Posterior acetabular arc angle of the femoral head assesses instability of posterior fracture-dislocation of the hip

Harnroongroj, Thossart; Suangyanon, Purinon; Tharmviboonsri, Theerawoot

doi:10.1007/s00264-013-1870-0

Cited by 16 publications

(20 citation statements)

References 5 publications

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“…The study showed 54.48°coronal PAAA of the unstable posterior hip fracture-dislocation and 57.43°of 50 % of the posterior wall of the normal contralateral posterior acetabulum, with no statistically significant difference (Table 1). Moreover, coronal PAAA and 50 % of the posterior acetabular wall corresponded to the study by Harnroongroj et al [6]. Measuring vertical PAAA of the posterior acetabular wall fracture in the vertical plane using 3D CT reconstruction of the lateral pelvis may be another beneficial method for more detailed evaluation of the unstable posterior hip fracture-dislocation.…”

Section: Discussionsupporting

confidence: 76%

“…Moreover, patients 17 and 18 shown in Table 1 displayed 75°and 76°coronal PAAA, respectively, with a 22.42-and 24.60-mm coronal posterior wall, respectively. Both cases had clinical unstable posterior hip fracture-dislocations, which did not show on the images [4,6]. On the other hand, both cases had outstanding 119°and 112°of vertical PAAAs of the wall fracture compared with 120°and 118°of intact vertical PAAA of normal contralateral acetabulum (Table 2).…”

Section: Discussionmentioning

confidence: 93%

“…Then, intact posterior acetabular wall depth (AB) was measured from the top of the wall (A) perpendicularly to the PQ line (B). Fifty percent of the posterior wall (BD) was calculated and marked as D. The centre of the acetabulum (O) was identified with a circle template, using anterior, posterior and medial walls as references [6]. Then, the OX line was drawn from the acetabular centre to the thinnest part of the wall (X).…”

Section: Methodsmentioning

confidence: 99%

“…Moreover, neither measurement allows evaluation of whether the posterior acetabular wall involves the superior acetabular dome. A previous study as shown that the coronal posterior acetabular arc angle (PAAA) of the femoral head is another method by which to determine a unstable posterior hip dislocation [6]. Measurement included arc coverage of the posterior half of the medial wall and posterior acetabular wall.…”

Section: Introductionmentioning

confidence: 99%

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Posterior acetabular arc angle of unstable posterior hip fracture–dislocation

Harnroongroj

Riansuwan

Sudjai

et al. 2013

International Orthopaedics (SICOT)

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Purpose Posterior hip fracture-dislocation needs stability evaluation. A previous study in the normal acetabulum has shown that the coronal posterior acetabular arc angle (PAAA) could be used to assess an unstable posterior hip fracture. Our study was designed to assess PAAA of unstable posterior hip fracture-dislocation and whether posterior acetabular wall fracture involves the superior acetabular dome. Methods Using coronal computed tomography (CT) of the acetabulum and 3D reconstruction of the lateral pelvis, we measured coronal, vertical PAAA and posterior acetabular wall depth of 21 unstable posterior hip fracture-dislocations and of 50 % normal contralateral acetabula. Posterior acetabular wall fracture was assessed to determine whether the fracture involved the superior acetabular dome and then defined as a high or low wall fracture using vertical PAAA in reference to the centroacetabulo-greater sciatic notch line. Results The coronal PAAA of unstable posterior hip fracturedislocations and of 50 % of the posterior acetabular wall of normal the contralateral acetabulum were 54.48°(9.09°) and 57.43°(5.88°) and corresponded to 15.06 (4.39) and 15.61

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Section: Discussionsupporting

confidence: 76%

Section: Discussionmentioning

confidence: 93%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Posterior acetabular arc angle of unstable posterior hip fracture–dislocation

Harnroongroj

Riansuwan

Sudjai

et al. 2013

International Orthopaedics (SICOT)

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“…Acetabular fracture involving superior weight bearing area shows significantly poor results 12. Moreover, stability of the hip depends on adequate acetabular coverage of the femoral head 34. Roof arc angle is a method to evaluate adequate acetabular coverage and stability of the femoral head, Matta and Merritt study based on clinical findings and suggested that the fracture crosses acetabular weight bearing dome when <45° medial, anterior and posterior roof arc angles 56.…”

Section: Introductionmentioning

confidence: 99%

Acetabular roof arc angles and anatomic biomechanical superior acetabular weight bearing area

Harnroongroj

Wattanakaewsripetch

Sudjai

2014

IJOO

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Background:Acetabular fracture involves whether superior articular weight bearing area and stability of the hip are assessed by acetabular roof arc angles comprising medial, anterior and posterior. Many previous studies, based on clinical, biomechanics and anatomic superior articular surface of acetabulum showed different degrees of the angles. Anatomic biomechanical superior acetabular weight bearing area (ABSAWBA) of the femoral head can be identified as radiographic subchondral bone density at superior acetabular dome. The fracture passes through ABSAWBA creating traumatic hip arthritis. Therefore, acetabular roof arc angles of ABSAWBA were studied in order to find out that the most appropriate degrees of recommended acetabular roof arc angles in the previous studies had no ABSAWBA involvement.Materials and Methods:ABSAWBA of femoral head was identified 68 acetabular fractures and 13 isolated pelvic fractures without unstable pelvic ring injury were enrolled. Acetabular roof arc angle was measured on anteroposterior, obturator and iliac oblique view radiographs of normal contralateral acetabulum using programmatic automation controller digital system and measurement tools.Results:Average medial, anterior and posterior acetabular roof arc angles of the ABSAWBA of 94 normal acetabulum were 39.09 (7.41), 42.49 (8.15) and 55.26 (10.08) degrees, respectively.Conclusions:Less than 39°, 42° and 55° of medial, anterior and posterior acetabular roof arc angles involve ABSAWBA of the femoral head. Application of the study results showed that 45°, 45° and 62° from the previous studies are the most appropriate medial, anterior and posterior acetabular roof arc angles without involvement of the ABSAWBA respectively.

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Acetabular Fractures

Pountos¹,

Giannoudis²

2019

Fracture Management Joint by Joint

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Posterior acetabular arc angle of the femoral head assesses instability of posterior fracture-dislocation of the hip

Cited by 16 publications

References 5 publications

Posterior acetabular arc angle of unstable posterior hip fracture–dislocation

Posterior acetabular arc angle of unstable posterior hip fracture–dislocation

Acetabular roof arc angles and anatomic biomechanical superior acetabular weight bearing area

Acetabular Fractures

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