The 8 bones of the wrist.
The wrist contains 8 bones (known collectively as the carpus) arranged in 2 rows, one articulating with the bones of the forearm, and the other connecting to the bones of the palm. Tendons connect the forearm muscles to the fingers and thumb, and arteries and nerves supply the muscles, bones, and skin of the hand and fingers.
Wrist injuries may lead to serious disability by limiting hand movement. A common injury in adults is Colles’ fracture, in which the lower end of the radius is fractured and the wrist and hand aredisplaced backwards. In young children, similar displacement results from a fracture through the epiphysis (growing end) of the radius. A sprain can affect ligaments at the wrist joint, but most wrist sprains are not severe. (See also carpal tunnel syndrome; wrist-drop; tenosynovitis; and osteoarthritis.)... wrist
Structure of bone Bone is composed partly of ?brous tissue, partly of bone matrix comprising phosphate and carbonate of lime, intimately mixed together. The bones of a child are about two-thirds ?brous tissue, whilst those of the aged contain one-third; the toughness of the former and the brittleness of the latter are therefore evident.
The shafts of the limb bones are composed of dense bone, the bone being a hard tube surrounded by a membrane (the periosteum) and enclosing a fatty substance (the BONE MARROW); and of cancellous bone, which forms the short bones and the ends of long bones, in which a ?ne lace-work of bone ?lls up the whole interior, enclosing marrow in its meshes. The marrow of the smaller bones is of great importance. It is red in colour, and in it red blood corpuscles are formed. Even the densest bone is tunnelled by ?ne canals (Haversian canals) in which run small blood vessels, nerves and lymphatics, for the maintenance and repair of the bone. Around these Haversian canals the bone is arranged in circular plates called lamellae, the lamellae being separated from one another by clefts, known as lacunae, in which single bone-cells are contained. Even the lamellae are pierced by ?ne tubes known as canaliculi lodging processes of these cells. Each lamella is composed of very ?ne interlacing ?bres.
GROWTH OF BONES Bones grow in thickness from the ?brous tissue and lime salts laid down by cells in their substance. The long bones grow in length from a plate of cartilage (epiphyseal cartilage) which runs across the bone about 1·5 cm or more from its ends, and which on one surface is also constantly forming bone until the bone ceases to lengthen at about the age of 16 or 18. Epiphyseal injury in children may lead to diminished growth of the limb.
REPAIR OF BONE is e?ected by cells of microscopic size, some called osteoblasts, elaborating the materials brought by the blood and laying down strands of ?brous tissue, between which bone earth is later deposited; while other cells, known as osteoclasts, dissolve and break up dead or damaged bone. When a fracture has occurred, and the broken ends have been brought into contact, these are surrounded by a mass of blood at ?rst; this is partly absorbed and partly organised by these cells, ?rst into ?brous tissue and later into bone. The mass surrounding the fractured ends is called the callus, and for some months it forms a distinct thickening which is gradually smoothed away, leaving the bone as before the fracture. If the ends have not been brought accurately into contact, a permanent thickening results.
VARIETIES OF BONES Apart from the structural varieties, bones fall into four classes: (a) long bones like those of the limbs; (b) short bones composed of cancellous tissue, like those of the wrist and the ankle; (c) ?at bones like those of the skull; (d) irregular bones like those of the face or the vertebrae of the spinal column (backbone).
The skeleton consists of more than 200 bones. It is divided into an axial part, comprising the skull, the vertebral column, the ribs with their cartilages, and the breastbone; and an appendicular portion comprising the four limbs. The hyoid bone in the neck, together with the cartilages protecting the larynx and windpipe, may be described as the visceral skeleton.
AXIAL SKELETON The skull consists of the cranium, which has eight bones, viz. occipital, two parietal, two temporal, one frontal, ethmoid, and sphenoid; and of the face, which has 14 bones, viz. two maxillae or upper jaw-bones, one mandible or lower jaw-bone, two malar or cheek bones, two nasal, two lacrimal, two turbinal, two palate bones, and one vomer bone. (For further details, see SKULL.) The vertebral column consists of seven vertebrae in the cervical or neck region, 12 dorsal vertebrae, ?ve vertebrae in the lumbar or loin region, the sacrum or sacral bone (a mass formed of ?ve vertebrae fused together and forming the back part of the pelvis, which is closed at the sides by the haunch-bones), and ?nally the coccyx (four small vertebrae representing the tail of lower animals). The vertebral column has four curves: the ?rst forwards in the neck, the second backwards in the dorsal region, the third forwards in the loins, and the lowest, involving the sacrum and coccyx, backwards. These are associated with the erect attitude, develop after a child learns to walk, and have the e?ect of diminishing jars and shocks before these reach internal organs. This is aided still further by discs of cartilage placed between each pair of vertebrae. Each vertebra has a solid part, the body in front, and behind this a ring of bone, the series of rings one above another forming a bony canal up which runs the spinal cord to pass through an opening in the skull at the upper end of the canal and there join the brain. (For further details, see SPINAL COLUMN.) The ribs – 12 in number, on each side – are attached behind to the 12 dorsal vertebrae, while in front they end a few inches away from the breastbone, but are continued forwards by cartilages. Of these the upper seven reach the breastbone, these ribs being called true ribs; the next three are joined each to the cartilage above it, while the last two have their ends free and are called ?oating ribs. The breastbone, or sternum, is shaped something like a short sword, about 15 cm (6 inches) long, and rather over 2·5 cm (1 inch) wide.
