PELVIC GIRDLE
The Hip Bone: The hip bone,os coxae actually consists of three separate bones: the ilium, the ischium, and the pubis.These bones are fused together in the adult. On the lateral surface of the os coxae, where the three bones ossify, is a large circular depression, the acetabulum which receives the head of the femur. Although both ossa coxae are single bones in the adult, the three components of each one are considered separately for descriptive purpose.
The Ilium
The ilium is the uppermost and largest of the three pelvic bones.
It has a crest and four angles, or spines—important surface landmarks that serve for muscle attachment.The body of ilium,corpus ossis ilii which is the lower expanded portion,which belongs to the acetabulum.Wing of ilium,ala ossis ilii is the upper,flat,expanded portion of the bone. The iliac crest,crista iliaca forms the prominence of the hip. This crest terminates anteriorly as the anterior superior iliac spine,spina iliaca anterior superior. Just below this spine is the anterior inferior iliac spine,spina iliaca anterior inferior. The posterior termination of the iliac crest is the posterior superior iliac spine,spina iliaca posterior superior and just below this is the posterior inferior iliac spine,spina iliaca posterior inferior. Below the posterior inferior iliac spine is the greater sciatic notch,incisura ischiadicum major through which the sciatic nerve passes. On the medial surface of the ilium is the roughened auricular surface,facies auricularies which articulates with the sacrum. The iliac fossa,fossa iliaca is the smooth, concave surface on the anterior portion of the ilium. The iliacus muscle originates from this fossa. The iliac tuberosity,tuberositas iliaca for the attachment of the sacroiliac ligament, is positioned posterior to the iliac fossa. Three roughened ridges are present on the gluteal surface of the posterior aspect of the ilium. These ridges, which serve to attach the gluteal muscles, are the inferior, anterior, and posterior gluteal lines(lineae gluteae inferior,anterior et posterior).
The Ischium
The ischium is the posteroinferior bone of the os coxae. This bone has several distinguishing features:The body of ischium,corpus ossis ischii is the upper thick segment of the bone,which reaches the acetabulum;the body lies posterior to the obturator foramen,foramen obturatum. The spine of the ischium,spina ischiadica is the projection immediately posterior and inferior to the greater sciatic notch of the ilium. Inferior to this spine is the lesser sciatic notch,incisura ischiadica minor. The ischial tuberosity,tuber ischiadicum is the bony projection that supports the weight of the body in the sitting position. A deep acetabular notch,incisura acetabuli is present on the inferior portion of the acetabulum. The large obturator foramen is formed by the inferior ramus of the ischium,ramus ossis ischii inferior, together with the pubis. The obturator foramen is covered by the obturator membrane, to which several muscles attach.
The Pubis
The pubis is the anterior bone of the os coxae. It consists of a superior ramus,ramus superior and an inferior ramus,ramus inferior that support the body of the pubis. The body of the pubis ,corpus ossis pubis contributes to the formation of the symphysis pubis—the joint between the two ossa coxae. At the lateral end of the anterior border of the body is the pubic tubercle,tuberculum pubicum one of the attachments for the inguinal ligament.The symphysial surface,facies symphysialis resides medially in the area of fusion of the superior and inferior rami.
Clinical application:The structure of the human pelvis, in its attachment to the vertebral column, permits an upright posture and locomotion on two appendages (bipedal locomotion). An upright posture may cause problems, however. The sacroiliac joint may weaken with age, causing lower back pains. The weight of the viscera may weaken the walls of the lower abdominal area and cause hernias. Some of the problems of childbirth are related to the structure of the mother’s pelvis. Finally, the hip joint tends to deteriorate with age, so that many elderly people suffer from degenerative arthritis (osteoarthrosis).
