Top

Knee Surgery, Sports Traumatology, Arthroscopy

Published in:

Open Access 01-11-2015 | Knee

The sulcus line of the trochlear groove is more accurate than Whiteside’s Line in determining femoral component rotation

Authors: Simon Talbot, Pandelis Dimitriou, Ross Radic, Rachel Zordan, John Bartlett

Published in: Knee Surgery, Sports Traumatology, Arthroscopy | Issue 11/2015

Abstract

Purpose

The sulcus line (SL) is a three-dimensional curve produced from multiple points along the trochlear groove. Whiteside’s Line, also known as the anteroposterior axis (APA), is derived from single anterior and posterior points. The purposes of the two studies presented in this paper are to (1) assess the results from the clinical use of the SL in a large clinical series, (2) measure the SL and the APA on three-dimensional CT reconstructions, (3) demonstrate the effect of parallax error on the use of the APA and (4) determine the accuracy of an axis derived by combining the SL and the posterior condylar axis (PCA).

Methods

In the first study, we assessed the SL using a large, single surgeon series of consecutive patients undergoing primary total knee arthroplasties. The post-operative CT scans of patients (n = 200) were examined to determine the final rotational alignment of the femoral component. In the second study, measurements were taken in a series of 3DCT reconstructions of osteoarthritic knees (n = 44).

Results

The mean position of the femoral component in the clinical series was 0.6° externally rotated to the surgical epicondylar axis, with a standard deviation of 2.9° (ranges from −7.2° to 6.7°). On the 3DCT reconstructions, the APA (88.2° ± 4.2°) had significantly higher variance than the SL (90.3° ± 2.7°) (F = 5.82 and p = 0.017). An axis derived by averaging the SL and the PCA+3° produced a significant decrease in both the number of outliers (p = 0.03 vs. PCA and p = 0.007 vs. SL) and the variance (F = 6.15 and p = 0.015 vs. SL). The coronal alignment of the SL varied widely relative to the mechanical axis (0.4° ± 3.8°) and the distal condylar surface (2.6° ± 4.3°).

Conclusions

The multiple points used to determine the SL confer anatomical and geometrical advantages, and therefore, it should be considered a separate rotational landmark to the APA. These findings may explain the high degree of variability in the measurement of the APA which is documented in the literature. Combining a geometrically correct SL and the PCA is likely to further improve accuracy.

Euler's theorem and its proof are contained in paragraphs 24–26 of the appendix (Additamentum. pp. 201–203) of L. Eulero (Leonhard Euler), Formulae generales pro translatione quacunque corporum rigidorum (General formulas for the translation of arbitrary rigid bodies), presented to the St. Petersburg Academy on October 9, 1775.

Aglietti P, Buzzi R, Gaudenzi A (1988) Patellofemoral functional results and complications with the posterior stabilized total condylar knee prosthesis. J Arthroplasty 3(1):17–25CrossRefPubMed

Anouchi YS, Whiteside LA, Kaiser AD, Milliano MT (1993) The effects of axial rotational alignment of the femoral component on knee stability and patellar tracking in total knee arthroplasty demonstrated on autopsy specimens. Clin Orthop Relat Res 287:170–177PubMed

Arima J, Whiteside LA, McCarthy DS, White SE (1995) Femoral rotational alignment, based on the anteroposterior axis, in total knee arthroplasty in a valgus knee. A technical note. J Bone Joint Surg Am 77(9):1331–1334PubMed

Asano T, Akagi M, Nakamura T (2005) The functional flexion-extension axis of the knee corresponds to the surgical epicondylar axis: in vivo analysis using a biplanar image-matching technique. J Arthroplasty 20(8):1060–1067CrossRefPubMed

Barrack RL, Schrader T, Bertot AJ, Wolfe MW, Myers L (2001) Component rotation and anterior knee pain after total knee arthroplasty. Clin Orthop Relat Res 392:46–55CrossRefPubMed

Berger RA, Crossett LS (1998) Determining the rotation of the femoral and tibial components in total knee arthroplasty: a computer tomography technique. Oper Tech Orthop 8(3):128–133CrossRef

Berger RA, Crossett LS, Jacobs JJ, Rubash HE (1998) Malrotation causing patellofemoral complications after total knee arthroplasty. Clin Orthop Relat Res 356:144–153CrossRefPubMed

Berger RA, Rubash HE, Seel MJ, Thompson WH, Crossett LS (1993) Determining the rotational alignment of the femoral component in total knee arthroplasty using the epicondylar axis. Clin Orthop Relat Res 286:40–47PubMed

Cerveri P, Marchente M, Manzotti A, Confalonieri N (2011) Determination of the Whiteside line on femur surface models by fitting high-order polynomial functions to cross-section profiles of the intercondylar fossa. Comput Aided Surg 16(2):71–85CrossRefPubMed

10.

Chauhan SK, Clark GW, Scott RG, Lloyd S, Sikorski JM, Breidahl W (2004) The Perth CT Protocol for total knee replacement. J Bone Joint Surg Br 86-B(SUPP IV):442–443

11.

