Impaction procedure influences primary stability of acetabular press-fit components

Miriam Ruhr; G. Huber; Y. Niki; Larissa Lohner; Benjamin Ondruschka; M M  Morlock

doi:10.1302/0301-620X.105B3.BJJ-2022-1011.R1

Impaction procedure influences primary stability of acetabular press-fit components

Standard

Impaction procedure influences primary stability of acetabular press-fit components. / Ruhr, Miriam; Huber, G.; Niki, Y.; Lohner, Larissa ; Ondruschka, Benjamin; Morlock, M M .

In: BONE JOINT J, Vol. 105-B, No. 3, 01.03.2023, p. 261-268.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Ruhr, M, Huber, G, Niki, Y, Lohner, L , Ondruschka, B & Morlock, MM 2023, 'Impaction procedure influences primary stability of acetabular press-fit components', BONE JOINT J, vol. 105-B, no. 3, pp. 261-268. https://doi.org/10.1302/0301-620X.105B3.BJJ-2022-1011.R1

APA

Ruhr, M., Huber, G., Niki, Y., Lohner, L., Ondruschka, B., & Morlock, M. M. (2023). Impaction procedure influences primary stability of acetabular press-fit components. BONE JOINT J, 105-B(3), 261-268. https://doi.org/10.1302/0301-620X.105B3.BJJ-2022-1011.R1

Vancouver

Ruhr M, Huber G, Niki Y, Lohner L , Ondruschka B, Morlock MM. Impaction procedure influences primary stability of acetabular press-fit components. BONE JOINT J. 2023 Mar 1;105-B(3):261-268. https://doi.org/10.1302/0301-620X.105B3.BJJ-2022-1011.R1

Bibtex

@article{76130459b20d402a8fea6d555bfb9524,

title = "Impaction procedure influences primary stability of acetabular press-fit components",

abstract = "The aim of the study was to investigate whether the primary stability of press-fit acetabular components can be improved by altering the impaction procedure. Three impaction procedures were used to implant acetabular components into human cadaveric acetabula using a powered impaction device. An impaction frequency of 1 Hz until complete component seating served as reference. Overimpaction was simulated by adding ten strokes after complete component seating. High-frequency implantation was performed at 6 Hz. The lever-out moment of the acetabular components was used as measure for primary stability. Permanent bone deformation was assessed by comparison of double micro-CT (µCT) measurements before and after impaction. Acetabular component deformation and impaction forces were recorded, and the extent of bone-implant contact was determined from 3D laser scans. Overimpaction reduced primary acetabular component stability (p = 0.038) but did not significantly increase strain release after implantation (p = 0.117) or plastic deformations (p = 0.193). Higher press-fits were associated with larger polar gaps for the 1 Hz reference impaction (p = 0.002, R2 = 0.77), with a similar trend for overimpaction (p = 0.082, R2 = 0.31). High-frequency impaction did not significantly increase primary stability (p = 0.170) at lower impaction forces (p = 0.001); it was associated with smaller plastic deformations (p = 0.035, R2 = 0.34) and a trend for increased acetabular component relaxation between strokes (p = 0.112). Higher press-fit was not related to larger polar gaps for the 6 Hz impaction (p = 0.346). Overimpaction of press-fit acetabular components should be prevented since additional strokes can be associated with increased bone damage and reduced primary stability as shown in this study. High-frequency impaction at 6 Hz was shown to be beneficial compared with 1 Hz impaction. This benefit has to be confirmed in clinical studies.",

author = "Miriam Ruhr and G. Huber and Y. Niki and Larissa Lohner and Benjamin Ondruschka and Morlock, {M M}",

year = "2023",

month = mar,

day = "1",

doi = "10.1302/0301-620X.105B3.BJJ-2022-1011.R1",

language = "English",

volume = "105-B",

pages = "261--268",

journal = "BONE JOINT J",

issn = "2049-4394",

publisher = "British Editorial Society of Bone and Joint Surgery",

number = "3",

}

RIS

TY - JOUR

T1 - Impaction procedure influences primary stability of acetabular press-fit components

AU - Ruhr, Miriam

AU - Huber, G.

