A manual of diseases of the nervous system . Fig. 30.—Extreme talipes equinus from oM-standing palsy of the tibialisanticus (infantile paralysis) and extreme contraction of the calf muscles. Noflexor movement was possible. Fig. 31.—Paralysis of the interossei and the adductor and short flexor of thegreat toe. The first phalanofes are over-extended and the second are flexed,while the hollow of the sole is increased. (After Duchenne.) rotation inwards of the foot at rest, even when the tibialis is paralysed (see , a), because such rotation is produced by the sural extensors (p. 42); but in
A manual of diseases of the nervous system . Fig. 30.—Extreme talipes equinus from oM-standing palsy of the tibialisanticus (infantile paralysis) and extreme contraction of the calf muscles. Noflexor movement was possible. Fig. 31.—Paralysis of the interossei and the adductor and short flexor of thegreat toe. The first phalanofes are over-extended and the second are flexed,while the hollow of the sole is increased. (After Duchenne.) rotation inwards of the foot at rest, even when the tibialis is paralysed (see , a), because such rotation is produced by the sural extensors (p. 42); but in MUSCLES OF LOWER LIMB. 45 this case the slight valgus at rest is changed to varus on an attempt to flex theankle (Fig. 29, b). The Peroneus hrevis (musculo-cutaneous [peroneal] branch of ext. poplitealnerve) abducts the foot and rotates it, raising the outer edge. The Tibialis posticus (posterior tibial nerve from int. pop.) adducts the footand curves it, rendering the outer border and instep more convex. Its power ofadduction is great
Size: 1473px × 1697px
Photo credit: © The Reading Room / Alamy / Afripics
License: Licensed
Model Released: No
Keywords: ., bookcentury1800, bookdecade1890, booksubjectnervoussystem, bookye
