Ansari MH, Claes S, Wascher DC, Neyret P, Stuart MJ, Krych AJ (2017) International perspective on revision anterior cruciate ligament reconstruction: what have we been missing? Instr Course Lect 66(15):543–556

PubMed  Google Scholar 

Bernard M, Hertel P, Hornung H, Cierpinski T (1997) Femoral insertion of the ACL. Radiographic quadrant method. Am J Knee Surg 10(1):14–21

CAS  PubMed  Google Scholar 

Borton ZM, Yasen SK, Mumith A, Wilson AJ (2018) Mid-bundle positioning of the femoral socket increases graft rupture in anatomic single bundle anterior cruciate ligament reconstruction. Knee 25(6):1122–1128

Article  Google Scholar 

Byrne KJ, Hughes JD, Gibbs C et al (2022) Non-anatomic tunnel position increases the risk of revision anterior cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc 30(4):1388–1395

Article  Google Scholar 

Clatworthy M, Sauer S, Roberts T (2019) Transportal central femoral tunnel placement has a significantly higher revision rate than transtibial AM femoral tunnel placement in hamstring ACL reconstruction. Knee Surg Sports Traumatol Arthrosc 27(1):124–129

Article  Google Scholar 

Cury RPL, Simabukuro AM, Oliveira VM, Escudeiro D, Jorge PB, Severino FR et al (2020) Anteromedial positioning of the femoral tunnel in anterior cruciate ligament reconstruction is the best option to avoid revision: a single surgeon registry. J Exp Orthop 7(1):11

Article  Google Scholar 

Das A, Yadav CS, Gamanagatti S, Pandey RM, Mittal R (2019) Arthroscopic and 3D CT scan evaluation of femoral footprint of the anterior cruciate ligament in chronic ACL deficient knees. J Knee Surg 32(6):584–588

Article  Google Scholar 

Dimitriou D, Zou D, Wang Z, Helmy N, Tsai TY (2021) Anterior cruciate ligament bundle insertions vary between ACL-rupture and non-injured knees. Knee Surg Sports Traumatol Arthrosc 29(4):1164–1172

Article  Google Scholar 

Dong Y, Tang J, Cui P, Shen S, Wang G, Li J et al (2021) Reconstruction of the anterior cruciate ligament using ruler-assisted positioning of the femoral tunnel relative to the posterior apex of the deep cartilage: a single-center case series. J Knee Surg. https://doi.org/10.1055/s-0041-1726418

Article  PubMed  Google Scholar 

Ferretti M, Levicoff EA, Macpherson TA, Moreland MS, Cohen M, Fu FH (2007) The fetal anterior cruciate ligament: an anatomic and histologic study. Arthroscopy 23(3):278–283

Article  Google Scholar 

Gardner EJ, Noyes FR, Jetter AW, Grood ES, Harms SP, Levy MS (2015) Effect of anteromedial and posterolateral anterior cruciate ligament bundles on resisting medial and lateral tibiofemoral compartment subluxations. Arthroscopy 31(5):901–910

Article  Google Scholar 

Hara K, Kubo T, Suginoshita T, Shimizu C, Hirasawa Y (2000) Reconstruction of the anterior cruciate ligament using a double bundle. Arthroscopy 16(8):860–864

CAS  Article  Google Scholar 

Haroun HK, Abouelsoud MM, Allam MR, Abdelwahab MM (2022) Transtibial versus independent femoral tunnel drilling techniques for anterior cruciate ligament reconstruction: evaluation of femoral aperture positioning. J Orthop Surg Res 17(1):166

Article  Google Scholar 

Hart A, Han Y, Martineau PA (2015) The apex of the deep cartilage: a landmark and new technique to help identify femoral tunnel placement in anterior cruciate ligament reconstruction. Arthroscopy 31(9):1777–1783

Article  Google Scholar 

Hey Groves EW (1917) Operation for the repair of the cruciate ligaments. Lancet 190:674–676

Article  Google Scholar 

Ikuta Y, Nakamae A, Shimizu R, Ishikawa M, Nakasa T, Ochi M et al (2022) A comparison of central anatomic single-bundle reconstruction and anatomic double-bundle reconstruction in anteroposterior and rotational knee stability: intraoperative biomechanical evaluation. J Knee Surg 35(3):273–279

