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High-resolution ultrasound and MRI in the evaluation of the forefoot and midfoot

Monique Reijnierse
Monique Reijnierse
 und 
James F. Griffith
James F. Griffith
   | 23. Nov. 2023
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Article Category: Review Paper
Online veröffentlicht: 23. Nov. 2023
Seitenbereich: e251 - e271
Eingereicht: 01. Aug. 2023
Akzeptiert: 28. Sept. 2023
DOI: https://doi.org/10.15557/jou.2023.0033
Schlüsselwörter
© 2023 Monique Reijnierse et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Fig. 1.

41-year-old female with forefoot pain and swelling for one month. There was no specific traumatic event and no undue sporting activity. A tendon injury was suspected clinically A. Dorsoplantar (DP) radiograph shows normal 2nd metatarsal bone (arrowhead). B. Longitudinal greyscale and C. color Doppler, and D. transverse greyscale US images show moderate severity localized periosteal thickening (open arrow) of the 2nd metatarsal shaft dorsally, with moderate adjacent soft tissue thickening (open arrowhead) consistent with active stress fracture. E. Radiograph three months later showed marked periosteal thickening of the 2nd metatarsal shaft (arrow) compatible with healed stress fracture
41-year-old female with forefoot pain and swelling for one month. There was no specific traumatic event and no undue sporting activity. A tendon injury was suspected clinically A. Dorsoplantar (DP) radiograph shows normal 2nd metatarsal bone (arrowhead). B. Longitudinal greyscale and C. color Doppler, and D. transverse greyscale US images show moderate severity localized periosteal thickening (open arrow) of the 2nd metatarsal shaft dorsally, with moderate adjacent soft tissue thickening (open arrowhead) consistent with active stress fracture. E. Radiograph three months later showed marked periosteal thickening of the 2nd metatarsal shaft (arrow) compatible with healed stress fracture

Fig. 2.

41-year-old female recreational runner with medial forefoot pain for one month. There was no specific traumatic event. A. Dorsoplantar radiograph shows solid periosteal thickening (arrowhead) base of 1st metatarsal bone as well as faint transverse fracture line (arrow). B. Sagittal and C. axial T2WFS image forefoot showing nondisplaced transverse fracture (arrow) base of 1st metatarsal bone with severe bone marrow edema, mild periosteal thickening (arrowhead) and moderate surrounding soft tissue edema. The acuteness of the fracture can be appreciated much better on MR than radiographs
41-year-old female recreational runner with medial forefoot pain for one month. There was no specific traumatic event. A. Dorsoplantar radiograph shows solid periosteal thickening (arrowhead) base of 1st metatarsal bone as well as faint transverse fracture line (arrow). B. Sagittal and C. axial T2WFS image forefoot showing nondisplaced transverse fracture (arrow) base of 1st metatarsal bone with severe bone marrow edema, mild periosteal thickening (arrowhead) and moderate surrounding soft tissue edema. The acuteness of the fracture can be appreciated much better on MR than radiographs

Fig. 3.

32-year-old female with medial forefoot pain. A. Dorsoplantar radiograph of the first MTP joint shows a bipartite medial sesamoid bone (open arrow), which is longer than the lateral sesamoid bone (arrow). B. Longitudinal greyscale US image of bipartite medial sesamoid bone (open arrow). There is no surrounding soft tissue edema to indicate recent fracture. C. Longitudinal US image of lateral sesamoid bone (arrow) on the same side. This bipartite sesamoid bone was an incidental finding, unrelated to the patient’s symptoms
32-year-old female with medial forefoot pain. A. Dorsoplantar radiograph of the first MTP joint shows a bipartite medial sesamoid bone (open arrow), which is longer than the lateral sesamoid bone (arrow). B. Longitudinal greyscale US image of bipartite medial sesamoid bone (open arrow). There is no surrounding soft tissue edema to indicate recent fracture. C. Longitudinal US image of lateral sesamoid bone (arrow) on the same side. This bipartite sesamoid bone was an incidental finding, unrelated to the patient’s symptoms

Fig. 4.

16-year-old female with recent pain plantar aspect 1st MTP joint following a gymnastics tournament. A. Dorsoplantar radiograph of 1st MTP joint shows irregular transverse fracture medial sesamoid bone (open arrow). B. For comparison, on a dorsoplantar radiograph of the contralateral, asymptomatic 1st MTP joint, the medial sesamoid bone is normal (arrow)
16-year-old female with recent pain plantar aspect 1st MTP joint following a gymnastics tournament. A. Dorsoplantar radiograph of 1st MTP joint shows irregular transverse fracture medial sesamoid bone (open arrow). B. For comparison, on a dorsoplantar radiograph of the contralateral, asymptomatic 1st MTP joint, the medial sesamoid bone is normal (arrow)

Fig. 5.

