In the surgery for HV, the most commonly damaged nerve is the DMCN. The osteotomy of the first metatarsal is the normal surgical choice. The standard surgical choice involves an osteotomy of the first metatarsal. Research has shown that the incision for the osteotomy is in close proximity to the DMCN at the metatarsophalangeal joint level. It is possible that a “Bunion branch” of the DMCN may exist beneath the incision [11]. In a detailed examination of the DMCN’s course, its relationship with the extensor hallucis longus (EHL) was described. A "Danger Zone" was identified between 12 and 19 mm from the center of the EHL tendon at the level of the MTPJ [9]. These studies provide guidance for surgeons in choosing the osteotomy portal and using an elevator to protect the DMCN in minimally invasive surgery for HV.

Our study focuses on the use of screws in MIS for HV. Although MIS with no fixation or with K-wire was reported to be effective, using internal fixation could help patients achieve early weight-bearing while also reduce the risk of superficial infections [17,18,19]. According to a study on percutaneous fixation in tarsometatarsal fusion with a similar approach to minimally invasive chevron and akin osteotomy (MICA), there were reports of potential irritation and damage to the DMCN [20]. It was suggested that a small incision be made for better visualization of the nerve. In our study, we dissected and described the DMCN at the proximal half of the metatarsal because the screws are typically placed from proximomedial to distolateral in MICA. Most surgeons choose to use two screws parallel to the long axis of the metatarsal in MICA [21]. However, other MIS techniques involving proximal metatarsal osteotomy and different fixation choices can also pose a risk of damaging the DMCN [12]. The area above the line connecting the upper 1/4 point at the base and the 1/2 point at the middle of the first metatarsal, as viewed laterally, is considered the dangerous zone for the DMCN. Therefore, when placing guide pins and screws, it is important to avoid this zone. So far, irritation and injuries of DMCN with screws in MIS techniques are rarely reported, the possible reasons are as follows: (1) Placement of screws parallel to the long axis is the major practice, in which screws are mostly below DMCN or at the borderline of the zone; and (2) postoperative local numbness seems to receive little attention compared to non-union, poor wound healing and recurrence of deformities in many follow-up studies [22]. However, the fact is that numbness actually has a significant impact on patient satisfaction, which is why we conducted this study. Some surgeons may opt to place screws from the dorsal proximomedial to the plantar distolateral direction [23]. While this can provide three-dimensional stability, we recommend against placing the proximal screws dorsally. Avoiding dorsomedial entry not only helps avoid the dangerous zone, but also reduces the risk of plantar placement of the screw, sending the screw more in the center of the head and providing better fixation. In cases involving proximal osteotomy, it is crucial to utilize blunt dissection and protect the soft tissue.

In addition, it has been observed that certain steps in the MIS could potentially cause harm to the DMCN. Following metatarsal osteotomy, some surgeons opt to perform medial eminence resection in order to achieve a more esthetically pleasing outcome. A cadaveric study revealed that in half of the specimens, the DMCN was compromised after undergoing the minimally invasive distal chevron osteotomy and medial eminence resection [7]. However, a separate study found that none of the DMCNs were injured in cases where the MICA was performed without medial eminence resection [24]. Hence, it is recommended to utilize an alternative approach to protect the DMCN when medial eminence resection is deemed necessary.

Lateral soft tissue release plays a crucial role in correcting HV. The distance between the adductor tenotomy portal and the dorsolateral nerve has been reported to be 3.3 ± 1.4 mm [25]. Even in cases of extensive percutaneous lateral release, the dorsolateral nerves remain intact [26]. However, once the release becomes deep enough to transect the deep transverse metatarsal ligament, there is a risk of damage to the plantar nerves [27].

The use of the sentinel vein in surgery for HV has been reported to locate the DMCN [28]. However, in the proximal part of the metatarsal, the courses of the sentinel vein and DMCN are not adjacent. Furthermore, identifying the sentinel vein in MIS can be challenging [29]. Other methods, such as ultrasound, have also been reported for identifying the DMCN, but they are not as simple and convenient in MIS [30]. Based on our study and previous research on the DMCN at the level of the MTPJ, we can effectively protect the DMCN in MIS for HV, thereby preventing post-surgical numbness.

There was no significance in Pearson’s correlation analysis, indicating that the distribution of DMCN was not related with the severity of HV or the pronation of the first metatarsal. Although it has been reported that the distance between DMCN and EHL at the level of the MTPJ is associated with the severity of HV [9], we argue that the displacement of DMCN in the proximal metatarsal is minimal in patients with mild and moderate HV.

Limitation of the study included a small sample size of only 20 specimens, and similar studies with a greater number of samples were suggested. However, the study provides a simple and practical method to avoid DMCN without special tools, which will prevent postoperative numbness. Future, we could evaluate the damage to neurovascular structures by inserting screws into specimens in the 3rd and 4th generation MIS osteotomies.