Results: 4

1.
Fig. 1

Fig. 1. From: Surgical repair of hip abductors. A new technique using Graft Jacket® allograft acellular human dermal matrix.

MRI scan. Left hip abductor complex tear with arrow showing atrophy and retraction of muscle belly

Biyyam M. Rao, et al. Int Orthop. 2012 October;36(10):2049-2053.
2.
Fig. 2

Fig. 2. From: Surgical repair of hip abductors. A new technique using Graft Jacket® allograft acellular human dermal matrix.

Retracted combined tendon of gluteus medius and minimus tendon (grey arrow) exposing bare area of greater trochanter (blue arrow)

Biyyam M. Rao, et al. Int Orthop. 2012 October;36(10):2049-2053.
3.
Fig. 4

Fig. 4. From: Surgical repair of hip abductors. A new technique using Graft Jacket® allograft acellular human dermal matrix.

The augmentation of intra-osseous repair with graft jacket matrix to cover the bare area of greater trochanter. Apart from providing biological scaffolding, graft jacket prevents any impingement of fascia lata on the bare area of the greater trochanter and the intra-osseous repair

Biyyam M. Rao, et al. Int Orthop. 2012 October;36(10):2049-2053.
4.
Fig. 3

Fig. 3. From: Surgical repair of hip abductors. A new technique using Graft Jacket® allograft acellular human dermal matrix.

The combined tendon of gluteus medius and minimus attached to the greater trochanter through the intra-osseous tunnels using a Krackow core stitch. Note the remnant bare area of trochanter. In spite of extensive mobilisation of abductor muscle it could not be reattached to its normal insertion site

Biyyam M. Rao, et al. Int Orthop. 2012 October;36(10):2049-2053.

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