Page 22

Volume 3, Issue 4 (Suppl)

J Clin Exp Orthop

ISSN:2471-8416

Osteoporosis and Arthroplasty 2017

December 04-05, 2017

&

11

th

International Conference on

Joint Event

OSTEOPOROSIS, ARTHRITIS & MUSCULOSKELETAL DISORDERS

December 04-05, 2017 | Madrid, Spain

10

th

INTERNATIONAL CONFERENCE ON ARTHROPLASTY

Circulation based classification of femoral neck fracture - New discoveries of intraosseous blood supply of

proximal femur

Dewei Zhao, Zihua Wang

and

Benjie Wang

Affiliated Zhongshan Hospital of Dalian University, China

Purposes:

To explore the characteristics and interconnections of the intraosseous vessel system between different areas of the femoral

head and the possible blood supply compensatory mechanism after femoral neck fracture (FNF).

Methods:

The 3-D structures of the extra- and intraosseous arteries in 30 uninjured normal human femoral heads were reconstructed

and quantified using angiography methods and micro CT scans, AMIRA and MIMICS. We also evaluated the residual blood supply

of femoral heads in 27 patients with FNF before surgery by analyzing digital subtraction angiography (DSA) data. The number of

affected and unaffected groups of retinacular arteries with different Garden types of fractures were recorded and analyzed to reflect

the affected degrees of these three groups of retinacular arteries in patients after FNF.

Results:

Epiphyseal arterial network is the most widely distributed and the primary network structure in the femoral head; the main

stems of the epiphyseal arteries which were located on the periphery of the intraosseous vascular system have fewer anastomoses

than the central region. The DSA of the 27 patients with hip fractures indicated that the inferior retinacular arterial system had a high

likelihood of being unaffected after FNF.

Conclusions:

The epiphyseal arterial network and inferior retinacular arterial system appear to be two important structures for

maintaining the femoral head blood supply after FNF. Increased efforts to protect these key structures during surgery, such as drilling

and placing internal implants closer to the central region of the femoral head, might be helpful to reduce the effect of iatrogenic injury

of the intraosseous vascular system.

Recent Publications

1.

Zhao D, Qiu X and Wang B, et al. (2017) Epiphyseal arterial network and inferior retinacular artery seem critical to femoral

head perfusion in adults with femoral neck fractures. Clin Orthop Relat Res. 475(8):2011-2023.

2.

Kamada T, Mashima N and Nakashima Y, et al. (2015) Mid-term clinical and radiographic outcomes of porous tantalum

modular acetabular components for hip dysplasia. Journal of Arthroplasty 30(4):607-10.

3.

Paton RW (2017) Screening in Developmental Dysplasia of the Hip (DDH). Surgeon 15(5):290-296.

4.

Clohisy JC (2017) Developmental dysplasia of the hip: contemporary concepts and treatment innovations. Journal of

Arthroplasty 32(9S): S18-S19.

5.

Tarpada S P, Girdler S J and Morris M T (2017) Developmental dysplasia of the hip: a history of innovation. Journal of

Pediatric Orthopaedics. Doi: 10.1097/BPB.0000000000000463.

Biography

Dewei Zhao is a President of Affiliated Zhongshan Hospital of Dalian University, and President of Chinese Association of Microsurgery Surgeons. He dedicates

in the treatment of osteonecrosis of femoral head (ONFH) for nearly three decades. Based on anatomical and clinical study, he has made original series surgical

techniques for reconstruction of the necrotic femoral head, and these techniques can be applied in every stage of ONFH. He is the editor of nine academic journals.

He has published more than 200 papers in basic and clinical research of ONFH, the new finding of circulation of femoral head, new metal biomaterials and their

clinical application. His work is especially important for younger patients with symptomatic ONFH.

zhaodewei2000@163.com

Dewei Zhao et al., J Clin Exp Orthop 2017, 3:4(Suppl)

DOI: 10.4172/2471-8416-C1-002