29-year-old man with forefoot pain for nine months. Dorsoplantar radiograph of the forefoot shows established Freiberg’s disease of second metatarsal head (open arrow). T1W B. sagittal and C. axial MR images of same patient show moderate collapse of the metatarsal head (arrows), with moderate secondary osteoarthritis of the second MTP joint. D. T2W FS axial MR image of the same region shows moderate sub-articular bone marrow edema surrounding the second MTP joint (arrow)
29-year-old man with forefoot pain for nine months. Dorsoplantar radiograph of the forefoot shows established Freiberg’s disease of second metatarsal head (open arrow). T1W B. sagittal and C. axial MR images of same patient show moderate collapse of the metatarsal head (arrows), with moderate secondary osteoarthritis of the second MTP joint. D. T2W FS axial MR image of the same region shows moderate sub-articular bone marrow edema surrounding the second MTP joint (arrow)

Fig. 6.

48-year-old woman with midfoot sprain. Longitudinal greyscale US images of Index Choparts joint show A. moderate severity swelling indicative of sprain of the dorsal talonavicular ligament (arrowheads) between the talar head (TAL) and the navicular bone (NAV) and B. severe tear of the dorsal calcaneocuboid ligament (arrowheads) with avulsion fractures (arrows) from the calcaneum (CAL) and cuboid (CUB) bones. US also showed additional avulsion fractures and a moderate-severity anterior talofibular ligament tear (not shown). Corresponding CT with C, D. sagittal and E, F. axial reconstructions shows several small calcaneal (CAL) and cuboid (CUB) avulsion fractures (arrows)
48-year-old woman with midfoot sprain. Longitudinal greyscale US images of Index Choparts joint show A. moderate severity swelling indicative of sprain of the dorsal talonavicular ligament (arrowheads) between the talar head (TAL) and the navicular bone (NAV) and B. severe tear of the dorsal calcaneocuboid ligament (arrowheads) with avulsion fractures (arrows) from the calcaneum (CAL) and cuboid (CUB) bones. US also showed additional avulsion fractures and a moderate-severity anterior talofibular ligament tear (not shown). Corresponding CT with C, D. sagittal and E, F. axial reconstructions shows several small calcaneal (CAL) and cuboid (CUB) avulsion fractures (arrows)

Fig. 7.

Schematic diagram of Lisfranc ligament complex shows dorsal (arrow), interosseous (*) and plantar (arrowheads) components of Lisfranc ligament. Cm, medial cuneiform, MT2, second metatarsal base, MT3, 3rd metatarsal base
Schematic diagram of Lisfranc ligament complex shows dorsal (arrow), interosseous (*) and plantar (arrowheads) components of Lisfranc ligament. Cm, medial cuneiform, MT2, second metatarsal base, MT3, 3rd metatarsal base

Fig. 8.

49-year-old man with medial forefoot pain following injury. Lisfranc injury was suspected clinically. T2-fat suppressed A. coronal MR image shows a moderately edematous cuneiform-2nd metatarsal ligament (arrow) without a discrete tear consistent with a moderate-severity sprain. The dorsal ligament (open arrow), interosseous Lisfranc ligament (closed arrowhead), and cuneiform-3rd metatarsal ligament (open arrowhead) are all intact. B. T2-fat suppressed axial MR image in the same patient shows the intact interosseous Lisfranc ligament (closed arrowhead)
49-year-old man with medial forefoot pain following injury. Lisfranc injury was suspected clinically. T2-fat suppressed A. coronal MR image shows a moderately edematous cuneiform-2nd metatarsal ligament (arrow) without a discrete tear consistent with a moderate-severity sprain. The dorsal ligament (open arrow), interosseous Lisfranc ligament (closed arrowhead), and cuneiform-3rd metatarsal ligament (open arrowhead) are all intact. B. T2-fat suppressed axial MR image in the same patient shows the intact interosseous Lisfranc ligament (closed arrowhead)

Fig. 9.

