Hallux valgus is one of the most common problems in foot pathology, causing pain and function limitation in many patients and often requiring surgery to correct it.1–3 The deformity produced in the first metatarsophalangeal joint can only be corrected satisfactorily by an operation and, in fact, there are more than 200 techniques described for correcting it, whether by acting on the bone or on the soft tissues.4–6

Within the physiopathology of hallux valgus, several known phenomena have been described, such as the retraction of the hallux flexor and abductor, as well as dislocation with respect to the sesamoid bones caused by the deviation of the first metatarsus. It has been proposed that these mechanisms tend to perpetuate the deformity and can, in the long run, influence the appearance of osteoarthritis in the first metatarsus. Other influential factors in the appearance of osteoarthritis could be caused by increased mobility of the first ray, the relative position of the metatarsals or by their relative position due to the deformity.4,7,8 First metatarsus osteoarthritis contributes to the appearance of pain in these patients.

In hallux valgus surgery, osteoarthritis normally appears in the joint section of the head of the first metatarsus and in the zone of what is called the “bunion”. In our experience, we have also observed various degrees of chondral ulcers in the plantar region of the head, in the area of articulation with the sesamoid bones, during these operations. Various authors have associated the appearance of these chondral lesions to factors as different as what is improperly called sesamoid bone deviation (the bone that is deviated is the first metatarsal) or the change in the distribution of pressure on the first metatarsal head when it shifts in the valgus direction and rotates. Other authors have tried to relate the chondral lesions under the first metatarsal head with different radiological parameters.9 Although such chondral lesions are well described in some studies in the literature,9–13 hardly any attention has been given to whether this osteoarthritis is related to patient pain. Consequently, the relation that there could be between the degree of osteoarthritis under the first metatarsal head and the patient's clinical symptoms and the prognosis of hallux valgus surgery is not well known.

We took a transversal sample from 28 patients to be operated on for hallux valgus correction in our centre. All of the patients were assessed in consultation before the surgery. The appearance of pain upon palpating under the first metatarsal head during this examination was evaluated, using a visual analogue scale (VAS). All of the patients presented an intermetatarsal angle greater than 15° in the preoperative radiographs.

Immediately after beginning the anaesthetic procedure, the patients were again asked about the appearance of pain under the first metatarsal head, exploring whether pain appeared when this area was palpated. The same surgeons operated on all of the patients, using the same technique. We corrected the deformity in all of the patients by scarf osteotomy stabilised with 2 screws. A medial approach was performed at the first metatarsal. When the first metatarsal head was exposed, we evaluated the state of the cartilage in the plantar and classified it according to the International Cartilage Research Society (ICRS) scale.

In the consultation, we took anteroposterior and lateral preoperative radiographs of the foot to operate in the load position. The type of foot was then determined from these images based on the length of the first metatarsal with respect to the second. We also assessed the proximal articular set angle [PASA]). In 2 cases, we could not recover the perioperative radiographs to calculate the PASA, so 26 patients were analysed. In addition, we evaluated the relative sesamoid position based on the abbreviated classification proposed by Malabar,4 which separates 5 degrees according to the ratio of the medial sesamoid with the first metatarsal axis. Likewise, we recorded any signs of degeneration in the metatarsophalangeal joint as present or absent.

Statistical analysis was performed with the SPSS 14.0 using Pearson's correlation coefficient, and the Chi square test for variables grouped in categories. A significance level of P<0.05 was used.

We assessed 28 feet from 27 patients, 2 males and 25 females. Of the total, 11 were left feet and 17, right. In 21 cases, the toe formula was index minus, in 2 cases it was index plus and in 5 cases it was index plus minus. The mean age of the patients was 60.8 years (minimum: 42; maximum: 80).

In the case histories, none of the patients reported pain in the first metatarsal support area just before surgery. Upon examination, 18 of the 28 feet operated were asymptomatic (analogical visual scale [AVS]=0), the pain was slight (AVS=1–3) in 7 cases and moderate (AVS=4–6) in 3. With respect to cartilage integrity in the area of articulation with the sesamoid bones, 7 feet had Grade 1 damage, 5 patients had Grade 2 lesions, 8 had Grade 3 and 8 patients presented Grade 4. Only 5 patients had radiological signs of moderate or severe metatarsophalangeal osteoarthritis. The patients with radiographic signs of osteoarthritic damage showed macroscopic cartilage damage of Outerbridge Grade 4 on assessing the articulations during the operation.

No significant correlation was found between the osteoarthritis lesions in the first metatarsal and the pain the patients presented (Table 1). The 3 cases of moderate pain (the highest AVS scores registered, 4–7) had Grades 2, 3 and 4 damage in the 3 feet, respectively. Among the 18 asymptomatic patients, 5 had Grade 1 lesions, 2 had Grade 2, 7 of them had Grade 3 damage and 4 had Grade 4 damage.

We found a weak, but significant, positive correlation between patient age and degree of intraoperative osteoarthritis found (r=0.398; P=0.04) (Fig. 1). Combining the patients in age groups, no significant differences were found between the groups. However, in the groups of older patients (60s–70s), the proportion of patients with a greater degree of first metatarsal osteoarthritis was higher. In the 60–70 group, 6 of the 10 patients had Grade 3–4; in those older than 70 (4 patients), 2 had Grade 4 osteoarthritis and 1, Grade 3 (Table 2).

