The Healing Effect of Cuttlefish Bone on Fractured Bone in Rat Model
<p><strong>Background: </strong>Fractured bone healing requires three to nine months, which prolongs the patients’ morbidity. Long bone fracture is considered to be difficult due to the dependence of bodily mobility and freedom. Bone tissue engineering materials includes hydroxyapa...
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2016-04-01
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| Series: | Bali Medical Journal |
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| Online Access: | https://balimedicaljournal.org/index.php/bmj/article/view/195 |
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doaj-851c69f55c484040861a9784401a52e02020-11-25T03:33:06ZengDiscoverSysBali Medical Journal2089-11802302-29142016-04-015219319610.15562/bmj.v5i2.195152The Healing Effect of Cuttlefish Bone on Fractured Bone in Rat ModelLaskar Pradnyan Kloping0Purwati Purwati1Mouli Edward2Airlangga UniversityDepartment of Internal Medicine, Airlangga School of Medicine, Dr Soetomo General Hospital, Indonesia, SurabayaDepartment of Orthopedic and Traumatology, Airlangga School of Medicine, Dr Soetomo General Hospital, Indonesia, Surabaya<p><strong>Background: </strong>Fractured bone healing requires three to nine months, which prolongs the patients’ morbidity. Long bone fracture is considered to be difficult due to the dependence of bodily mobility and freedom. Bone tissue engineering materials includes hydroxyapatite (HAp), titanium, alumina, and polymers. HAp is found to be heavily abundant in cuttlefish. This study is conducted to prove that the cuttlebone has an effect of accelerating the fractured long bone healing process. <strong>Methods:</strong> This is an experimental study using a total of 32 samples of <em>Rattus norwegicus</em>. The Treatment Group received the cuttlebone extract + 0.9% NaCl while the Control Group received only NaCL 0.9%. Both groups were fractured beforehand. On the 14<sup>th</sup> day the fractured area was harvested and assigned for histopathology and radiographic exam. <strong>Results:</strong> The Treatment Group was found to have thicker callus formation and more osteoblasts. <strong>Conclusions:</strong> The cuttlebone extract application caused thicker callus and higher osteoblast production, proving an accelerated fractured bone healing process.</p>https://balimedicaljournal.org/index.php/bmj/article/view/195cuttlebone, fracture, long bone, rattus norwegicus, callus, osteoblast. |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Laskar Pradnyan Kloping Purwati Purwati Mouli Edward |
| spellingShingle |
Laskar Pradnyan Kloping Purwati Purwati Mouli Edward The Healing Effect of Cuttlefish Bone on Fractured Bone in Rat Model Bali Medical Journal cuttlebone, fracture, long bone, rattus norwegicus, callus, osteoblast. |
| author_facet |
Laskar Pradnyan Kloping Purwati Purwati Mouli Edward |
| author_sort |
Laskar Pradnyan Kloping |
| title |
The Healing Effect of Cuttlefish Bone on Fractured Bone in Rat Model |
| title_short |
The Healing Effect of Cuttlefish Bone on Fractured Bone in Rat Model |
| title_full |
The Healing Effect of Cuttlefish Bone on Fractured Bone in Rat Model |
| title_fullStr |
The Healing Effect of Cuttlefish Bone on Fractured Bone in Rat Model |
| title_full_unstemmed |
The Healing Effect of Cuttlefish Bone on Fractured Bone in Rat Model |
| title_sort |
healing effect of cuttlefish bone on fractured bone in rat model |
| publisher |
DiscoverSys |
| series |
Bali Medical Journal |
| issn |
2089-1180 2302-2914 |
| publishDate |
2016-04-01 |
| description |
<p><strong>Background: </strong>Fractured bone healing requires three to nine months, which prolongs the patients’ morbidity. Long bone fracture is considered to be difficult due to the dependence of bodily mobility and freedom. Bone tissue engineering materials includes hydroxyapatite (HAp), titanium, alumina, and polymers. HAp is found to be heavily abundant in cuttlefish. This study is conducted to prove that the cuttlebone has an effect of accelerating the fractured long bone healing process. <strong>Methods:</strong> This is an experimental study using a total of 32 samples of <em>Rattus norwegicus</em>. The Treatment Group received the cuttlebone extract + 0.9% NaCl while the Control Group received only NaCL 0.9%. Both groups were fractured beforehand. On the 14<sup>th</sup> day the fractured area was harvested and assigned for histopathology and radiographic exam. <strong>Results:</strong> The Treatment Group was found to have thicker callus formation and more osteoblasts. <strong>Conclusions:</strong> The cuttlebone extract application caused thicker callus and higher osteoblast production, proving an accelerated fractured bone healing process.</p> |
| topic |
cuttlebone, fracture, long bone, rattus norwegicus, callus, osteoblast. |
| url |
https://balimedicaljournal.org/index.php/bmj/article/view/195 |
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