33-year-old man with midfoot pain and swelling following road vehicle accident. A. Dorsoplantar radiograph of normal foot. The second metatarsal base is normally aligned perfectly with the intermediate cuneiform bone. B. Dorsoplantar radiograph of injured foot shows mild lateral offset of the second metatarsal base relative to the intermediate cuneiform bone (arrow) indicative of a Lisfranc subluxation. There is also a fracture of the first metatarsal base. C. Corresponding axial CT reconstruction confirms offset at the base of second metatarsal base (arrow) with an angulated subluxation and fracture of the first metatarsal base (convergent Lisfranc subluxation). Diastasis between the medial cuneiform bone (C1) and the 2nd metatarsal base (MT2) is also more apparent on CT than radiograph
33-year-old man with midfoot pain and swelling following road vehicle accident. A. Dorsoplantar radiograph of normal foot. The second metatarsal base is normally aligned perfectly with the intermediate cuneiform bone. B. Dorsoplantar radiograph of injured foot shows mild lateral offset of the second metatarsal base relative to the intermediate cuneiform bone (arrow) indicative of a Lisfranc subluxation. There is also a fracture of the first metatarsal base. C. Corresponding axial CT reconstruction confirms offset at the base of second metatarsal base (arrow) with an angulated subluxation and fracture of the first metatarsal base (convergent Lisfranc subluxation). Diastasis between the medial cuneiform bone (C1) and the 2nd metatarsal base (MT2) is also more apparent on CT than radiograph

Fig. 10.

Schematic diagram plantar aspect 1st MTP joint shows the medial (M) and lateral (L) sesamoid bones held in place by the abductor hallucis (ABD), medial and lateral heads of flexor hallucis brevis (FHBr), oblique and transverse heads of adductor hallucis (ADD) tendons as well as the inter-sesamoid ligament (*) and medial and lateral sesamoid-phalangeal ligaments (arrows). The sesamoids are also supported by the paired medial and lateral metatarsal-sesamoid ligaments (not shown). The plantar plate (#) with a small distal central recess (arrowhead) is also shown. (Med, medial; PP, proximal phalanx, MT1, 1st metatarsal bone)
Schematic diagram plantar aspect 1st MTP joint shows the medial (M) and lateral (L) sesamoid bones held in place by the abductor hallucis (ABD), medial and lateral heads of flexor hallucis brevis (FHBr), oblique and transverse heads of adductor hallucis (ADD) tendons as well as the inter-sesamoid ligament (*) and medial and lateral sesamoid-phalangeal ligaments (arrows). The sesamoids are also supported by the paired medial and lateral metatarsal-sesamoid ligaments (not shown). The plantar plate (#) with a small distal central recess (arrowhead) is also shown. (Med, medial; PP, proximal phalanx, MT1, 1st metatarsal bone)

Fig. 11.

Schematics of the 1st MTP joint A. Paramedian sagittal section shows the medial sesamoid bone (M) held in place by the flexor hallucis brevis tendon (arrowhead), medial metatarso-sesamoid ligament (#) and the medial sesamoid-phalangeal ligament (arrow). B. Midline sagittal section shows the plantar plate (arrowhead) attached to the intersesamoid ligament (*) and base of proximal phalanx (PP) with the overlying flexor hallucis longus tendon (arrow). C. Transverse section through the head of the 1st metatarsal bone (MT1) shows the medial (M) and lateral (L) sesamoid bones held in place by the paired medial and lateral metatarso-sesamoid ligaments (#) and the inter-sesamoid ligament (*). The flexor hallucis longus (arrow) and conjoint adductor hallucis (dotted line) tendons are also shown, as are the extensor tendons (arrowhead)
Schematics of the 1st MTP joint A. Paramedian sagittal section shows the medial sesamoid bone (M) held in place by the flexor hallucis brevis tendon (arrowhead), medial metatarso-sesamoid ligament (#) and the medial sesamoid-phalangeal ligament (arrow). B. Midline sagittal section shows the plantar plate (arrowhead) attached to the intersesamoid ligament (*) and base of proximal phalanx (PP) with the overlying flexor hallucis longus tendon (arrow). C. Transverse section through the head of the 1st metatarsal bone (MT1) shows the medial (M) and lateral (L) sesamoid bones held in place by the paired medial and lateral metatarso-sesamoid ligaments (#) and the inter-sesamoid ligament (*). The flexor hallucis longus (arrow) and conjoint adductor hallucis (dotted line) tendons are also shown, as are the extensor tendons (arrowhead)

Fig. 12.

