Background
Hyperkeratotic lesions (calluses and corns) are highly prevalent in community dwelling older people, affecting 33 to 68% of those aged over 65 years [
1‐
4]. Plantar lesions are frequently painful and are associated with reduced walking speed, impaired balance and difficulty in ascending and descending stairs [
5], resulting in disability and reduced independence in older people [
6]. An indication of the prevalence and impact of hyperkeratotic lesions in the community on the podiatric workforce is that lesion debridement accounts for up to 75% of podiatrist's workload [
7] and that 84% of people seeking treatment for hyperkeratotic lesions will visit a podiatrist [
8].
Hyperkeratosis is the result of abnormal mechanical stresses on the skin which stimulate overactivity of the keratinisation process. This causes accelerated proliferation of epidermal cells and a decreased rate of desquamation, resulting in hypertrophy of the stratum corneum [
9]. The increased thickness results in a greater volume of skin through which mechanical stresses can be distributed. This natural process of symptom-free hyperkeratosis (
physiological hyperkeratosis) helps to protect the skin and soft tissue layers from mechanical injury. Hyperkeratosis, however, becomes pathological when the keratinised material builds up sufficiently to cause tissue damage and pain, possibly through the release of inflammatory mediators [
10] or due to the pressure of the central keratin plug on underlying nerves [
11].
Plantar hyperkeratotic lesions are most commonly found under the metatarsophalangeal joints (MPJs) [
11], and it has been identified in a number of studies that they develop in areas of elevated plantar pressure [
7,
12‐
14]. The largest study conducted on older people involved 292 participants and reported significant increases in plantar pressure under the callused regions of the plantar forefoot, with the exception of the 1
st MPJ [
14]. The proposed association between elevated pressures and plantar hyperkeratotic lesions has led to some authors suggesting that there are characteristic patterns of lesion formation related to different foot types [
15]. However, such associations have not been confirmed with objective data, and it is likely that lesion distribution patterns are also influenced by other variables, such as bodyweight [
16], footwear [
17], dominant foot [
18] and toe deformities [
19].
There have been four studies reporting on prevalence and distribution of plantar hyperkeratotic lesions [
14,
18,
20,
21]. The only study focused on older people (292 participants, mean age 77.6 years) reported the most common site to be the 1
st MPJ, followed by the 2
nd MPJ and then the hallux [
14]. A study of 319 podiatry patients aged 20 to 99 years (mean age not reported) identified the 2
nd MPJ (36%) as the most common pattern for hyperkeratotic lesions, followed by the 1
st MPJ (27%) and the 5
th MPJ (13%) [
21]. A study on 115 male runners (mean age 29.8 years) reported similar findings, with the 2
nd MPJ (32%) being the most common location, followed by the 1
st MPJ (23%) and the 5
th MPJ (13%) [
18]. Finally, a study of 243 podiatry patients (mean age not reported) found hyperkeratotic lesions under the 2
nd, 3
rd and 4
th MPJs to be the most common location (14%), followed by the 2
nd MPJ alone (10%) and both the 1
st and 5
th MPJs (8%) [
20].
Although these studies have provided useful insights into the most common locations of plantar lesions, the underlying reasons for these patterns were not explored in detail. Therefore, the aims of this study were to evaluate the distribution of plantar hyperkeratotic lesions in a large sample of older people and to explore associations between the presence of lesions and physical characteristics (gender, obesity and dominant foot) and foot characteristics (foot posture, hallux valgus, lesser toe deformity and ankle flexibility). These variables were chosen as they could all be simply and non-invasively measured and are thought to be associated with callus growth through their influence on plantar pressure. We also investigated the relationship between the presence of forefoot callus and forefoot pain, as pain is the most common reason for people to seek medical care and has been associated with decreased ability to perform activities of daily living, problems with balance and gait and increased risk of falls [
22]. We hypothesised that calluses would be more common in women, and would be significantly associated with obesity, foot pain, foot deformity (hallux valgus and lesser toe deformity) and reduced ankle joint range of motion.
Discussion
The purpose of this study was to evaluate the distribution of plantar hyperkeratotic lesions in a large sample of older people. Before discussing these findings, however, it needs to be acknowledged that the response rate of the study population was relatively low (30%). This is comparable to one of the previous studies on callus distributions, where the response rate was 29% [
21]. Response rates for other callus distribution studies were either not stated [
14] or the participants were obtained using convenience sampling [
18,
20]. Due to the study exclusion criteria, it is acknowledged that the majority of the participants were independent community-dwelling people and the findings may not be generalised beyond this group. Furthermore, it should be noted that the variations between the study sample and the national census data indicate this sample was biased towards Australian-born women under 80 years old living alone.
Sixty percent of the sample had at least one plantar hyperkeratotic lesion. This figure concurs with a number of other community-based studies of older people, which have reported prevalence rates ranging between 26 and 68% [
1‐
4]. The higher prevalence observed in women is also consistent with previous studies [
2,
3] and is likely to be related to the wearing of shoes with an elevated heel and narrow toe box [
17], although other factors such as the higher prevalence of hallux valgus in females [
30] may also be responsible. Heel elevation increases the pressure borne by the metatarsal heads [
31,
32] and it has previously been demonstrated that older people who wear shoes that are too narrow or too short are more likely to have corns, lesser toe deformities and hallux valgus [
17].
