Cerebrospinal Fluid: From 3 Different Sources
A clear, watery fluid that circulates between the ventricles (cavities) within the brain, the central canal in the spinal cord, and the space between the brain and spinal cord and their protective coverings, the meninges.
Cerebrospinal fluid functions as a shockabsorber, helping to prevent or reduce damage to the brain and spinal cord after a blow to the head or back.
It contains glucose, proteins, salts, and white blood cells.
Examination of the fluid, usually obtained by lumbar puncture, is used to diagnose disorders such as meningitis.
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.
(CSF) the clear watery fluid that surrounds the brain and spinal cord. It is contained in the *subarachnoid space and circulates in the *ventricles of the brain and in the central canal of the spinal cord. The brain floats in the fluid (its weight so being reduced from about 1400 g to less than 100 g) and is cushioned by it from contact with the skull when the head is moved vigorously. The CSF is secreted by the *choroid plexuses in the ventricles, circulates through them to reach the subarachnoid space, and is eventually absorbed into the bloodstream through the *arachnoid villi. Its normal contents are glucose, salts, enzymes, and a few white cells, but no red blood cells. See Appendix 5.
The clear ?uid contained within the AMNION that surrounds the FETUS in the womb and protects it from external pressure. The ?uid, comprising mainly water, is produced by the amnion and is regularly circulated, being swallowed by the fetus and excreted through the kidneys back into the amniotic sac. By the 35th week of pregnancy there is about 1 litre of ?uid, but this falls to 0.5 litres at term. The amniotic sac normally ruptures in early labour, releasing the ?uid or ‘waters’.... amniotic fluid
The appropriate balance of ?uid input and output (along with dissolved salts essential for life) over 24 hours. During this period, about 2,500 millilitres (ml) of ?uid should be taken in by a 70-kg man and the same amount excreted; of this, 1,500 ml will be drunk, 800 ml will be in the food eaten, and 200 ml produced by food metabolism. Excreted water is made up of 1,500 ml of urine, 800 ml insensible loss and 200 ml in the faeces. A 70-kg man’s total body ?uid is 42 litres – 60 per cent of body weight. Intracellular ?uid comprises 28 litres, extracellular, 14 litres and blood, 5 litres. Water is controlled mainly by the sodium concentration in the body ?uids via the release of antidiuretic hormone (ADH – see VASOPRESSIN) from the posterior part of the PITUITARY GLAND. In seriously ill people, close monitoring of ?uid intake and output, along with measurements of PLASMA sodium and calcium concentrations, is an essential factor in treatment.... fluid balance
An extract of an herb that is made according to official (and unofficial) pharmaceutical practice, with a strength of 1:1. That means each ounce of the fluidextract has the solutes found in an ounce of the dried herb. Advantageous for some herbs (such as Arctium or Taraxacum), where the active constituents retain the same proportions as in the plant, even though reduced to a very small volume of menstruum, it is deadly for others (such as Hydrastis or Lobelia), whose constituents may have wildly varying solubility, and whose fluidextract will contain only the most soluble constituents and lack others completely. The gradual disappearance of herbal preparations in Standard Medicine in the 1930s can partly be attributed to the almost complete reliance on fluidextracts. Some manufacturers (notably Lilly and SK&F) sold Tinctures (1:5 strength and meant to, at the least, contain EVERYTHING in the plant) that were made from diluted fluidextracts. Some fluidextracts were even made from dilutions of what were termed Solid Extracts....heat-evaporated tars, easy to store, easy to make in huge labor-minimal batches, where 100 pounds of Blue Cohosh could be reduced to 25 pounds of solid extract. This convenience pitch, with many constituents oxidized by heat, others never even extracted, could be diluted four times to sell as a fluidextract, TWENTY time to market as a tincture. These practices by American pharmaceutical manufacturers, with eyes perhaps on the larger drug trade (the use of crude drugs being a diminished part of their commerce, yet needing MANY different preparations...and being labor-intensive and profit-minimal...and sort of old-fashioned) ended up supplying terminally impaired products. Their value being reduced, physicians relied more and more on mainstream pharmaceuticals...and the medical use of whole plant preparations died.... fluidextract
The hydrogel that surrounds cells in soft tissues. It is a mucopolysaccaride starch gel, and the serum that leaves the blood capillaries flows through this gel, some to return to the exiting venous blood, some to enter the lymph system. There is an old medical axiom: the blood feeds the lymph, and the lymph feeds the cells. Interstitial fluid that flows through the starch colloid is this lymph.... interstitial fluid
Another term for liquid extracts, chiefly used in America and among a modern generation of herbal practitioners. Largely solutions of alcohol and water, strength 1:1. Prepared from crude material or solid extract, the alcohol content differing with each product. See: LIQUID EXTRACTS. ... fluid extracts
Accumulation of fluid beneath the skin; frequent sites – fingers, abdomen, breast, ankles.