AU - Niki, Y.

AU - Lohner, Larissa

AU - Ondruschka, Benjamin

AU - Morlock, M M

PY - 2023/3/1

Y1 - 2023/3/1

N2 - The aim of the study was to investigate whether the primary stability of press-fit acetabular components can be improved by altering the impaction procedure. Three impaction procedures were used to implant acetabular components into human cadaveric acetabula using a powered impaction device. An impaction frequency of 1 Hz until complete component seating served as reference. Overimpaction was simulated by adding ten strokes after complete component seating. High-frequency implantation was performed at 6 Hz. The lever-out moment of the acetabular components was used as measure for primary stability. Permanent bone deformation was assessed by comparison of double micro-CT (µCT) measurements before and after impaction. Acetabular component deformation and impaction forces were recorded, and the extent of bone-implant contact was determined from 3D laser scans. Overimpaction reduced primary acetabular component stability (p = 0.038) but did not significantly increase strain release after implantation (p = 0.117) or plastic deformations (p = 0.193). Higher press-fits were associated with larger polar gaps for the 1 Hz reference impaction (p = 0.002, R2 = 0.77), with a similar trend for overimpaction (p = 0.082, R2 = 0.31). High-frequency impaction did not significantly increase primary stability (p = 0.170) at lower impaction forces (p = 0.001); it was associated with smaller plastic deformations (p = 0.035, R2 = 0.34) and a trend for increased acetabular component relaxation between strokes (p = 0.112). Higher press-fit was not related to larger polar gaps for the 6 Hz impaction (p = 0.346). Overimpaction of press-fit acetabular components should be prevented since additional strokes can be associated with increased bone damage and reduced primary stability as shown in this study. High-frequency impaction at 6 Hz was shown to be beneficial compared with 1 Hz impaction. This benefit has to be confirmed in clinical studies.

AB - The aim of the study was to investigate whether the primary stability of press-fit acetabular components can be improved by altering the impaction procedure. Three impaction procedures were used to implant acetabular components into human cadaveric acetabula using a powered impaction device. An impaction frequency of 1 Hz until complete component seating served as reference. Overimpaction was simulated by adding ten strokes after complete component seating. High-frequency implantation was performed at 6 Hz. The lever-out moment of the acetabular components was used as measure for primary stability. Permanent bone deformation was assessed by comparison of double micro-CT (µCT) measurements before and after impaction. Acetabular component deformation and impaction forces were recorded, and the extent of bone-implant contact was determined from 3D laser scans. Overimpaction reduced primary acetabular component stability (p = 0.038) but did not significantly increase strain release after implantation (p = 0.117) or plastic deformations (p = 0.193). Higher press-fits were associated with larger polar gaps for the 1 Hz reference impaction (p = 0.002, R2 = 0.77), with a similar trend for overimpaction (p = 0.082, R2 = 0.31). High-frequency impaction did not significantly increase primary stability (p = 0.170) at lower impaction forces (p = 0.001); it was associated with smaller plastic deformations (p = 0.035, R2 = 0.34) and a trend for increased acetabular component relaxation between strokes (p = 0.112). Higher press-fit was not related to larger polar gaps for the 6 Hz impaction (p = 0.346). Overimpaction of press-fit acetabular components should be prevented since additional strokes can be associated with increased bone damage and reduced primary stability as shown in this study. High-frequency impaction at 6 Hz was shown to be beneficial compared with 1 Hz impaction. This benefit has to be confirmed in clinical studies.

U2 - 10.1302/0301-620X.105B3.BJJ-2022-1011.R1

DO - 10.1302/0301-620X.105B3.BJJ-2022-1011.R1

M3 - SCORING: Journal article

C2 - 36854327

VL - 105-B

SP - 261

EP - 268

JO - BONE JOINT J

JF - BONE JOINT J

SN - 2049-4394

IS - 3

ER -