scholarly article | Q13442814 |
P356 | DOI | 10.1007/S10856-014-5249-6 |
P698 | PubMed publication ID | 24913421 |
P50 | author | Jintamai Suwanprateeb | