerful relaxant in the hands of a practitioner: Tincture BPC (1973): dose 0.3ml.

Brain storm from hysteria, locomotor ataxia, etc – Liquid Extract Lobelia: 5ml teaspoon in water when necessary (Dr Jentzsch, 1915, Ellingwood) Supplement with Zinc, Vitamins C and E.

Blood clot, thrombosis: Yarrow. Neurasthenia: Oats, Basil, Hops.

Brain fag and jet-lag: Chamomile, Skullcap, Oats, Ginseng, Ginkgo.

Tumour may be present years before manifesting: Goldenseal.

Mental state: depression, anxiety, schizophrenia.

Tea. Formula. Skullcap, Gotu Kola and German Chamomile; equal parts. 1 heaped teaspoon to each cup water gently simmered 10 minutes. Strain. 1 cup thrice daily.

Unspecified tensive state. Formula. Tinctures. Hops 1; Passion flower 2; Valerian 2. Dose: 2 teaspoons thrice daily until diagnosis is concluded.

Unspecified torpor. Formula. Tinctures. Ginseng 1; Kola 1; Capsicum quarter. 2 teaspoons in water thrice daily until diagnosis is concluded.

Brain weakness in the elderly: Ginkgo. See: ALZHEIMER’S DISEASE.

Fluid on the brain: see HYDROCEPHALUS.

Abscess of the brain: see ABSCESS.

Brain restoratives. Black Haw, True Unicorn root, Galangal, Oats, Oatstraw, False Unicorn root, Kola, Hops. Vitamin B6. Magnesium.

Cerebral thrombosis. See entry.

Note: Cold water may help victims to survive: rapid loss of body heat protects the brain. (Child Health Department, University of Wales)

Treatment by or in liaison with general medical practitioner or hospital specialist. ... brain disorders

Diet - Gluten-free

Some people cannot absorb the protein gluten present in wheat, barley, rye and oats, and hundreds of foods made from them. Nutritional deficiencies may result in coeliac disease, schizophrenia, allergies and irritable bowel syndrome.

Foods containing gluten include: many breakfast cereals, shredded wheat, wheat germ flakes, white and wholemeal bread, cakes, puddings, biscuits, porridge, rye and wheat crispbreads, crumbled fish and meat, semolina, baked beans, macaroni, baby foods, soups in packets and tins, chocolate, cocoa, spaghetti, muesli, custard, sausages, batter, beer, instant coffee, bedtime drinks and all kinds of pasta.

Natural gluten-free foods include maize, peas, millet, Soya, lima beans, rice. Brown rice is the basic cereal food: cornflakes, puffed rice, rice cereals. Millet flakes, sago, tapioca. These may be prepared in skimmed milk. Gluten-free flours and bread. The potato comes into its own in the gluten-free kitchen, especially for thickening soups and casseroles.

One school of medical thought associates certain nerve dyscrasies with nutritional deficiencies, the gluten-free diet being advised for cases of multiple sclerosis, myasthenia gravis, poliomyelitis, syringomyelia, motor neurone disease.

Book. Gluten-Free cooking Recipes for Coeliacs and Others, by Rita Greer. ... diet - gluten-free

Notifiable Diseases

Notifiable diseases under the Public Health (Control of Disease Act, 1984) are:–

Acute encephalitis, acute meningitis, acute poliomyelitis, anthrax, cholera, diphtheria, dysentery (amoebic and bacillary), food poisoning, infective jaundice, leprosy, leptospirosis, lassa fever, mumps, malaria, marburg disease, measles, German measles, ophthalmia neonatorum, paratyphoid fever, plague, rabies, relapsing fever, scarlet fever, smallpox, tetanus, tuberculosis, typhoid fever, typhus, viral haemorrhagic fever, whooping cough and yellow fever.

Six communicable diseases are internationally notifiable to the World Health Organisation: yellow fever, plague, cholera, smallpox, louse-borne relapsing fever, louse-borne typhus.

Notification has to be made to local and central Government authorities. Certain occupational diseases and all cases of cancer must be registered and notified.

It is required that the above diseases and certain others receive modern medical therapy in a hospital or treatment under the supervision of a qualified physician. Failure to conform may expose a practitioner, registered or unregistered, to a charge of negligence. ... notifiable diseases

Flat-feet

A condition, usually affecting both feet, in which the arch is absent and the sole rests flat on the ground. The arches form gradually as supportive ligaments and muscles in the soles develop and are not usually fully formed until about age 6. In some people, the ligaments are lax or the muscles are weak and the feet remain flat. Less commonly, the arches do not form because of a hereditary defect in bone structure. Flatfeet can be acquired in adult life because of fallen arches, sometimes as the result of a rapid increase in weight. Weakening of the supporting muscles and ligaments may occur in neurological or muscular diseases such as poliomyelitis.

In most cases, flat-feet are painless and require no treatment, although in some cases the feet may ache on walking or standing. Arch supports can be worn in the shoes for comfort.... flat-feet

Immunization

The process of inducing immunity as a preventive measure against infectious diseases. Immunization may be active or passive. In the passive form,antibodies are injected into the blood to provide immediate but short-lived protection against specific bacteria, viruses, or toxins. Active immunization, also called vaccination, primes the body to make its own antibodies and confers longer-lasting immunity.

Routine childhood immunization programmes exist for diseases such as diphtheria, pertussis, and tetanus (see DPT vaccination), haemophilus influenza (Hib), measles, mumps, and rubella (see MMR vaccination), meningitis C, and poliomyelitis. Additional immunizations before foreign travel may also be necessary (see travel immunization).

Most immunizations are given by injection, and usually have no after effects. However, some vaccines cause pain and swelling at the injection site and may produce a slight fever or flu-like symptoms. Some may produce a mild form of the disease. Very rarely, severe reactions occur due, for example, to an allergy to 1 of the vaccine’s components. Not all vaccines provide complete protection. Cholera and typhoid fever vaccinations, in particular, give only partial protection.

People with immunodeficiency disorders, widespread cancer, those taking corticosteroid drugs, or those who have previously had a severe reaction to a vaccine should not be immunized. Some vaccines should not be given to young children or during pregnancy.... immunization

Spinal Cord

A cylinder of nerve tissue that runs from the brain, down the central canal in the spine to the 1st lumbar vertebra. Below that, the nerve roots continue within the canal as cauda equina.

Grey matter, the spinal cord’s core, contains the cell bodies of nerve cells. Areas of white matter (tracts of nerve fibres running lengthwise) surround the grey matter. Sprouting from the cord on each side at regular intervals are the sensory and motor spinal nerve roots. The small nodule (ganglion) in each sensory root comprises nerve cell bodies. Nerve roots combine to form the spinal nerves that link the spinal cord to all regions of the trunk and limbs. The entire spinal cord is bathed in cerebrospinal fluid and surrounded by the meninges.

The nerve tracts in the white matter act mainly as highways for sensory information passing up to the brain or motor signals passing down. However, the cord processes some sensory information itself and provides motor responses without involving the brain. Many reflex actions are controlled in this way.

The spinal cord may be injured by trauma (see spinal injury); spinal-cord infections such as poliomyelitis are rare but can cause serious damage.spinal fusion Major surgery to join 2 or more adjacent vertebrae. It is performed if abnormal movement between adjacent vertebrae causes severe back pain or may damage the spinal cord. spinal injury Damage to the spine and sometimes to the spinal cord. Spinal injury is most often the result of falling from a height or of a road traffic accident. Damage to the vertebrae and their ligaments usually causes severe pain and swelling of the affected area. Damage to the spinal cord results in paralysis and/or loss of sensation below the site of injury.

X-rays of the spine are carried out to determine the extent of damage. If the bones are dislocated, surgery is needed to manipulate them back into position. Treatment with the drug methylprednisolone within a few hours of an injury aids recovery from spinal-cord damage. Surgery may be needed to remove any pressure on the cord, but damaged nerve tracts cannot be repaired. Physiotherapy may stop joints locking and muscles contracting as the result of paralysis.

If there is no spinal-cord damage, recovery is usually complete.

In cases of spinal-cord damage, some improvement may occur for up to 12 months.... spinal cord

Vulvovaginitis

Inflammation of the vulva and vagina. Vulvovaginitis is often provoked as a result of the infections candidiasis or trichomoniasis. (See also vaginitis; vulvitis.)

walking Movement of the body by lifting the feet alternately and bringing 1 foot into contact with the ground before the other starts to leave it. A person’s gait is determined by body shape, size, and posture. The age at which children first walk varies enormously.

Walking is controlled by nerve signals from the brain’s motor cortex (see cerebrum), basal ganglia, and cerebellum that travel via the spinal cord to the muscles. Abnormal gait may be caused by joint stiffness, muscle weakness (sometimes due to conditions such as poliomyelitis or muscular dystrophy), or skeletal abnormalities (see, for example, talipes; hip, congenital dislocation of; scoliosis; bone tumour; arthritis). Children may develop knock-knee or bowleg; synovitis of the hip and Perthes’ disease are also common. Adolescents may develop a painful limp due to a slipped epiphysis (see femoral epiphysis, slipped) or to fracture or disease of the tibia, fibula or femur.

Abnormal gait may also be the result of neurological disorders such as stroke (commonly resulting in hemiplegia), parkinsonism, peripheral neuritis, multiple sclerosis, various forms of myelitis, and chorea.

Ménière’s disease may cause severe loss of balance and instability.... vulvovaginitis

Physical Medicine

a medical specialty established by the Royal Society of Medicine in 1931. Initially the members pioneered clinics devoted to the diagnosis and management of rheumatic diseases, but later extended their interests to the *rehabilitation of patients with physical disabilities ranging from asthma and hand injuries to back trouble and poliomyelitis. The term has caused confusion in recent years, with many doctors preferring the description rheumatology and rehabilitation for this specialist activity. Since 1972, however, when the Royal College of Physicians approved it, physical medicine has become the generally accepted term. See also rheumatology.... physical medicine



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