Figure 1.

Graph showing the correlation between patient age and osteoarthritis grade. The value of the correlation coefficient is r=0.398 with P=0.04.

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One of the aspects related to the deformities produced by hallux valgus is the appearance of osteoarthritis under the first metatarsal head. Ito et al7 observed the radiographs of patients having osteoarthritis of the first metatarsal and hallux valgus, comparing them with controls having only hallux valgus; they found variations in the length and adduct displacement of the metatarsals in the first group. Aseyo et al.14 studied the morphology of the relation between the medial sesamoid and the plantar face of the first metatarsal head in patients with hallux valgus. They found osteoarthritis in up to 32% of the patients, and a greater relationship between the degree of deformity and the degree of osteoarthritis. Some authors have speculated, even though only theoretically, about the possibility of early corrective surgery for hallux valgus, to prevent the dislocation of the first metatarsal with respect to the sesamoid bones and the consequent appearance of osteoarthritis.9

In our study, we found no correlation between the osteoarthritis under the first metatarsal head and the pain the patients reported in that area. Cho et al.15 found an associated between patient pain and degree of deformity in epidemiological studies, although they did not asses the degree of osteoarthritis macroscopically. Some authors found that the patients with osteoarthritis in the preoperative radiograph obtained worse medium-term clinical results. Largey et al.13 did attempt to correlate the degree of metatarsal displacement with osteoarthritis in the plantar face of the first metatarsal and patient pain, measured by means of questionnaires. In our case, we tried to assess patient pain by looking directly at the location of the pain during the physical examination. Most of the patients experienced pain attributable to bursitis in the medial face of the first metatarsal head (what is called a bunion). Other patients gave more weight to the central ray overload or Morton syndrome concomitant with their hallux valgus and did not complain of discomfort under the first metatarsal head. This has also been reported by other authors.16 On the other hand, Lui et al.17 performed arthroscopy on the metatarsophalangeal joint in 121 patients, finding osteoarthritis to a greater or lesser degree in all of the patients, as well as joint synovitis. The author indicated that 90% of the patients improved after synovectomy in the same operation. This would mean that the cartilage was not directly responsible for the pain, at least in those cases.

The influence of sesamoid position in the deformity produced in hallux valgus has frequently been studied. Although the classification systems described4 confirm the position of the sesamoids with the first metatarsal, it is known that it is the latter that, as it is displaced in varus, loses its natural relationship with the sesamoids while they remain in their place. Some authors, having studied the appearance of osteoarthritis related to first metatarsal displacement with respect to the sesamoid bones,13 proposed various techniques aimed at recovering the original relationship between the first metatarsal and the sesamoids. In our case, we did not find a special relationship between the degree of metatarsal osteoarthritis and first metatarsal displacement with respect to the sesamoid bones.

The presence of osteoarthritis under the first metatarsal head seems to correlate with patient age, which is logical: the older the patient, the greater the probability of developing degenerative joint changes, including in the toes. In our study, this relationship was statistically significant, although with only a weak correlation. Taking a population with a wide age range helped assess the appearance of osteoarthritis in different stages of life, although a priori it could appear to be a study limitation from using an apparently divergent population. With respect to the relationship between PASA and the degree of postoperative osteoarthritis, we did not find any statistically significant differences. However, when the patients were grouped, the proportion of osteoarthritic changes was greater in the patients having the most increased PASA. Thordarson et al.18 did not find any differences between the degree of hallux valgus deformity and the clinical results of the patients. Other authors have found greater osteoarthritis in the metatarsals with the most elevated PASA levels.9,11,19

The absence of pain in these patients makes us reconsider the need for early correction of the hallux valgus deformity to prevent the appearance of osteoarthritis, as well as the need to obtain total congruence of the plantar sesamoid bones with the first metatarsal head. Given that the patients do not report any pain, it makes no sense to spend surgery time and efforts re-establishing this sesamoid-first metatarsal congruence, possibly adding greater morbidity during the operation. We also feel that it is not necessary to worry about preventing the development of osteoarthritis under the first metatarsal head. Even when this appears in our patients, it does not cause any complaints in the initial consult or in the perioperative period. It is important to emphasise that, although pain under the first metatarsal head is not a clinically important factor (so it is not necessary to take direct action on it), it is still essential to obtain the appropriate correction of the deformity to prevent its reoccurrence.

A limitation of this study is that the correlation between the pain and the osteoarthritis was performed transversally over time. Our goal was to establish if there could be a relationship between patient clinical signs and symptoms and the discovery of osteoarthritis that we found at the specific moment of surgery. It would be of interest to assess whether patients present pain under the first metatarsal head during their postoperative evolution. We are carrying out a prospective follow-up of these patients to provide these data in a future article.

Protection of human and animal subjects. The authors declare that no experiments were performed on humans or animals for this investigation.

Confidentiality of Data. The authors will declare that they have followed the protocols of their work centre on the publication of patient data and that all the patients included in the study have received sufficient information and have given their informed consent in writing to participate in that study.

Right to privacy and informed consent. The authors must have obtained the informed consent of the patients and/or subjects mentioned in the article. The author for correspondence must be in possession of this document.

Level of evidence IV: transversal study.

The authors have no conflict of interests to declare.