APPENDICULAR SKELETON The upper limb consists of the shoulder region and three segments – the upper arm, the forearm, and the wrist with the hand, separated from each other by joints. In the shoulder lie the clavicle or collar-bone (which is immediately beneath the skin, and forms a prominent object on the front of the neck), and the scapula or shoulder-blade behind the chest. In the upper arm is a single bone, the humerus. In the forearm are two bones, the radius and ulna; the radius, in the movements of alternately turning the hand palm up and back up (called supination and pronation respectively), rotating around the ulna, which remains ?xed. In the carpus or wrist are eight small bones: the scaphoid, lunate, triquetral, pisiform, trapezium, trapezoid, capitate and hamate. In the hand proper are ?ve bones called metacarpals, upon which are set the four ?ngers, each containing the three bones known as phalanges, and the thumb with two phalanges.
The lower limb consists similarly of the region of the hip-bone and three segments – the thigh, the leg and the foot. The hip-bone is a large ?at bone made up of three – the ilium, the ischium and the pubis – fused together, and forms the side of the pelvis or basin which encloses some of the abdominal organs. The thigh contains the femur, and the leg contains two bones – the tibia and ?bula. In the tarsus are seven bones: the talus (which forms part of the ankle joint); the calcaneus or heel-bone; the navicular; the lateral, intermediate and medial cuneiforms; and the cuboid. These bones are so shaped as to form a distinct arch in the foot both from before back and from side to side. Finally, as in the hand, there are ?ve metatarsals and 14 phalanges, of which the great toe has two, the other toes three each.
Besides these named bones there are others sometimes found in sinews, called sesamoid bones, while the numbers of the regular bones may be increased by extra ribs or diminished by the fusion together of two or more bones.... bone
Habitat: Throughout North and eastern India, extending southwards to Peninsular India.
English: Lodh tree, Sapphire BerryAyurvedic: Lodhra, Rodhra, Shaavara., Sthulavalkal, Trita, Pattikaa Lodhra, Shaabara Lodhra.Unani: Lodh Pathaani.Siddha/Tamil: Vellilethi, Velli- lothram.Action: Bark—used as specific remedy for uterine complaints, vaginal diseases and menstrual disorders; menorrhagia, leucorrhoea (The Ayurvedic Pharmacopoeia of India); also used in diarrhoea, dysentery, vaginal ulcers, inflammatory affections and liver disorders.
The bark gave colloturine, harman (loturine) and loturidine. Stem bark gave proanthocyanidin-3-monogluco- furanosides of 7-O-methyl-and 4'-O- methyl-leucopelargonidin. Betulinic, oleanolic, acetyl oleanolic and ellagic acids are reported from the plant.Glycosides, isolated from the ethanolic extract of the stem bark, are highly astringent and are reported to be responsible for the medicinal properties of the bark.The bark extracts have been reported to reduce the frequency and intensity of the contractions in vitro of both pregnant and non-pregnant uteri of animals. A fraction from the bark, besides showing action on uteri, was spasmogenic on various parts of the gastrointestinal tract and could be antagonized by atropine.The bark extracts were found to inhibit the growth of E. coli, Micrococcus pyogenes var. aureus, and enteric and dysenteric groups of organisms.Dosage: Stem bark—3-5 g powder; 20-30 g for decoction. (API, Vol. I.)S. laurina Wall., synonym S. spica- ta Roxb. (North and East Idia, Western and Eastern Ghats); S. ramosis- sima Wall. (the temperate Himalayas from Garhwal to Bhutan); S. sumuntia Buch.-Ham. (Nepal to Bhutan) are also equated with Lodhra.The powdered bark is used in folk medicine for biliousness, haemorrhages, diarrhoea, dysentery and genitourinary diseases.Symplocos theaefolia Buch-Ham. ex D. Don (the Eastern Himalayas from Nepal to Bhutan and in the Khasi Hills at altitudes between 1,200 and 2,500 m) is known as Kharanl in Nepal and Dieng-pei or Dieng-twe-pe in khasi.The ethanolic extract of leaves showed hypoglycaemic activity in rats and anticancer activity against Friend- virus-leukaemia (solid) in mice. The extract of the leaves and of stems showed activity against human epider- moid carcinoma of the nasopharynx in tissue-culture.The Wealth of India equated S. laurina with Lodh Bholica (Bengal) and S. sumuntia with Pathaani Lodh.The wood of Symplocos phyllocalyx C. B. Clarke is known as Chandan and Laal-chandan. It should not be confused with Santalum album or Ptero- carpus santalinus.... symplocos racemosa
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