Fractures of the navicular can occur in isolation but, owing
to the intimate anatomical and biomechanical relationships, are
often associated with other injuries to the neighbouring bones and
joints in the foot. As a result, they can lead to long-term morbidity
and poor function. Our aim in this study was to identify patterns
of injury in a new classification system of traumatic fractures
of the navicular, with consideration being given to the commonly associated
injuries to the midfoot. We undertook a retrospective review of 285 consecutive patients
presenting over an eight- year period with a fracture of the navicular.
Five common patterns of injury were identified and classified according
to the radiological features. Type 1 fractures are dorsal avulsion
injuries related to the capsule of the talonavicular joint. Type
2 fractures are isolated avulsion injuries to the tuberosity of
the navicular. Type 3 fractures are a variant of tarsometatarsal
fracture/dislocations creating instability of the medial ray. Type
4 fractures involve the body of the navicular with no associated
injury to the lateral column and type 5 fractures occur in conjunction
with disruption of the midtarsal joint with crushing of the medial
or lateral, or both, columns of the foot.Aims
Patients and Methods
Neuropathic changes in the foot are common with
a prevalence of approximately 1%. The diagnosis of neuropathic arthropathy
is often delayed in diabetic patients with harmful consequences
including amputation. The appropriate diagnosis and treatment can
avoid an extensive programme of treatment with significant morbidity
for the patient, high costs and delayed surgery. The pathogenesis
of a Charcot foot involves repetitive micro-trauma in a foot with impaired
sensation and neurovascular changes caused by pathological innervation
of the blood vessels. In most cases, changes are due to a combination
of both pathophysiological factors. The Charcot foot is triggered
by a combination of mechanical, vascular and biological factors
which can lead to late diagnosis and incorrect treatment and eventually
to destruction of the foot. This review aims to raise awareness of the diagnosis of the Charcot
foot (diabetic neuropathic osteoarthropathy and the differential
diagnosis, erysipelas, peripheral arterial occlusive disease) and
describe the ways in which the diagnosis may be made. The clinical
diagnostic pathways based on different classifications are presented. Cite this article:
We dissected 12 fresh-frozen leg specimens to
identify the insertional footprint of each fascicle of the Achilles tendon
on the calcaneum in relation to their corresponding muscles. A further
ten embalmed specimens were examined to confirm an observation on
the retrocalcaneal bursa. The superficial part of the insertion
of the Achilles tendon is represented by fascicles from the medial
head of the gastrocnemius muscle, which is inserted over the entire
width of the inferior facet of the calcaneal tuberosity. In three
specimens this insertion was in continuity with the plantar fascia
in the form of periosteum. The deep part of the insertion of the
Achilles tendon is made of fascicles from the soleus tendon, which
insert on the medial aspect of the middle facet of the calcaneal
tuberosity, while the fascicles of the lateral head of the gastrocnemius
tendon insert on the lateral aspect of the middle facet of the calcaneal
tuberosity. A bicameral retrocalcaneal bursa was present in 15 of
the 22 examined specimens. This new observation and description of the insertional footprint
of the Achilles tendon and the retrocalcaneal bursa may allow a
better understanding of the function of each muscular part of the
gastrosoleus complex. This may have clinical relevance in the treatment
of Achilles tendinopathies. Cite this article:
We analysed the clinical and radiological outcomes
of a new surgical technique for the treatment of heterozygote post-axial
metatarsal-type foot synpolydactyly with HOX-D13 genetic mutations
with a mean follow-up of 30.9 months (24 to 42). A total of 57 feet
in 36 patients (mean age 6.8 years (2 to 16)) were treated with
this new technique, which transfers the distal part of the duplicated
fourth metatarsal to the proximal part of the fifth metatarsal.
Clinical and radiological assessments were undertaken pre- and post-operatively
and any complications were recorded. Final outcomes were evaluated
according to the methods described by Phelps and Grogan. Forefoot width
was reduced and the lengths of the all reconstructed toes were maintained
after surgery. Union was achieved for all the metatarsal osteotomies
without any angular deformities. Outcomes at the final assessment
were excellent in 51 feet (89%) and good in six (11%). This newly
described surgical technique provides for painless, comfortable
shoe-wearing after a single, easy-to-perform operation with good
clinical, radiological and functional outcomes. Cite this article:
The outcome in 83 patients with congenital clubfoot was evaluated at a mean age of 64 years using three validated questionnaires assessing both quality of life (short-form (SF)-36 and EQ-5D) and foot and ankle function (American Academy of Orthopaedic Surgeons (AAOS) Foot and Ankle questionnaire). In SF-36, male patients scored significantly better than male norms in seven of the eight domains, whereas female patients scored significantly worse than female norms in two of the eight. Male patients scored better than male norms in both the EQ-5D index (p = 0.027) and visual analogue scale (VAS) (p = 0.013), whereas female patients scored worse than female norms in the VAS (p <
0.001). Both male and female patients had a significantly worse outcome on the AAOS Core Scale than did norms. There was a significant correlation for both genders between the SF-36 Physical Component Summary Score and the AAOS Core Scale. The influence on activities of daily life was limited to foot and ankle problems in all patients, and in females there was an adverse effect in physical aspects of quality of life.