Sex-Related Differences in the Pelvis
Structural differences between the pelvis of an adult male and
that of an adult female reflect the female’s role in pregnancy and parturition.In females, the pelvis is shorter and broader whiles in male,it is taller,heavier and thicker.In a vaginal delivery, a baby must pass through its mother’s lesser pelvis. Pelvimetry is the measurement of the dimensions of the pelvis—especially of the adult female pelvis—to determine whether a cesarean section might be necessary. Diameters may be determined by vaginal palpation or by sonographic images.The pelvic brim is wider in females than in males.The pubic angle in male is an average of 75 degrees and 80-100 in female.
How to know right or left hip bone
- Place the iliac crest superiorly with the ischium placed inferiorly.
- The iliac fossa should be anteriorly placed.
- position the auricular surface medially. These will help you know if the bone is left or right.
FREE PART OF THE LOWER LIMB
The Femur: The “thighbone” is the longest, heaviest and strongest
bone in the body. The proximal rounded head,caput femoris of the
femur articulates with the acetabulum of the os coxae. A roughened shallow pit in the head of femur, the fovea capitis femoris, is present in the lower center of the head of the femur. The fovea capitis femoris provides the point of attachment for the ligamentum
capitis femoris, which helps to support the head of the femur against the acetabulum. It also provides the site for the entry of an artery into the head of the femur. The constricted region supporting the head is called the neck,collum femoris and is a common site for fractures in the elderly.The body of the femur has a slight medial curve to bring the knee joint in line with the body’s plane of gravity. The degree of curvature is greater in the female because of the wider pelvis. The body of the femur has several distinguishing features for muscle attachment. On the proximolateral side of the body is the greater trochanter,trochanter major and on the medial side is the lesser trochanter,trochanter minor. On the anterior side, between the trochanters, is the intertrochanteric line,linea intertrochanterica. On the posterior side, between the trochanters, is the intertrochanteric crest,crista intertrochanterica. The linea aspera is a roughened vertical ridge on the posterior surface of the body of the femur.
The distal end(epiphysis) of the femur is expanded for articulation with the tibia. The medial and lateral condyles(condylus medialis et lateralis) are the articular processes for this joint. The shallow depression between the condyles on the posterior aspect is called the intercondylar fossa,fossa intercondylaris. The patellar surface(facies patellaris) is located between the condyles on the anterior side. Above the condyles on the lateral and medial sides are the epicondyles,epicondylus lateralis et medialis which serve for ligament and tendon attachment.
To know left or right femur,
- Identify the head of the femur and place it medially.
- place the intercondylar fossa posteriorly. These will help to determine left and right femur.
The Patella:The patella ( “kneecap”) is a large, triangular sesamoid bone positioned on the anterior side of the distal femur. It develops in response to strain in the patellar tendon. It has a broad base and an inferiorly pointed apex. Articular facets on the articular surface of the patella articulate with the medial and lateral condyles of the femur.
The functions of the patella are to protect the knee joint
and to strengthen the patellar tendon. It also increases the leverage
of the quadriceps femoris muscle as it extends (straightens)
the knee joint.
Clinical application: The patella can be fractured by a direct blow. It usually does not fragment, however, because it is confined within the patellar tendon. Dislocations of the patella may result from injury or from underdevelopment of the lateral condyle of the femur.
The Tibia:The tibia ( “shinbone”) is situated on the medial side of the foreleg.It articulates proximally with the femur at the knee joint and distally with the talus of the ankle. It also articulates both proximally and distally with the fibula. Two slightly concave surfaces on the proximal end of the tibia, the medial and lateral condyles, condylus medialis et lateralis articulate with the condyles of the femur. The condyles are separated by a slight upward projection called the intercondylar eminence,eminentia intercondylaris which provides attachment for the cruciate ligaments of the knee joint. The tibial tuberosity, for attachment of the patellar ligament, is located on the proximoanterior part of the
body of the tibia. The anterior border,margo anterior commonly called the “shin,” is a sharp ridge along the anterior surface of the body. The medial malleolus,malleolus medialis is a prominent medial knob of bone located on the distomedial end of the tibia. A fibular notch,incisura fibularis for articulation with the fibula, is located on the distolateral end. In that the tibia is the weight-bearing bone of the leg, it is much larger than the fibula.