Article  Google Scholar 

Iwahashi T, Shino K, Nakata K, Otsubo H, Suzuki T, Amano H et al (2010) Direct anterior cruciate ligament insertion to the femur assessed by histology and 3-dimensional volume-rendered computed tomography. Arthroscopy 26(9):S13–S20

Article  Google Scholar 

Jorge PB, Escudeiro D, Severino NR, Santili C, Cury RPL, Junior AD et al (2018) Positioning of the femoral tunnel in anterior cruciate ligament reconstruction: functional anatomical reconstruction. BMJ Open Sport Exerc Med 4(1):e000420

Article  Google Scholar 

Kaleka CC, Aihara LJ, Rodrigues A, Medeiros SF, Oliveira VM, Cury RPL (2016) Cadaveric study of the secondary medial patellar restraints: patellotibial and patellomeniscal ligaments. Knee Surg Sports Traumatol Arthrosc 25(1):144–151

Article  Google Scholar 

Kim SJ, Song SY, Kim TS, Kim YS, Jang SW, Seo YJ (2021) Creating a femoral tunnel aperture at the anteromedial footprint versus the central footprint in ACL reconstruction: comparison of contact stress patterns. Orthop J Sports Med 9(4):23259671211001800

Article  Google Scholar 

Malempati CS, Metzler AV, Johnson DL (2017) Single-bundle anatomic anterior cruciate ligament reconstruction: surgical technique pearls and pitfalls. Clin Sports Med 36(1):53–70

Article  Google Scholar 

Oh JY, Kim KT, Park YJ, Won HC, Yoo JI, Moon DK et al (2020) Biomechanical comparison of single-bundle versus double-bundle anterior cruciate ligament reconstruction: a meta-analysis. Knee Surg Relat Res 32(1):14

Article  Google Scholar 

Robinson J, Inderhaug E, Harlem T, Spalding T, Brown CH Jr (2020) Anterior cruciate ligament femoral tunnel placement: an analysis of the intended versus achieved position for 221 international high-volume ACL surgeons. Am J Sports Med 48(5):1088–1099

Article  Google Scholar 

Rowan FA, Marshall T, Gombosh MR, Farrow LD (2017) Utilization of osseous landmarks for anatomic anterior cruciate ligament femoral tunnel placement. J Knee Surg 30(4):359–363

Article  Google Scholar 

Sasaki Y, Fujii M, Araki D, Marshall BD, Linde MA, Smolinski P et al (2021) Effect of percentage of femoral anterior cruciate ligament insertion site reconstructed with hamstring tendon on knee kinematics and graft force. Am J Sports Med 49(5):1279–1285

Article  Google Scholar 

Siebold R (2015) Flat ACL anatomy: fact no fiction. Knee Surg Sports Traumatol Arthrosc 23(11):3133–3135

Article  Google Scholar 

Su C, Kuang SD, Liu WJ, Li YS, Xiong YL, Zhao X et al (2020) Clinical outcome of remnant-preserving and I.D.E.A.L. femoral tunnel technique for anterior cruciate ligament reconstruction. Orthop Surg 12(6):1693–1702

Article  Google Scholar 

van Eck CF, Lesniak BP, Schreiber VM, Fu FH (2010) Anatomic single- and double-bundle anterior cruciate ligament reconstruction flowchart. Arthroscopy 26(2):258–268

Article  Google Scholar 

Xu H, Zhang C, Zhang Q, Du T, Ding M, Wang Y et al (2016) A systematic review of anterior cruciate ligament femoral footprint location evaluated by quadrant method for single-bundle and double-bundle anatomic reconstruction. Arthroscopy 32(8):1724–1734

Article  Google Scholar 

Zhang J, Ma Y, Pang C, Wang H, Jiang Y, Ao Y (2021) No differences in clinical outcomes and graft healing between anteromedial and central femoral tunnel placement after single bundle ACL reconstruction. Knee Surg Sports Traumatol Arthrosc 29(6):1734–1741

Article  Google Scholar