58-year-old female with forefoot pain. T2W fat-suppressed sagittal images though the A. medial, B. mid-line, and C. lateral aspects of the big toe. At the 1st MTP joint, the Index medial (##) and lateral (#) metatarso-sesamoid ligaments are intact with a complete tear of the attenuated plantar plate (arrow). At the interphalangeal joint, there is a degenerative thickened plantar plate (arrowhead) with an overlying mildly distended adventitial bursa (open arrow). D. T2W fat-suppressed coronal image also shows a tear of the inter-sesamoid ligament (arrow). MT1, 1st metatarsal bone, PP, proximal phalanx
58-year-old female with forefoot pain. T2W fat-suppressed sagittal images though the A. medial, B. mid-line, and C. lateral aspects of the big toe. At the 1st MTP joint, the Index medial (##) and lateral (#) metatarso-sesamoid ligaments are intact with a complete tear of the attenuated plantar plate (arrow). At the interphalangeal joint, there is a degenerative thickened plantar plate (arrowhead) with an overlying mildly distended adventitial bursa (open arrow). D. T2W fat-suppressed coronal image also shows a tear of the inter-sesamoid ligament (arrow). MT1, 1st metatarsal bone, PP, proximal phalanx

Fig. 13.

Schematic coronal section of the 2nd and 3rd lesser MTP joints shows the plantar plate (*) firmly attached to paired medial and lateral accessory collateral ligaments (arrowheads). The intermetatarsal ligaments (open arrows) and digital neurovascular bundles (arrows) are shown as are the flexor (#) and extensor digitorum tendons (open arrowheads). The interosseous muscles (Im) are also shown
Schematic coronal section of the 2nd and 3rd lesser MTP joints shows the plantar plate (*) firmly attached to paired medial and lateral accessory collateral ligaments (arrowheads). The intermetatarsal ligaments (open arrows) and digital neurovascular bundles (arrows) are shown as are the flexor (#) and extensor digitorum tendons (open arrowheads). The interosseous muscles (Im) are also shown

Fig. 14.

31–year-old female professional basketball player with forefoot pain. A, B. Consecutive longitudinal greyscale US images shows moderately thickened plantar plate (arrowheads) of the 2nd MTP joint with a long intrasubstance tear (short arrows). C. Transverse greyscale US image shows moderate pericapsular fibrosis (long arrow) inferolateral to the 2nd MTP joint. D. Longitudinal greyscale US image of the asymptomatic normal contralateral 2nd MTP joint plantar plate for comparison. (images courtesy of Dr James Linklater)
31–year-old female professional basketball player with forefoot pain. A, B. Consecutive longitudinal greyscale US images shows moderately thickened plantar plate (arrowheads) of the 2nd MTP joint with a long intrasubstance tear (short arrows). C. Transverse greyscale US image shows moderate pericapsular fibrosis (long arrow) inferolateral to the 2nd MTP joint. D. Longitudinal greyscale US image of the asymptomatic normal contralateral 2nd MTP joint plantar plate for comparison. (images courtesy of Dr James Linklater)

Fig. 15.

Same patient as previous figure. Sagittal A. proton density (PD) and B. T2W FS images shows a moderately thickened plantar plate (arrowheads) of 2nd MTP joint with intrasubstance tear (short arrow). C, D. Coronal T2W fat-suppressed MR images shows moderate-severity reactive pericapsular fibrosis (long arrow) inferolateral to the 2nd MTP joint with moderate pericapsular inflammation (open arrowheads). The plantar plate tear was confirmed and treated surgically, with subsequent return to sports (images courtesy of Dr James Linklater)
Same patient as previous figure. Sagittal A. proton density (PD) and B. T2W FS images shows a moderately thickened plantar plate (arrowheads) of 2nd MTP joint with intrasubstance tear (short arrow). C, D. Coronal T2W fat-suppressed MR images shows moderate-severity reactive pericapsular fibrosis (long arrow) inferolateral to the 2nd MTP joint with moderate pericapsular inflammation (open arrowheads). The plantar plate tear was confirmed and treated surgically, with subsequent return to sports (images courtesy of Dr James Linklater)

Fig. 16.

43-year-old female with forefoot pain due to 2nd MTP joint plantar plate tear. T1W coronal MR images forefoot shows severe pericapsular fibrosis (arrowheads) at the inferolateral aspect of 2nd MTP joint extending along the lateral margin of the joint. The lateral accessory collateral ligament is shown (arrow) as well as the flexor digitorum tendon (open arrow). The flexor tendon is medialized, which supports a lateral plantar plate injury
43-year-old female with forefoot pain due to 2nd MTP joint plantar plate tear. T1W coronal MR images forefoot shows severe pericapsular fibrosis (arrowheads) at the inferolateral aspect of 2nd MTP joint extending along the lateral margin of the joint. The lateral accessory collateral ligament is shown (arrow) as well as the flexor digitorum tendon (open arrow). The flexor tendon is medialized, which supports a lateral plantar plate injury

Fig. 17.