This is the first study to make a distinction between centrally located callus and callus at the plantar-medial aspect of the 1
st MPJ and IPJ, often referred to as "roll-off" callus. Interestingly, the most common lesion pattern found in this study was medial roll-off callus at the 1
st MPJ (13%), followed by medial roll-off callus at both the 1
st MPJ and 1
st IPJ (13%), then over the 1
st MPJ (12%). If roll-off callus is excluded, lesions under the 1st MPJ (28%) was the most common pattern, followed by under both the 2
nd and 3
rd MPJs (16%) then the 5
th MPJ (11%), which is similar to Menz et al [
14], who found the most common site to be the 1
st MPJ, followed by the 2
nd MPJ and then the hallux in a sample of 292 older people.
The findings of this study differ to the three other studies on the distribution of plantar hyperkeratotic lesions [
18,
20,
21]. Springett et al [
21] and Grouios [
18] found the 2
nd MPJ to be the most common location followed by the 1
st MPJ then the 5
th MPJ. In contrast, Merriman [
20] found hyperkeratotic lesions under the 2
nd, 3
rd, and 4
th MPJs to be the most common, followed by the 2
nd MPJ alone and both the 1
st and 5
th MPJs. This study also included callus under the 1
st IPJ but did not report if it was roll-off callus or centrally located, and the prevalence was considerably lower compared to the current study. The differences between these results and those of the current study may be due to differences in participant characteristics, as the aforementioned studies generally involved younger people, or specific populations such as male runners [
18] or people presenting for podiatric treatment [
18,
20]. Furthermore, it is unclear whether previous studies have excluded roll-off callus or included these lesions as either 1
st MPJ or 1
st IPJ callus. Even if roll-off callus is excluded, however, this study still had a much higher prevalence of lesions under the 1
st MPJ.
This may be due to the higher prevalence of hallux valgus in older people [
33]. Furthermore, it has been reported that peak pressure in the older foot is higher under the medial forefoot area [
34]. The predisposition to medially-located lesions is reflected in the results of the factor analysis (Table
3) which identified that the hyperkeratotic lesion distribution could be collapsed into three groups, essentially a medial, central and lateral grouping, with the medial group consisting of medial 1
st IPJ, medial 1
st MPJ and 1
st MPJ.
Although there is no previous evidence of callus being linked to range of motion in foot joints, our finding of a slightly
larger range of ankle dorsiflexion in those with forefoot calluses is somewhat counter-intuitive, given that reduced ankle motion has been shown to increase forefoot loading in people with diabetes [
35]. However, ankle flexibility is positively correlated with walking speed [
36], and walking speed is in turn associated with higher forefoot pressures [
37]. Therefore, it is possible that increased ankle flexibility in those with calluses is a marker of increased walking speed, which was not analysed in this study. Further research involving concurrent measurement of dynamic ankle motion and plantar pressures would help clarify this relationship.
We found no association between forefoot pain and the presence of plantar lesions. This observation is consistent with Garrow et al [
38] and Menz and Morris [
39], but contrasts to Benvenuti et al [
6] and Menz et al [
14], who found that older people with calluses were more likely to report foot pain. While this study did not record specific details on mobility such as the participants' physical activity levels or walking distances, they were asked to report the average time spent on their feet doing housework and self care around the home. Interestingly, the group with callus reported spending significantly more time on their feet. This could be interpreted as a potential
cause of the plantar lesions (i.e. increased duration of weightbearing), or may simply indicate that the presence of non-painful callus does not interfere with activities of daily living.
We also found no association between plantar hyperkeratotic lesions and bodyweight, obesity, foot posture or dominant foot. Bodyweight has been shown to be a significant determinant of plantar pressure in older people [
40] and increases in force and pressure under the foot when walking, particularly under the midfoot and metatarsal heads, have been observed in obese people [
16,
41]. The lack of an association between plantar lesions and bodyweight indicates that factors other than increased plantar pressure (such as soft tissue thickness, skin hydration and vascular status) may be responsible for the formation of hyperkeratotic lesions in older people. Similarly, it might be expected that foot posture, by altering plantar pressure distribution, would increase the likelihood of developing lesions under certain plantar regions. However, although flatter/more pronated feet and reduced range of motion of the ankle and 1
st MPJ have been demonstrated in older people [
33], and higher plantar pressure have been shown in people with pes cavus [
42], we found no significant association between foot posture and hyperkeratotic lesions. Although the inclusions of a broader array of foot posture measurements may have produced a different result, our findings suggest that obvious structural foot deformities such as hallux valgus and lesser toe deformities play a greater role in plantar lesion development in older people than foot posture.
Finally, it has been suggested that a greater mechanical demand is placed on a person's dominant side and may influence gait patterns, resulting in hyperkeratotic lesions [
18,
21]. While this has been shown to be case in one study on a younger, athletic sample [
18], we found no association between dominant foot and callus formation, which concurs with the findings of Springett et al [
21].
Competing interests
HBM is Editor-in-Chief of the Journal of Foot and Ankle Research. It is journal policy that editors are removed from the peer review and editorial decision making processes for papers they have co-authored.
Authors' contributions
SRL and HBM conceived and designed the study. HBM conducted the statistical analysis. MJS compiled the data and drafted the manuscript and HBM contributed to the drafting of the manuscript. All authors read and approved the final manuscript.