Coxal Articulation or Hip-joint
Henry Gray (1821–1865). Anatomy of the Human Body. 1918.
Articulations of the Lower Extremity.
The articulations of the Lower Extremity comprise the following:
I. Hip. V. Intertarsal.
II. Knee. VI. Tarsometatarsal.
III. Tibiofibular. VII. Intermetatarsal.
IV. Ankle. VIII. Metatarsophalangeal.
IX. Articulations of the Digits.
- 1 Coxal Articulation or Hip-joint (Articulatio Coxae)
- 1.1 The Articular Capsule (capsula articularis; capsular ligament) (Figs. 339, 340)
- 1.2 The Iliofemoral Ligament (ligamentum iliofemorale; Y-ligament; ligament of Bigelow) (Fig. 339)
- 1.3 The Pubocapsular Ligament (ligamentum pubocapsulare; pubofemoral ligament)
- 1.4 The Ischiocapsular Ligament (ligamentum ischiocapsulare; ischiocapsular band; ligament of Bertin)
- 1.5 The Glenoidal Labrum (labrum glenoidale; cotyloid ligament)
- 1.6 The Transverse Acetabular Ligament (ligamentum transversum acetabuli; transverse ligament)
- 1.7 Synovial Membrane (Fig. 343)
- 1.8 Movements
- 2 Clinical significance
- 3 Additional images
- 4 Gray's Anatomy
Coxal Articulation or Hip-joint (Articulatio Coxae)
This articulation is an enarthrodial or ball-and-socket joint, formed by the reception of the head of the femur into the cup-shaped cavity of the acetabulum. The articular cartilage on the head of the femur, thicker at the center than at the circumference, covers the entire surface with the exception of the fovea capitis femoris, to which the ligamentum teres is attached; that on the acetabulum forms an incomplete marginal ring, the lunate surface. Within the lunate surface there is a circular depression devoid of cartilage, occupied in the fresh state by a mass of fat, covered by synovial membrane. The ligaments of the joint are:
The Articular Capsule.
The Ligamentum Teres Femoris.
The Glenoidal Labrum.
The Transverse Acetabular
The Articular Capsule (capsula articularis; capsular ligament) (Figs. 339, 340)
The articular capsule is strong and dense. Above it is attached to the margin of the acetabulum 5 to 6 mm. beyond the glenoidal labrum behind; but in front it is attached to the outer margin of the labrum, and, opposite to the notch where the margin of the cavity is deficient, it is connected to the transverse ligament, and by a few fibers to the edge of the obturator foramen. It surrounds the neck of the femur, and is attached, in front to the intertrochanteric line; above to the base of the neck; behind to the neck, about 1.25 cm. above the intertrochanteric crest; below to the lower part of the neck, close to the lesser trochanter. From its femoral attachment some of the fibers are reflected upward along the neck as longitudinal bands, termed retinacula The capsule is much thicker at the upper and forepart of the joint, where the greatest amount of resistance is required; behind and below, it is thin and loose. It consists of two sets of fibers, circular and longitudinal. The circular fibers, zona orbicularis are most abundant at the lower and back part of the capsule (Fig. 342), and form a sling or collar around the neck of the femur.
Anteriorly they blend with the deep surface of the iliofemoral ligament, and gain an attachment to the anterior inferior iliac spine. The longitudinal fibers are greatest in amount at the upper and front part of the capsule, where they are reinforced by distinct bands, or accessory ligaments, of which the most important is the iliofemoral ligament The other accessory bands are known as the pubocapsular and the ischiocapsular ligaments
The external surface of the capsule is rough, covered by numerous muscles, and separated in front from the Psoas major and Iliacus by a bursa, which not infrequently communicates by a circular aperture with the cavity of the joint.
FIG. 339– Right hip-joint from the front. (Spalteholz.) (Picture From the Classic Gray's Anatomy)
The Iliofemoral Ligament (ligamentum iliofemorale; Y-ligament; ligament of Bigelow) (Fig. 339)
The iliofemoral ligament is a band of great strength which lies in front of the joint; it is intimately connected with the capsule, and serves to strengthen it in this situation.