Coronal gadolinium-enhanced T1W FS MR image at the level of the MTP joints of a patient with early arthritis. There is enhancement of the intermetatarsal bursae in the 1st (arrow) and 3rd (open arrow) web spaces. The lateral sesamoid bone (L) and 1st metatarsal base (MT1) is rotated such that impingement between this sesamoid bone and the 2nd metatarsal bone may be leading to inflammation of the 1st intermetatarsal bursa
Coronal gadolinium-enhanced T1W FS MR image at the level of the MTP joints of a patient with early arthritis. There is enhancement of the intermetatarsal bursae in the 1st (arrow) and 3rd (open arrow) web spaces. The lateral sesamoid bone (L) and 1st metatarsal base (MT1) is rotated such that impingement between this sesamoid bone and the 2nd metatarsal bone may be leading to inflammation of the 1st intermetatarsal bursa

Fig. 18.

Transverse color Doppler US image plantar aspect of foot at the level of the 1st metatarsophalangeal joint shows a large well-demarcated hypoechoic area (*) in the subcutaneous tissue, consistent with a distended sub-metatarsal bursa. There is no hyperemia
Transverse color Doppler US image plantar aspect of foot at the level of the 1st metatarsophalangeal joint shows a large well-demarcated hypoechoic area (*) in the subcutaneous tissue, consistent with a distended sub-metatarsal bursa. There is no hyperemia

Fig. 19.

36-year-old female with lateral forefoot pain. A. Transverse greyscale US image shows localized metatarsal fat pad atrophy with thinning of the sub-metatarsal tissues and edema plantar to the 5th metatarsal head (M5). No discrete sub-metatarsal bursitis is present. M4, 4th metatarsal head. B. Corresponding T2W FS coronal image shows similar features (arrowheads) to figure A
36-year-old female with lateral forefoot pain. A. Transverse greyscale US image shows localized metatarsal fat pad atrophy with thinning of the sub-metatarsal tissues and edema plantar to the 5th metatarsal head (M5). No discrete sub-metatarsal bursitis is present. M4, 4th metatarsal head. B. Corresponding T2W FS coronal image shows similar features (arrowheads) to figure A

Fig. 20.

Morton’s neuroma in two different patients. A. Coronal gadolinium-enhanced T1W TSE fat-suppressed image shows inhomogeneous enhancement of a rounded mass (open arrow) on the plantar aspect of the third webspace, consistent with a Morton’s neuroma. B. On greyscale transverse US image of the third webspace, a hypoechoic mass is seen (arrow), which C. becomes more prominent using the squeeze test
Morton’s neuroma in two different patients. A. Coronal gadolinium-enhanced T1W TSE fat-suppressed image shows inhomogeneous enhancement of a rounded mass (open arrow) on the plantar aspect of the third webspace, consistent with a Morton’s neuroma. B. On greyscale transverse US image of the third webspace, a hypoechoic mass is seen (arrow), which C. becomes more prominent using the squeeze test

Fig. 21.

A. Clinical photo of the lateral aspect of the midfoot in a 48-year-old female with non-painful mass (arrow). B. Transverse and C. longitudinal greyscale US images of the midfoot shows a medium-sized ganglion (*) arising by short track (open arrow) from the cuboid (CUB): 4th metatarsal joint (MT 4) articulation. The ganglion lies lateral to the extensor digitorum brevis muscle (EDBr m.)
A. Clinical photo of the lateral aspect of the midfoot in a 48-year-old female with non-painful mass (arrow). B. Transverse and C. longitudinal greyscale US images of the midfoot shows a medium-sized ganglion (*) arising by short track (open arrow) from the cuboid (CUB): 4th metatarsal joint (MT 4) articulation. The ganglion lies lateral to the extensor digitorum brevis muscle (EDBr m.)

Fig. 22.