Churchill DL, Incavo SJ, Johnson CC, Beynnon BD (1998) The transepicondylar axis approximates the optimal flexion axis of the knee. Clin Orthop Relat Res 356:111–118CrossRefPubMed

12.

Dennis DA, Komistek RD, Kim RH, Sharma A (2010) Gap balancing versus measured resection technique for total knee arthroplasty. Clin Orthop Relat Res 468(1):102–107PubMedCentralCrossRefPubMed

13.

Dorr LD, Boiardo RA (1986) Technical considerations in total knee arthroplasty. Clin Orthop Relat Res 205:5–11PubMed

14.

Fehring TK (2000) Rotational malalignment of the femoral component in total knee arthroplasty. Clin Orthop Relat Res 380:72–79CrossRefPubMed

15.

Figgie HE 3rd, Goldberg VM, Figgie MP, Inglis AE, Kelly M, Sobel M (1989) The effect of alignment of the implant on fractures of the patella after condylar total knee arthroplasty. J Bone Joint Surg Am 71(7):1031–1039PubMed

16.

Griffin FM, Insall JN, Scuderi GR (1998) The posterior condylar angle in osteoarthritic knees. J Arthroplasty 13(7):812–815CrossRefPubMed

17.

Griffin FM, Math K, Scuderi GR, Insall JN, Poilvache PL (2000) Anatomy of the epicondyles of the distal femur: MRI analysis of normal knees. J Arthroplasty 15(3):354–359CrossRefPubMed

18.

Heesterbeek PJC, Jacobs WCH, Wymenga AB (2009) Effects of the balanced gap technique on femoral component rotation in TKA. Clin Orthop Relat Res 467(4):1015–1022PubMedCentralCrossRefPubMed

19.

Hungerford DS, Kenna RV (1983) Preliminary experience with a total knee prosthesis with porous coating used without cement. Clin Orthop 176:95–107PubMed

20.

Iranpour F, Merican A, Dandachli W, Amis A, Cobb J (2010) The geometry of the trochlear groove. Clin Orthop Relat Res 468(3):782–788PubMedCentralCrossRefPubMed

21.

Jenny J-Y, Boeri C (2004) Low reproducibility of the intra-operative measurement of the transepicondylar axis during total knee replacement. Acta Orthop Scand 75(1):74–77CrossRefPubMed

22.

Jerosch J, Peuker E, Philipps B, Filler T (2002) Interindividual reproducibility in perioperative rotational alignment of femoral components in knee prosthetic surgery using the transepicondylar axis. Knee Surg Sports Traumatol Arthrosc 10(3):194–197CrossRefPubMed

23.

Kinzel V, Ledger M, Shakespeare D (2005) Can the epicondylar axis be defined accurately in total knee arthroplasty? Knee 12(4):293–296CrossRefPubMed

24.

Laskin RS (1995) Flexion space configuration in total knee arthroplasty. J Arthroplasty 10(5):657–660CrossRefPubMed

25.

Luyckx T, Peeters T, Vandenneucker H, Victor J, Bellemans J (2012) Is adapted measured resection superior to gap-balancing in determining femoral component rotation in total knee replacement? J Bone Joint Surg Br 94(9):1271–1276CrossRefPubMed

26.

Moon Y-W, Ha C-W, Do K-H, Kim C-Y, Han J-H, Na S-E, Lee C-H, Kim J-G, Park Y-S (2012) Comparison of robot-assisted and conventional total knee arthroplasty: a controlled cadaver study using multiparameter quantitative three-dimensional CT assessment of alignment. Comput Aided Surg 17(2):86–95CrossRefPubMed

27.

Nagamine R, Miura H, Inoue Y, Urabe K, Matsuda S, Okamoto Y, Nishizawa M, Iwamoto Y (1998) Reliability of the anteroposterior axis and the posterior condylar axis for determining rotational alignment of the femoral component in total knee arthroplasty. J Orthop Sci 3(4):194–198CrossRefPubMed

28.

Olcott CW, Scott RD (1999) The Ranawat Award. Femoral component rotation during total knee arthroplasty. Clin Orthop Relat Res 367:39–42CrossRefPubMed

29.

Olcott CW, Scott RD (2000) A comparison of 4 intraoperative methods to determine femoral component rotation during total knee arthroplasty. J Arthroplasty 15(1):22–26CrossRefPubMed

30.

Oussedik S, Scholes C, Ferguson D, Roe J, Parker D (2012) Is femoral component rotation in a TKA reliably guided by the functional flexion axis? Clin Orthop Relat Res 470(11):3227–3232PubMedCentralCrossRefPubMed

31.

Paternostre F, Schwab P-E, Thienpont E (2014) The combined Whiteside’s and posterior condylar line as a reliable reference to describe axial distal femoral anatomy in patient-specific instrument planning. Knee Surg Sports Traumatol Arthrosc. doi:10.1007/s00167-014-2836-5

32.

