1.Treatment of Intertrochanteric Fracture: Dynamic Hip Screw.
Journal of the Korean Fracture Society 2009;22(1):51-55
No abstract available.
Hip
4.Treatment of ipsilateral hip and femoral shaft fractures: report of 6 cases.
Koing Woo KWUN ; Shin Kun KIM ; Sang Wook LEE ; Young Suk JUNG
The Journal of the Korean Orthopaedic Association 1991;26(6):1925-1930
No abstract available.
Hip*
5.Treatment of intertrochanteric fracture with captured hip screw.
Sang Wook BAE ; Woo Ku JUNG ; Tae Hong KO ; Young Shin SHIN
The Journal of the Korean Orthopaedic Association 1993;28(6):2074-2082
No abstract available.
Hip*
6.Hip reconstruction in young ages by the ilizarov techiques.
Chil Soo KWON ; Yong Uck KIM ; Eung Sun KIM
The Journal of the Korean Orthopaedic Association 1993;28(1):352-363
No abstract available.
Hip*
7.Hip Arthroplasty in Intertrochanteric Fractures: Is It Acceptable Treatment?.
Young Chang KIM ; Ji Wan KIM ; Jae Young LIM
Journal of the Korean Fracture Society 2014;27(1):105-112
No abstract available.
Arthroplasty*
;
Hip Fractures*
;
Hip*
8.Correlation between Anterior and Posterior Obliquity of the Sliding Lag Screw and Stability in Unstable Intertrochanteric Fractures.
Kyu Hyun YANG ; Je Hyun YOO ; Dong Joo RHEE ; Jung Hoon WON ; Dae Ya KIM ; Dong Sik SIM
Journal of the Korean Fracture Society 2004;17(4):308-313
PURPOSE: To investigate the characteristics of the sliding pattern of the proximal fragment (head and neck) in unstable intertrochanteric fractures, which were fixed with a dynamic hip screw (DHS) with anterior to posterior or posterior to anterior insertion angle in the axial view. MATERIALS AND METHODS: AO type A2.1 intertrochanteric fracture was reproduced in 10 proximal femur model (Synbone, Malans, Switzerland). Five fractured models were reduced and fixed using DHS with anterior to posterior insertion angle (group 1) and five models were fixed with posterior to anterior angle (group 2). Load of 500 N (30 cycles) was applied to the fracture fragment-plate complex using Instron 6022. Data on the distance of sliding and the angle of rotation of the proximal fragment were collected and analyzed. RESULTS: No significant difference was noted statistically in the distance of sliding between the two groups (p=0.92). However, the mean angle of rotation was 13.4degrees and 8.0degrees in group 1 and 2, respectively and the difference was statistically significant (p=0.012). Anterior cortical fracture of distal fragment was noted in 3 cases of group 1. There was no fracture of the anterior cortex in group 2. CONCLUSION: In unstable intertrochanteric fracture, the insertion angle of the lag screw in axial view does seem to play a role in the fate of bone-plate complex. Early eccentric contact of both fragments caused rotation of the proximal fragment in all cases and anterior cortical fracture of the distal fragment in 3 cases of group 1.
Femur
;
Hip
;
Hip Fractures*
9.Analysis of motion of the hip joints with bipolar prosthetic replacement.
Chong Il YOO ; Jeung Tak SUH ; Kuen Tak SUH ; Yong Jin KIM ; Jae Won CHANG
The Journal of the Korean Orthopaedic Association 1992;27(2):588-597
No abstract available.
Hip Joint*
;
Hip*
10.Treatment of Comminuted Trochanteric Fractures with Dynamic Hip Screw and DHS Trochanter Stabilizing Plate.
Jae Suk CHANG ; Soo Ho LEE ; Suck Chang JAY ; Key Yong KIM ; Sun Ahn HYUNG ; Byeong Ho HAN ; Soon Woo HONG
The Journal of the Korean Orthopaedic Association 1997;32(5):1206-1213
It has been emphasized that the treatment of choice for the trochanteric fracture of the femur is open reduction and rigid internal fixation. Regarding the stability of the fracture, most reports were focused on the comminution of the medial cortex, but few reports were paid attention to the additional fracture of the greater trochanter. This paper was aimed to evaluate the fragment of the greater trochanter on the maintenance of reduction. We treated 23 cases of unstable trochanteric fractures in which 16 cases were treated with Dynamic Hip Screw (DHS) alone, and 7 cases were treated with DHS and additional DHS Trochanter Stabilizing Plate (TSP). We compared the two groups and the results were as follows: 1. The average lag screw slipping distance was 17.1mm in DHS Group and 10.0mm in TSP Group. 2. The average distance of lateral displacement of greater trochanter over the trochantric fractures was 11.5mm in DHS Group and no change in TSP Group. The above results suggested that the comhined use of DHS Trochanter Stabilizing Plate with Dynamic Hip Screw provided good results in the treatment of uristable intertrochanteric fractures with completely detached greater trochanter and reverse oblique fracture.
Femur*
;
Hip Fractures*
;
Hip*