63-year-old female with a plantar foot mass for one year, painful on weight-bearing. A. Longitudinal and B. transverse greyscale US images show a medium-sized fusiform-shaped plantar fibroma (arrow) arising from the central band of the plantar fascia (arrowheads). C. Color Doppler US image shows mild hyperemia of plantar fibroma. This is an unusual feature which may reflect a more active lesion containing proliferative fibroblastic tissue, similar to contrast enhancement seen on MR examinations
63-year-old female with a plantar foot mass for one year, painful on weight-bearing. A. Longitudinal and B. transverse greyscale US images show a medium-sized fusiform-shaped plantar fibroma (arrow) arising from the central band of the plantar fascia (arrowheads). C. Color Doppler US image shows mild hyperemia of plantar fibroma. This is an unusual feature which may reflect a more active lesion containing proliferative fibroblastic tissue, similar to contrast enhancement seen on MR examinations

Fig. 23.

21-year-old male with a palpable mass medioplantar aspect of foot. A. On greyscale US image, the mass (arrowheads) is hyperechoic (to muscle) and connected to the plantar aponeurosis consistent with a plantar fibroma (Ledderhose disease). B. Sagittal T1-weighted (C) coronal and (D) sagittal T1 fat-suppressed contrast-enhanced images show the lesion to be avidly enhancing (arrows) suggestive of an active lesion containing proliferative fibroblastic tissue with mild surrounding inflammation
21-year-old male with a palpable mass medioplantar aspect of foot. A. On greyscale US image, the mass (arrowheads) is hyperechoic (to muscle) and connected to the plantar aponeurosis consistent with a plantar fibroma (Ledderhose disease). B. Sagittal T1-weighted (C) coronal and (D) sagittal T1 fat-suppressed contrast-enhanced images show the lesion to be avidly enhancing (arrows) suggestive of an active lesion containing proliferative fibroblastic tissue with mild surrounding inflammation

Fig. 24.

72-year-old female with tree branch puncture injury to sole four months previously, who subsequently developed a pyoderma granuloma-like skin wound at the puncture site. A. Longitudinal greyscale US image of sole show a quite well-defined area of subcutaneous fibrosis (open arrowheads) extending down to the level of the plantar aponeurosis (arrowhead). At the deeper margin of this fibrotic area is a linear echogenic structure (arrow), consistent with a small wood splinter. B. Transverse color Doppler US image shows that the fibrotic-type tissue (arrowheads) was not hyperemic. The area of fibrosis and wood foreign body (arrow) were removed at subsequent surgery to good effect
72-year-old female with tree branch puncture injury to sole four months previously, who subsequently developed a pyoderma granuloma-like skin wound at the puncture site. A. Longitudinal greyscale US image of sole show a quite well-defined area of subcutaneous fibrosis (open arrowheads) extending down to the level of the plantar aponeurosis (arrowhead). At the deeper margin of this fibrotic area is a linear echogenic structure (arrow), consistent with a small wood splinter. B. Transverse color Doppler US image shows that the fibrotic-type tissue (arrowheads) was not hyperemic. The area of fibrosis and wood foreign body (arrow) were removed at subsequent surgery to good effect

Fig. 25.

A. Clinical photo of 72-year-old female with an occasionally painful mass (arrow) on the dorsum of the 4th toe for one year. B. Longitudinal greyscale and (C, D) color Doppler US images show a small well-defined ovoid subcutaneous mass on the dorsum of the toe overlying the distal interphalangeal joint (*). There are small hypoechoic protrusions proximally and distally (open arrows). The mass seems to arise from the medial digital artery which coursed through the center of the mass (arrowheads). There is an impression of vascular convergence (open arrow) at the proximal aspect of the moderately hyperemic mass. No deep extension was evident. Leiomyoma was considered the most likely diagnosis. Less likely differential diagnoses included Kimura’s disease, giant cell tumor of tendon sheath, and nerve sheath tumor. Excisional biopsy confirmed leiomyoma
A. Clinical photo of 72-year-old female with an occasionally painful mass (arrow) on the dorsum of the 4th toe for one year. B. Longitudinal greyscale and (C, D) color Doppler US images show a small well-defined ovoid subcutaneous mass on the dorsum of the toe overlying the distal interphalangeal joint (*). There are small hypoechoic protrusions proximally and distally (open arrows). The mass seems to arise from the medial digital artery which coursed through the center of the mass (arrowheads). There is an impression of vascular convergence (open arrow) at the proximal aspect of the moderately hyperemic mass. No deep extension was evident. Leiomyoma was considered the most likely diagnosis. Less likely differential diagnoses included Kimura’s disease, giant cell tumor of tendon sheath, and nerve sheath tumor. Excisional biopsy confirmed leiomyoma

Fig. 26.

