| 811 |
Grafting with double-layered polypropylene mesh for gap healing of mid-metacarpal superficial digital flexor tendon in Equus asinus: clinical and pathological evaluations |
Department of Animal Surgery |
2019 |
| 812 |
Grafting with double-layered polypropylene mesh for gap healing of mid-metacarpal superficial digital flexor tendon in Equus asinus: clinical and pathological evaluations |
Department of Animal Surgery |
2019 |
| 813 |
Grafting with double-layered polypropylene mesh for gap healing of mid-metacarpal superficial digital flexor tendon in Equus asinus: clinical and pathological evaluations |
Department of Animal Surgery |
2019 |
| 814 |
Grafting with double-layered polypropylene mesh for gap healing of mid-metacarpal superficial digital flexor tendon in Equus asinus: clinical and pathological evaluations |
Department of Pathology |
2019 |
| 815 |
Grafting with double-layered polypropylene mesh for gap healing of mid-metacarpal superficial digital flexor tendon in Equus asinus: clinical and pathological evaluations |
Department of Pathology |
2019 |
| 816 |
Histological and histochemical studies on the oviduct
microcirculation of the laying Japanese quail (Coturnix japonica) |
Department of Anatomy and Histology |
2019 |
| 817 |
Histological and histochemical studies on the oviduct
microcirculation of the laying Japanese quail (Coturnix japonica) |
Department of Anatomy and Histology |
2019 |
| 818 |
Hysterical tetracycline in intensive poultry farms accountable for substantial gene resistance, health and ecological risk in Egypt-manure and fish |
Department of Animal Hygiene |
2019 |
| 819 |
Hysterical tetracycline in intensive poultry farms accountable for substantial gene resistance, health and ecological risk in Egypt-manure and fish |
Department of Animal Hygiene |
2019 |
| 820 |
Identification of Rodlet Cells in Aquatic Bird as Egyptian
Goose (Alopochen Egyptiacus): The Enteric Rodlet Cells |
Department of Anatomy and Histology |
2019 |
