Contents
-SUBJECT INDEX -BIBLIOGRAPHIC RECORD
-ILLUSTRATION INDEX
Henry Gray (1825–1861). Anatomy of the Human Body. 1918.
14. Surface Markings of the Lower Extremity
With the body in the erect posture the line joining the public tubercle to the top of the greater trochanter is practically horizontal; the middle of this line overlies the acetabulum and the head of the femur. | 2 |
|
FIG. 1243– Nélaton’s line and Bryant’s triangle. (See enlarged image) |
|
|
FIG. 1244– Left gluteal region, showing surface markings for arteries and sciatic nerve. (See enlarged image) |
|
|
FIG. 1245– Front of right thigh, showing surface markings for bones, femoral artery and femoral nerve. (See enlarged image) |
|
|
FIG. 1246– Lateral aspect of right leg, showing surface markings for bones, anterior tibial and dorsalis pedis arteries, and deep peroneal nerve. (See enlarged image) |
|
|
FIG. 1247– Back of left lower extremity, showing surface markings for bones, vessels, and nerves. (See enlarged image) |
|
A line used for clinical purposes is that of Nélaton (Fig. 1243), which is drawn from the anterior superior iliac spine to the most prominent part of the ischial tuberosity; it crosses the center of the acetabulum and the upper border of the greater trochanter. Another surface marking of clinical importance is Bryant’s triangle, which is mapped out thus: a line from the anterior superior iliac spine to the top of the greater trochanter forms the base of the triangle; its sides are formed respectively by a horizontal line from the anterior superior iliac spine and a vertical line from the top of the greater trochanter. | 3 |
|
Articulations.—The posterior superior iliac spine overlies the center of the sacroiliac articulations. | 4 |
The hip-joint may be indicated, as described above, by the center of a horizontal line from the pubic tubercle to the top of the greater trochanter; or more generally, it is below and slightly lateral to the middle of the inguinal ligament. The knee-joint is superficial and requires no surface marking. The level of the ankle-joint is that of a transverse line about 1 cm. above the level of the tip of the medial malleolus. If the foot be forcibly extended, the head of the talus appears as a rounded prominence on the medial side of the dorsum; just in front of this prominence and behind the tuberosity of the navicular is the talonavicular joint. The calcaneocuboid joint is situated midway between the lateral malleolus and the prominent base of the fifth metatarsal bone; the line indicating it is parallel to that of the talonavicular joint. The line of the fifth tarsometatarsal joint is very oblique; it starts from the projection of the base of the fifth metatarsal bone, and if continued would pass through the head of the first metatarsal. The lines of the fourth and third tarsometatarsal joints are less oblique. The first tarsometatarsal joint corresponds to a groove which can be felt by making firm pressure on the medial border of the foot 2.5 cm. in front of the tuberosity of the navicular bone; the position of the second tarsometatarsal joint is 1.25 cm. behind this. The metatarsophalangeal joints are about 2.5 cm. behind the webs of the corresponding toes. | 5 |
|
Muscles.—None of the muscles require any special surface lines to indicate them, but there are three intermuscular spaces which occasionally require definition, viz., the femoral triangle, the adductor canal, and the popliteal fossa. | 6 |
The femoral triangle is bounded above by the inguinal ligament, laterally by the medial border of Sartorius, and medially by the medial border of Adductor longus. In the triangle is the fossa ovalis, through which the great saphenous vein dips to join the femoral; the center of this fossa is about 4 cm. below and lateral to the pubic tubercle, its vertical diameter measures about 4 cm. and its transverse about 1.5 cm. The femoral ring is about 1.25 cm. lateral to the pubic tubercle. | 7 |
The adductor canal occupies the medial part of the middle third of the thigh; it begins at the apex of the femoral triangle and lies deep to the vertical part of Sartorius. The popliteal fossa is bounded: above and medially by the tendons of Semimembranosus and Semitendinosus; above and laterally by the tendon of Biceps femoris; below and medially by the medial head of Gastrocnemius; below and laterally by the lateral head of Gastrocnemius and the Plantaris. | 8 |
|
Mucous Sheaths.—The positions of the mucous sheaths around the tendons about the ankle-joints are sufficiently indicated in Figs. 1241, 1242 (see also page 489). | 9 |
|
Arteries.—The points of emergence of the three main arteries on the buttock, viz., the superior and inferior gluteals and the internal pudendal, may be indicated in the following manner (Fig. 1244). With the femur slightly flexed and rotated inward, a line is drawn from the posterior superior iliac spine to the posterior superior angle of the greater trochanter; the point of emergence of the superior gluteal artery from the upper part of the greater sciatic foramen corresponds to the junction of the upper and middle thirds of this line. A second line is drawn from the posterior superior iliac spine to the outer part of the ischial tuberosity; the junction of its lower with its middle third marks the point of emergence of the inferior gluteal and internal pudendal arteries from the lower part of the greater sciatic foramen. The course of the femoral artery (Fig. 1245) is represented by the upper two-thirds of a line from a point midway between the anterior superior iliac spine and the symphysis pubis to the adductor tubercle, with the thigh abducted and rotated outward; the profunda femoris arises from it about 1 to 5 cm. below the inguinal ligament. The course of the upper part of the popliteal artery (Fig. 1247) is indicated by a line from the lateral margin of Semimembranosus at the junction of the middle and lower thirds of the thigh, obliquely downward to the middle of the popliteal fossa; from this point it runs vertically downward for about 2.5 cm. or to the level of a line through the lower part of the tibial tuberosity. The line indicating the anterior tibial artery (Fig. 1246) is drawn from the medial side of the head of the fibula to a point midway between the malleoli; the artery begins about 3 cm. below the head of the fibula. The dorsalis pedis artery is represented on the dorsum of the foot by a line from the center of the interval between the malleoli to the proximal end of the first intermetatarsal space. | 10 |
|
| |
|
The course of the posterior tibial artery (Fig. 1247) can be shown by a line from the end of the popliteal artery, i. e., 2.5 cm. below the center of the popliteal fossa, to midway between the tip of the medial malleolus and the center of the convexity of the heel; its main branch, the peroneal artery, begins about 7 or 8 cm. below the level of the knee-joint and follows the line of the fibula to the back of the lateral malleolus. The medial and lateral plantar arteries begin from the end of the posterior tibial; the medial extends to the middle of the plantar surface of the ball of the great toe, the lateral to within a finger’s breadth of the tuberosity of the fifth metatarsal bone; from this latter point the plantar arch crosses the foot transversely to the proximal end of the first intermetatarsal space. | 11 |
|
Veins.—The line of the great saphenous vein is from the front of the medial malleolus to the center of the fossa ovalis; the small saphenous vein runs from the back of the lateral malleolus to the center of the popliteal fossa. | 12 |
|
Nerves.—The course of the sciatic nerve (Fig. 1247) can be indicated by a line from a point midway between the outer border of the ischial tuberosity and the posterior superior angle of the greater trochanter to the upper angle of the popliteal fossa. The continuation of this line vertically through the center of the popliteal fossa represents the position of the tibial nerve, while the common peroneal nerve follows the line of the tendon of Biceps femoris. The lines for the deep peroneal nerve and the continuation of the tibial nerve correspond respectively to those for the anterior and posterior tibial arteries. | 13 |