A. Clinical photograph of a 73-year-old female with painful dorsal foot swelling (arrow) for 10 years. B. Longitudinal greyscale US image of the dorsum of the midfoot shows severe osteoarthritis with dorsal marginal osteophytosis and capsular swelling (open arrow), particularly between the 1st metatarsal (MT1) bone and the medical Index cuneiform (MC) bone, and, less so, between the medical cuneiform and navicular (N) bones. The joint between the navicular bone and the talus (T) is preserved. C. Longitudinal color Doppler US at the same location shows moderate capsular hyperemia
A. Clinical photograph of a 73-year-old female with painful dorsal foot swelling (arrow) for 10 years. B. Longitudinal greyscale US image of the dorsum of the midfoot shows severe osteoarthritis with dorsal marginal osteophytosis and capsular swelling (open arrow), particularly between the 1st metatarsal (MT1) bone and the medical Index cuneiform (MC) bone, and, less so, between the medical cuneiform and navicular (N) bones. The joint between the navicular bone and the talus (T) is preserved. C. Longitudinal color Doppler US at the same location shows moderate capsular hyperemia

Fig. 27.

75-year-old man with known gout and dorsal mid-foot swelling for one year. A. Transverse and B. longitudinal greyscale US images shows speckled gouty crystal deposition (*) expanding the tibialis anterior tendon (arrowheads) and its distended tendon sheath (arrow). C. Transverse color Doppler US image shows moderate hyperemia around the distended tendon sheath
75-year-old man with known gout and dorsal mid-foot swelling for one year. A. Transverse and B. longitudinal greyscale US images shows speckled gouty crystal deposition (*) expanding the tibialis anterior tendon (arrowheads) and its distended tendon sheath (arrow). C. Transverse color Doppler US image shows moderate hyperemia around the distended tendon sheath

Fig. 28.

59-year-old man with painful midfoot medially. A. Longitudinal greyscale US image shows thickened posterior tibialis tendon (arrowheads) with mild dystrophic calcification (arrow) at and close to the navicular bone (N) insertion. Mild cortical irregularity (open arrow) of the navicular bone insertional area is also present. No tendon tear is seen. T, talar head. B. Mild tendon hyperemia is present. Appearances indicate moderate-severity posterior tibialis insertional tendinosis
59-year-old man with painful midfoot medially. A. Longitudinal greyscale US image shows thickened posterior tibialis tendon (arrowheads) with mild dystrophic calcification (arrow) at and close to the navicular bone (N) insertion. Mild cortical irregularity (open arrow) of the navicular bone insertional area is also present. No tendon tear is seen. T, talar head. B. Mild tendon hyperemia is present. Appearances indicate moderate-severity posterior tibialis insertional tendinosis

Fig. 29.

A. Coronal and B. axial gadolinium-enhanced T1W fat-suppressed MR images of forefoot in a patient with early arthritis shows flexor tenosynovitis (arrows) of the second digit tendons. Mid- and forefoot tenosynovitis is a relevant parameter in early rheumatoid arthritis
A. Coronal and B. axial gadolinium-enhanced T1W fat-suppressed MR images of forefoot in a patient with early arthritis shows flexor tenosynovitis (arrows) of the second digit tendons. Mid- and forefoot tenosynovitis is a relevant parameter in early rheumatoid arthritis

Fig. 30.

Gadolinium-enhanced coronal T1W fat-suppressed MR image at the level of the MTP joints in a patient with early arthritis shows moderate synovitis (arrows) of the 1st to 4th MTP joints as well as flexor and extensor tenosynovitis. In addition, there is diffuse submetatarsal alteration (arrowhead) without discrete bursitis on the plantar aspect of the 1st MTP joint. MT1–MT4, 1st to 4th metatarsal heads
Gadolinium-enhanced coronal T1W fat-suppressed MR image at the level of the MTP joints in a patient with early arthritis shows moderate synovitis (arrows) of the 1st to 4th MTP joints as well as flexor and extensor tenosynovitis. In addition, there is diffuse submetatarsal alteration (arrowhead) without discrete bursitis on the plantar aspect of the 1st MTP joint. MT1–MT4, 1st to 4th metatarsal heads

Fig. 31.