It is attached, above to the lower part of the anterior inferior iliac spine; below it divides into two bands, one of which passes downward and is fixed to the lower part of the intertrochanteric line; the other is directed downward and lateralward and is attached to the upper part of the same line. Between the two bands is a thinner part of the capsule.
In some cases there is no division, and the ligament spreads out into a flat triangular band which is attached to the whole length of the intertrochanteric line. This ligament is frequently called the Y-shaped ligament of Bigelow; and its upper band is sometimes named the iliotrochanteric ligament
FIG. 340– The hip-joint from behind. (Quain.) (Picture From the Classic Gray's Anatomy)
The Pubocapsular Ligament (ligamentum pubocapsulare; pubofemoral ligament)
This ligament is attached, above to the obturator crest and the superior ramus of the pubis; below it blends with the capsule and with the deep surface of the vertical band of the oliofemoral ligament.
The Ischiocapsular Ligament (ligamentum ischiocapsulare; ischiocapsular band; ligament of Bertin)
The ischiocapsular ligament consists of a triangular band of strong fibers, which spring from the ischium below and behind the acetabulum, and blend with the circular fibers of the capsule (Fig. 340).
The Ligamentum Teres Femoris (Fig. 341)
The ligamentum teres femoris is a triangular, somewhat flattened band implanted by its apex into the antero-superior part of the fovea capitis femoris; its base is attached by two bands, one into either side of the acetabular notch, and between these bony attachments it blends with the transverse ligament. It is ensheathed by the synovial membrane, and varies greatly in strength in different subjects; occasionally only the synovial fold exists, and in rare cases even this is absent. The ligament is made tense when the thigh is semiflexed and the limb then adducted or rotated outward; it is, on the other hand, relaxed when the limb is abducted. It has, however, but little influence as a ligament.
FIG. 341– Left hip-joint, opened by removing the floor of the acetabulum from within the pelvis. (Picture From the Classic Gray's Anatomy)
The Glenoidal Labrum (labrum glenoidale; cotyloid ligament)
The glenoidal labrum is a fibrocartilaginous rim attached to the margin of the acetabulum, the cavity of which it deepens; at the same time it protects the edge of the bone, and fills up the inequalities of its surface. It bridges over the notch as the transverse ligament and thus forms a complete circle, which closely surrounds the head of the femur and assists in holding it in its place. It is triangular on section, its base being attached to the margin of the acetabulum, while its opposite edge is free and sharp. Its two surfaces are invested by synovial membrane, the external one being in contact with the capsule, the internal one being inclined inward so as to narrow the acetabulum, and embrace the cartilaginous surface of the head of the femur. It is much thicker above and behind than below and in front, and consists of compact fibers.
FIG. 342– Hip-joint, front view. The capsular ligament has been largely removed. (Picture From the Classic Gray's Anatomy)
FIG. 343– Capsule of hip-joint (distended). Posterior aspect. (Picture From the Classic Gray's Anatomy)
The Transverse Acetabular Ligament (ligamentum transversum acetabuli; transverse ligament)
This ligament is in reality a portion of the glenoidal labrum, though differing from it in having no cartilage cells among its fibers. It consists of strong, flattened fibers, which cross the acetabular notch, and convert it into a foramen through which the nutrient vessels enter the joint.
Synovial Membrane (Fig. 343)
The synovial membrane is very extensive. Commencing at the margin of the cartilaginous surface of the head of the femur, it covers the portion of the neck which is contained within the joint; from the neck it is reflected on the internal surface of the capsule, covers both surfaces of the glenoidal labrum and the mass of fat contained in the depression at the bottom of the acetabulum, and ensheathes the ligamentum teres as far as the head of the femur. The joint cavity sometimes communicates through a hole in the capsule between the vertical band of the iliofemoral ligament and the pubocapsular ligament with a bursa situated on the deep surfaces of the Psoas major and Iliacus. The muscles in relation with the joint are, in front the Psoas major and Iliacus, separated from the capsule by a bursa; above the reflected head of the Rectus femoris and Glutaeus minimus, the latter being closely adherent to the capsule; medially the Obturator externus and Pectineus; behind the Piriformis, Gemellus superior, Obturator internus, Gemellus inferior, Obturator externus, and Quadratus femoris (Fig. 344).
