Nix S. Smith M. Vicenzino B.

Prevalence of hallux valgus in the general population: a systematic review and meta-analysis.

J Foot Ankle Res. 2010; 3: 21View in Article Scopus (421) PubMed Crossref Google ScholarEasley M.E. Trnka H.J.

Current concepts review: hallux valgus part II: operative treatment.

Foot Ankle Int. 2007; 28: 748-758View in Article Scopus (150) PubMed Crossref Google ScholarSmyth N.A. Aiyer A.A.

Introduction: why are there so many different surgeries for hallux valgus?.

Foot Ankle Clin. 2018; 23: 171-182View in Article Scopus (18) PubMed Abstract Full Text Full Text PDF Google ScholarLapidus P.W.

Operative correction of the metatarsus primus varus in hallux valgus.

Surg Gynecol Obstet. 1934; 58: 183-191View in Article Google ScholarLapidus P.W.

The author's bunion operation from 1931 to 1959.

Clin Orthop. 1960; 16: 119-135View in Article PubMed Google ScholarLapidus P.W.

A quarter of a century of experience with the operative correction of the metatarsus varus primus in hallux valgus.

Bull Hosp Joint Dis. 1956; 17: 404-421View in Article PubMed Google ScholarMizuno S.S.Y. Yamazaki K.

Detorsion osteotomy of the first metatarsal bone in hallux valgus.

J Jpn Orthop Assoc. 1956; 30: 813-819View in Article Google ScholarEustace S. Byrne J.O. Beausang O. et al.

Hallux valgus, first metatarsal pronation and collapse of the medial longitudinal arch--a radiological correlation.

Skeletal Radiol. 1994; 23: 191-194View in Article PubMed Crossref Google ScholarOkuda R. Kinoshita M. Yasuda T. et al.

The shape of the lateral edge of the first metatarsal head as a risk factor for recurrence of hallux valgus.

J Bone Joint Surg Am. 2007; 89: 2163-2172View in Article Scopus (133) PubMed Crossref Google ScholarBednarz P.A. Manoli 2nd, A.

Modified lapidus procedure for the treatment of hypermobile hallux valgus.

Foot Ankle Int. 2000; 21: 816-821View in Article Scopus (123) PubMed Crossref Google ScholarBoffeli T.J. Hyllengren S.B.

Can we abandon saw wedge resection in lapidus fusion? A Comparative study of joint preparation techniques regarding correction of deformity, union rate, and preservation of first ray length.

J Foot Ankle Surg. 2019; 58: 1118-1124View in Article PubMed Abstract Full Text Full Text PDF Google ScholarCatanzariti A.R. Mendicino R.W. Lee M.S. et al.

The modified Lapidus arthrodesis: a retrospective analysis.

J Foot Ankle Surg. 1999; 38: 322-332View in Article PubMed Abstract Full Text PDF Google ScholarChopra S. Moerenhout K. Crevoisier X.

Subjective versus objective assessment in early clinical outcome of modified Lapidus procedure for hallux valgus deformity.

Clin Biomech (Bristol, Avon). 2016; 32: 187-193View in Article PubMed Abstract Full Text Full Text PDF Google ScholarCoetzee J.C. Resig S.G. Kuskowski M. et al.

The Lapidus procedure as salvage after failed surgical treatment of hallux valgus. Surgical technique.

J Bone Joint Surg Am. 2004; 86-A: 30-36View in Article PubMed Crossref Google ScholarCoetzee J.C. Wickum D.

The Lapidus procedure: a prospective cohort outcome study.

Foot Ankle Int. 2004; 25: 526-531View in Article PubMed Crossref Google ScholarConti M.S. MacMahon A. Ellis S.J. et al.

Effect of the modified lapidus procedure for hallux valgus on foot width.

Foot Ankle Int. 2020; 41: 154-159View in Article Scopus (10) PubMed Crossref Google ScholarConti M.S. Patel T.J. Zhu J. et al.

Association of first metatarsal pronation correction with patient-reported outcomes and recurrence rates in hallux valgus.

Foot Ankle Int. 2022; 43: 309-320View in Article Scopus (7) PubMed Crossref Google ScholarConti M.S. Willett J.F. Garfinkel J.H. et al.

Effect of the modified lapidus procedure on pronation of the first ray in hallux valgus.

Foot Ankle Int. 2020; 41: 125-132View in Article Scopus (25) PubMed Crossref Google ScholarCottom J.M. Vora A.M.

Fixation of lapidus arthrodesis with a plantar interfragmentary screw and medial locking plate: a report of 88 cases.