Piriou P, Peronne E, Ouanezar H (2013) Rotational alignment of the femoral component using trochlear navigation during total knee arthroplasty: a dual-center study of 145 cases. J Arthroplasty 28(7):1107–1111CrossRefPubMed

33.

Poilvache PL, Insall JN, Scuderi GR, Font-Rodriguez DE (1996) Rotational landmarks and sizing of the distal femur in total knee arthroplasty. Clin Orthop Relat Res 331:35–46CrossRefPubMed

34.

Ranawat CS (1986) The patellofemoral joint in total condylar knee arthroplasty. Pros and cons based on five- to ten-year follow-up observations. Clin Orthop Relat Res 205:93–99PubMed

35.

Schnurr C, Nessler J, Konig DP (2009) Is referencing the posterior condyles sufficient to achieve a rectangular flexion gap in total knee arthroplasty? Int Orthop 33(6):1561–1565PubMedCentralCrossRefPubMed

36.

Seo J-G, Moon Y-W, Lim J-S, Park S-J, Kim S-M (2012) Mechanical axis-derived femoral component rotation in extramedullary total knee arthroplasty: a comparison between femoral transverse axis and transepicondylar axis. Knee Surg Sports Traumatol Arthrosc 20(3):538–545CrossRefPubMed

37.

Siston RA, Patel JJ, Goodman SB, Delp SL, Giori NJ (2005) The variability of femoral rotational alignment in total knee arthroplasty. J Bone Joint Surg Am 87(10):2276–2280CrossRefPubMed

38.

Stockl B, Nogler M, Rosiek R, Fischer M, Krismer M, Kessler O (2004) Navigation improves accuracy of rotational alignment in total knee arthroplasty. Clin Orthop Relat Res 426:180–186CrossRefPubMed

39.

Talbot S, Bartlett J (2008) The anterior surface of the femur as a new landmark for femoral component rotation in total knee arthroplasty. Knee Surg Sports Traumatol Arthrosc 16(3):258–262CrossRefPubMed

40.

Victor J (2009) Rotational alignment of the distal femur: a literature review. Orthop Traumatol Surg Res 95(5):365–372CrossRefPubMed

41.

Victor J, Van Doninck D, Labey L, Innocenti B, Parizel PM, Bellemans J (2009) How precise can bony landmarks be determined on a CT scan of the knee? Knee 16(5):358–365CrossRefPubMed

42.

Victor J, Van Doninck D, Labey L, Van Glabbeek F, Parizel P, Bellemans J (2009) A common reference frame for describing rotation of the distal femur: a ct-based kinematic study using cadavers. J Bone Joint Surg Br 91(5):683–690CrossRefPubMed

43.

Whiteside LA, Arima J (1995) The anteroposterior axis for femoral rotational alignment in valgus total knee arthroplasty. Clin Orthop Relat Res 321:168–172PubMed

44.

Wraighte PJ, Sikand M, Livesley PJ (2011) Intra- and inter-observer variation during femoral jig rotational alignment in knee arthroplasty. Arch Orthop Trauma Surg 131(9):1283–1286CrossRefPubMed

45.

Yau WP, Chiu KY, Tang WM (2007) How precise is the determination of rotational alignment of the femoral prosthesis in total knee arthroplasty: an in vivo study. J Arthroplasty 22(7):1042–1048CrossRefPubMed

46.

Yoshioka Y, Siu D, Cooke TD (1987) The anatomy and functional axes of the femur. J Bone Joint Surg Am 69(6):873–880PubMed

Title: The sulcus line of the trochlear groove is more accurate than Whiteside’s Line in determining femoral component rotation
Authors: Simon Talbot
Pandelis Dimitriou
Ross Radic
Rachel Zordan
John Bartlett
Publication date: 01-11-2015
Publisher: Springer Berlin Heidelberg
Published in: Knee Surgery, Sports Traumatology, Arthroscopy / Issue 11/2015
Print ISSN: 0942-2056
Electronic ISSN: 1433-7347
DOI: https://doi.org/10.1007/s00167-014-3137-8

Keynote webinar | Spotlight on sleep in brain health

Springer Medicine

The sulcus line of the trochlear groove is more accurate than Whiteside’s Line in determining femoral component rotation

Abstract

Purpose

Methods

Results

Conclusions

Keynote webinar | Spotlight on sleep in brain health

Springer Medicine

Abstract

Purpose

Methods

Results

Conclusions

Please log in to get access to this content

Other articles of this Issue 11/2015

Does a thrombin-based topical haemostatic agent reduce blood loss and transfusion requirements after total knee revision surgery? A randomized, controlled trial

Symmetry of squatting and the effect of fatigue following anterior cruciate ligament reconstruction

Ankle arthroscopy to manage sequelae after ankle fractures

Is the posterior cruciate ligament necessary for medial pivot knee prostheses with regard to postoperative kinematics?

Transcultural adaptation of the Korean version of the Hip Outcome Score

Cryotherapy on postoperative rehabilitation of joint arthroplasty