FIG. 344– Structures surrounding right hip-joint. (Picture From the Classic Gray's Anatomy)
The arteries supplying the joint are derived from the obturator, medial femoral circumflex, and superior and inferior gluteals. The nerves are articular branches from the sacral plexus, sciatic, obturator, accessory obturator, and a filament from the branch of the femoral supplying the Rectus femoris.
The movements of the hip are very extensive, and consist of flexion, extension, adduction, abduction, circumduction, and rotation. The length of the neck of the femur and its inclinations to the body of the bone have the effect of converting the angular movements of flexion, extension, adduction, and abduction partially into rotatory movements in the joint. Thus when the thigh is flexed or extended, the head of the femur, on account of the medial inclination of the neck, rotates within the acetabulum with only a slight amount of gliding to and fro. The forward slope of the neck similarly affects the movements of adduction and abduction. Conversely rotation of the thigh which is permitted by the upward inclination of the neck, is not a simple rotation of the head of the femur in the acetabulum, but is accompanied by a certain amount of gliding.
The hip-joint presents a very striking contrast to the shoulder-joint in the much more complete mechanical arrangements for its security and for the limitation of its movements. In the shoulder, as has been seen, the head of the humerus is not adapted at all in size to the glenoid cavity, and is hardly restrained in any of its ordinary movements by the capsule. In the hip-joint, on the contrary, the head of the femur is closely fitted to the acetabulum for an area extending over nearly half a sphere, and at the margin of the bony cup it is still more closely embraced by the glenoidal labrum, so that the head of the femur is held in its place by that ligament even when the fibers of the capsule have been quite divided.
The iliofemoral ligament is the strongest of all the ligaments in the body, and is put on the stretch by any attempt to extend the femur beyond a straight line with the trunk. That is to say, this ligament is the chief agent in maintaining the erect position without muscular fatigue; for a vertical line passing through the center of gravity of the trunk falls behind the centers of rotation in the hip-joints, and therefore the pelvis tends to fall backward, but is prevented by the tension of the iliofemoral ligaments.
The security of the joint may be provided for also by the two bones being directly united through the ligamentum teres; but it is doubtful whether this ligament has much influence upon the mechanism of the joint. When the knee is flexed, flexion of the hip-joint is arrested by the soft parts of the thigh and abdomen being brought into contact, and when the knee is extended, by the action of the hamstring muscles; extension is checked by the tension of the iliofemoral ligament; adduction by the thighs coming into contact; adduction with flexion by the lateral band of the iliofemoral ligament and the lateral part of the capsule; abduction by the medial band of the iliofemoral ligament and the pubocapsular ligament; rotation outward by the lateral band of the iliofemoral ligament; and rotation inward by the ischiocapsular ligament and the hinder part of the capsule.
The muscles which flex the femur on the pelvis are the Psoas major, Iliacus, Rectus femoris, Sartorius, Pectineus, Adductores longus and brevis, and the anterior fibers of the Glutaei medius and minimus. Extension is mainly performed by the Glutaeus maximus, assisted by the hamstring muscles and the ischial head of the Adductor magnus.
The thigh is adducted by the Adductores magnus, longus, and brevis, the Pectineus, the Gracilis, and lower part of the Glutaeus maximus, and abducted by the Glutaei medius and minimus, and the upper part of the Glutaeus maximus. The muscles which rotate the thigh inward are the Glutaeus minimus and the anterior fibers of the Glutaeus medius, the Tensor fasciae latae and the Iliacus and Psoas major; while those which rotate it outward are the posterior fibers of the Glutaeus medius, the Piriformis, Obturatores externus and internus, Gemelli superior and inferior, Quadratus femoris, Glutaeus maximus, the Adductores longus, brevis, and magnus, the Pectineus, and the Sartorius.
A hip fracture is a break that occurs in the upper part of the femur. Symptoms may include pain around the hip particularly with movement and shortening of the leg. The hip joint can be replaced by a prosthesis in a hip replacement operation due to fractures or illnesses such as osteoarthritis. Hip pain can have multiple sources and can also be associated with lower back pain.
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