J Foot Ankle Surg. 2013; 52: 465-469View in Article PubMed Abstract Full Text Full Text PDF Google ScholarDayton P. Feilmeier M.

Comparison of tibial sesamoid position on anteroposterior and axial radiographs before and after triplane tarsal metatarsal joint arthrodesis.

J Foot Ankle Surg. 2017; 56: 1041-1046View in Article Scopus (15) PubMed Abstract Full Text Full Text PDF Google ScholarFaber F.W. Mulder P.G. Verhaar J.A.

Role of first ray hypermobility in the outcome of the Hohmann and the Lapidus procedure. A prospective, randomized trial involving one hundred and one feet.

J Bone Joint Surg Am. 2004; 86: 486-495View in Article Scopus (75) PubMed Crossref Google ScholarFaber F.W. van Kampen P.M. Bloembergen M.W.

Long-term results of the Hohmann and Lapidus procedure for the correction of hallux valgus: a prospective, randomised trial with eight- to 11-year follow-up involving 101 feet.

Bone Joint J. 2013; 95-b: 1222-1226View in Article Scopus (40) PubMed Crossref Google ScholarFerreyra M. Viladot Pericé R. Nuñez-Samper M. et al.

Can we correct first metatarsal rotation and sesamoid position with the 3D Lapidus procedure?.

Foot Ankle Surg. 2021; https://doi.org/10.1016/j.fas.2021.04.001View in Article Scopus (2) PubMed Crossref Google ScholarFleming J.J. Kwaadu K.Y. Brinkley J.C. et al.

Intraoperative evaluation of medial intercuneiform instability after Lapidus arthrodesis: intercuneiform hook test.

J Foot Ankle Surg. 2015; 54: 464-472View in Article PubMed Abstract Full Text Full Text PDF Google ScholarForan I.M. Mehraban N. Jacobsen S.K. et al.

Radiographic impact of lapidus, proximal lateral closing wedge osteotomy, and suture button procedures on first ray length and dorsiflexion for hallux valgus.

Foot Ankle Int. 2020; 41: 964-971View in Article Scopus (8) PubMed Crossref Google ScholarGrace D. Delmonte R. Catanzariti A.R. et al.

Modified lapidus arthrodesis for adolescent hallux abducto valgus.

J Foot Ankle Surg. 1999; 38: 8-13View in Article PubMed Abstract Full Text PDF Google ScholarGreeff W. Strydom A. Saragas N.P. et al.

Radiographic assessment of relative first metatarsal length following modified lapidus procedure.

Foot Ankle Int. 2020; 41: 972-977View in Article Scopus (9) PubMed Crossref Google ScholarGutteck N. Wohlrab D. Zeh A. et al.

Comparative study of Lapidus bunionectomy using different osteosynthesis methods.

Foot Ankle Surg. 2013; 19: 218-221View in Article PubMed Crossref Google ScholarHaas Z. Hamilton G. Sundstrom D. et al.

Maintenance of correction of first metatarsal closing base wedge osteotomies versus modified Lapidus arthrodesis for moderate to severe hallux valgus deformity.

J Foot Ankle Surg. 2007; 46: 358-365View in Article Scopus (27) PubMed Abstract Full Text Full Text PDF Google ScholarJagadale V.S. Thomas R.L.

A clinicoradiological and functional evaluation of lapidus surgery for moderate to severe bunion deformity shows excellent stable correction and high long-term patient satisfaction.

Foot Ankle Spec. 2020; 13: 488-493View in Article Scopus (4) PubMed Crossref Google ScholarKing C.M. Richey J. Patel S. et al.

Modified lapidus arthrodesis with crossed screw fixation: early weightbearing in 136 patients.

J Foot Ankle Surg. 2015; 54: 69-75View in Article PubMed Abstract Full Text Full Text PDF Google ScholarKing C.M. Hamilton G.A. Ford L.A.

Effects of the lapidus arthrodesis and chevron bunionectomy on plantar forefoot pressures.

J Foot Ankle Surg. 2014; 53: 415-419View in Article PubMed Abstract Full Text Full Text PDF Google ScholarKlos K. Wilde C.H. Lange A. et al.

Modified Lapidus arthrodesis with plantar plate and compression screw for treatment of hallux valgus with hypermobility of the first ray: a preliminary report.

Foot Ankle Surg. 2013; 19: 239-244View in Article PubMed Crossref Google ScholarKlouda J. Hromádka R. Šoffová S. et al.

The change of first metatarsal head articular surface position after Lapidus arthrodesis.

BMC Musculoskelet Disord. 2018; 19: 347https://doi.org/10.1186/s12891-018-2262-9View in Article Scopus (3) PubMed