Fibula: The fibula is a long, slender bone that is more important
for muscle attachment than for support. The head,caput fibulae of the fibula articulates with the proximolateral end of the tibia.The apex of head,apex capitis fibulae is directed upward.The distal end (distal epiphysis)has a prominent knob called the lateral malleolus, malleolus lateralis.It bears the articular surface for the talus.
Clinical application: The lateral and medial malleoli are positioned on either side of the talus and help to stabilize the ankle joint. Both processes can be seen as prominent surface features and are easily palpated. Fractures to the fibula above the lateral malleolus are common in skiers. Clinically referred to as Pott’s fracture, it is caused by a shearing force acting at a vulnerable spot on the leg.
BONES OF THE FOOT
The foot contains 26 bones, grouped into the tarsus, metatarsus,
and phalanges. Although similar to the bones of the
hand, the bones of the foot have distinct structural differences in
order to support the weight of the body and provide leverage and
mobility during walking.
Tarsus:There are seven tarsal bones. The most superior in position is the talus, which articulates with the tibia and fibula to form the
ankle joint. The calcaneus is the largest of the tarsal bones and provides skeletal support for the heel of the foot. It has a large posterior extension, called the tuberosity of the calcaneus, for the attachment of the calf muscles. Anterior to the talus is the block-shaped navicular bone. The remaining four tarsal bones form a distal series that articulate with the metatarsal bones. They are, from the medial to the lateral side, the medial, intermediate, and lateral cuneiform bones and the cuboid bone.
Metatarsus:The metatarsal bones and phalanges are similar in name and number to the metacarpals and phalanges of the hand. They differ in shape, however, because of their load-bearing role.
The metatarsal bones are numbered I to V, starting with the
medial (great toe) side of the foot. The first metatarsal bone is
larger than the others because of its major role in supporting
body weight.
The metatarsal bones each have a base, body, and head. The proximal bases of the first, second, and third metatarsals articulate proximally with the cuneiform bones. The heads of the metatarsals articulate distally with the proximal phalanges. The proximal joints are called tarsometatarsal joints, and the distal joints are called metatarsophalangeal joints. The ball of the foot is formed by the heads of the first two metatarsal bones.
The phalanges:The 14 phalanges are the skeletal elements of the toes. As with the fingers of the hand, the phalanges of the toes are arranged in a proximal row, a middle row, and a distal row. The great toe, or hallux (adjective, hallucis) has only a proximal and a distal phalanx.The 14 phalanges are the skeletal elements of the toes. As with the fingers of the hand, the phalanges of the toes are arranged in a proximal row, a middle row, and a distal row. The great toe, or hallux (adjective, hallucis) has only a proximal and a distal phalanx.
Arches of the Foot
The foot has two arches. They are formed by the structure and arrangement of the bones and maintained by ligaments and tendons. The arches are not rigid; they “give” when weight is placed on the foot, and they spring back as the weight is lifted.
The longitudinal arch is divided into medial and lateral parts. The medial part is the more elevated of the two. The talus is keystone of the medial part, which originates at the calcaneus, rises at the talus, and descends to the first three metatarsal bones. The shallower lateral part consists of the calcaneus, cuboid, and fourth and fifth metatarsal bones. The cuboid is the keystone bone of this arch.
The transverse arch extends across the width of the foot and is formed by the calcaneus, navicular, and cuboid bones posteriorly and the bases of all five metatarsal bones anteriorly. A weakening of the ligaments and tendons of the foot may cause the arches to “fall”—a condition known as pes planus, or, more commonly, “flatfoot.
Kamal Umar Labaran(med)
Donetsk National Medical University.
lowerlbs
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