57-year-old female with unilateral lateral foot pain for several months. (A) Longitudinal greyscale US image shows moderate cortical hyperostosis (arrow) of the 5th metatarsal (MT5) base at the insertion of the lateral band plantar fascia (arrowheads). The more lateral insertion of peroneus brevis tendon (open arrow) is also shown. (B) Longitudinal color Doppler US image shows moderate localized hyperemia. Appearances are compatible with enthesitis as a feature of peripheral spondyloarthropathy. Subsequent MRI revealed inflammatory sacroiliitis due to ankylosing spondylitis
57-year-old female with unilateral lateral foot pain for several months. (A) Longitudinal greyscale US image shows moderate cortical hyperostosis (arrow) of the 5th metatarsal (MT5) base at the insertion of the lateral band plantar fascia (arrowheads). The more lateral insertion of peroneus brevis tendon (open arrow) is also shown. (B) Longitudinal color Doppler US image shows moderate localized hyperemia. Appearances are compatible with enthesitis as a feature of peripheral spondyloarthropathy. Subsequent MRI revealed inflammatory sacroiliitis due to ankylosing spondylitis

MRI technique tips for examination of the mid- and forefoot

Use a dedicated coil, such as an ‘ankle and foot ‘coil or a flexible surface coil. The larger dedicated foot and ankle coil enables the examination to be extended to the ankle region, if necessary, and also helps minimize movement artifacts.

Small field-of-view coils are helpful for localized pathology e.g. subungual glomus tumor.

Due to the small structures involved and the need for high-resolution imaging, 3T imaging is preferable to 1.5 T imaging, if available.

A combination of coronal and sagittal with or without oblique axial sequences are used.

T1W and T2W FS sequences are most commonly used.

Dixon technique is useful to acquire homogeneous imaging as well as the simultaneous acquisition of water and fat images.

Oblique axial imaging parallel to the metatarsal shafts is especially helpful if mid-foot bone pathology, such as osteomyelitis or stress fracture, is suspected.

Intravenous contrast may be helpful to assess the presence of collections within an inflammatory mass, to assess synovitis and vascular tumor. Most MRI examinations can be adequately performed without intravenous contrast.

T1W FS or subtraction images may be helpful before and after contrast administration.

Dynamic contrast-enhanced MRI imaging or other functional imaging techniques are generally not necessary for MRI assessment of the mid- and forefoot.

Features helpful in distinguishing the pericapsular fibrosis of lesser metatarsophalangeal (MTP) plantar plate injury from the perineural fibrosis of Morton’s neuroma

Pericapsular fibrosis Morton’s neuromas
Location 2nd > 3rd MTP 3rd > 2nd intermetatarsal space
Shape of fibrotic mass Crescent-shaped Roundish or ovoid ± ginkgo leaf shape on side-to side compression
Base of fibrotic mass Abuts inferolateral (or inferomedial) aspect of affected MTP joint over a broad area Located centrally in intermetatarsal space ± contacts but does not envelope MTP joint capsule
Continuity with common interdigital nerve No continuity Continuity may be visible
Tenderness Maximum over MTP joint region Maximum over intermetatarsal area
Mulder maneuver Negative (no displacement of fibrotic mass) ± Positive (fibrotic mass displaces inferiorly)
Plantar plate integrity Additional 10 or 20 features of plantar plate degeneration / tear usually present MTP joint usually normal
MTP joint stability (Hamilton-Thompson test) ± Unstable Stable

Ultrasound technique tips for examination of the mid- and forefoot

Ensure both you and the patient are in a comfortable position to adequately examine the mid- and hindfoot. Examination of the dorsum or plantar aspect of the foot is normally performed with the foot resting on the examination table, as shown in Fig. 1.

Review any radiographs. Take a history and palpate any lump, if present.

Use a linear high resolution (7–18 MHz) linear transducer. Higher resolution transducers such as a ‘hockey stick’ (18 MHz) or 25 MHz transducer can be used to improve the resolution of smaller structures.

Use of copious acoustic gel to minimalize air gap interference.

Start by examining the corresponding area on the contralateral unaffected foot. This enables one to assess normal anatomy for that part and set up the transducer optimally.

Ensure optimization of transducer depth, focal zone, and time-gain curve settings.

Use compressibility and dynamic assessment for tendon, ligament, or plantar plate assessment

Applied specific maneuvers such as Mulder’s maneuver, when appropriate.

Use minimal transducer pressure when assessing vascularity of superficial structures with color Doppler imaging.

Ensure that the abnormality found on US examination concurs with the clinical symptoms. If the pathology does not fully explain the clinical symptoms or if the lesion has not been fully evaluated, arrange an alternative imaging examination, which will usually be MRI.

Use a full aseptic technique, including a sterile transducer cover, for any interventional procedures.
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