Symptoms. Headache, frequency of urine, palpitation, possible irritable bowel syndrome. “My feet are killing me”, “I can’t get my wedding ring off” are typical complaints by women with FRS. Sometimes a complication of diabetes, or follows abuse of laxatives or diuretic drugs. A part of the premenstrual syndrome.
Alternatives. Teas. Any of the following: Buchu, Dandelion, Hawthorn, Motherwort, Yarrow. One or more cups daily, cold.
Tablets. Popular combination. Powdered Dandelion root BHP (1983) 90mg; powdered Horsetail extract 3:1 10mg; powdered Uva Ursi extract 3:1 75mg. (Gerard House)
Formula. Equal parts: Hawthorn, Dandelion, Broom. Dose: Powders: 750mg (three 00 capsules or half a teaspoon). Liquid extracts: 1 teaspoon. Tinctures: 1-2 teaspoons. Thrice daily.
Practitioner. Tincture Lily of the Valley (Convallaria) BHP (1983) (1:5 in 40 per cent alcohol). Dose 8- 15 drops (0.5-1ml). Thrice daily.
Aromatherapy. 6 drops Lavender oil on wet handkerchief: use as a compress for relief of ankles during a journey.
Traditional Gypsy Medicine. The sufferer is exposed to the rising smoke of smouldering Juniper berries which exudes volatile oils and has a gentle diuretic effect.
Diet. Salt-free. High protein. Dandelion coffee. Supplements. Vitamin B-complex, Potassium, Copper. ... fluid retention syndrome (frs)
Excessive accumulation of fluid in body tissues. Mild fluid retention is common with premenstrual syndrome but disappears with the onset of menstruation. However, more severe fluid retention may be associated with an underlying heart, liver, or kidney disorder (see ascites; nephrotic syndrome; oedema). Diuretic drugs may be used to treat the condition.... fluid retention
The watery liquid present in the tiny gaps between body cells, also known as interstitial fluid.... tissue fluid
a condition in which amniotic fluid enters the maternal circulation causing a complex cascade similar to that seen in anaphylactic and septic *shock. It is a rare event (1 in 50,000–100,000 deliveries), with a 60–80% maternal mortality. The sudden onset of cardiopulmonary collapse, together with coma or seizures, in labour or shortly after delivery, should prompt the diagnosis. Most of the women who survive have permanent neurological damage.... amniotic fluid embolism
(spotted fever) see meningitis.... cerebrospinal fever
the radiographic finding of a straight line between fluid and gas within a hollow organ or cavity when a horizontal X-ray beam strikes the fluid surface tangentially. Multiple long fluid levels are seen in loops of small bowel that are obstructed. A fluid level in the lung suggests a cavity that is partially filled with fluid (e.g. an abscess).... fluid level
a mixture of potassium dichromate, sodium sulphate, mercuric chloride, formaldehyde, and distilled water, used in the preservation of bone marrow. [K. Helly (20th century), Swiss pathologist]... helly’s fluid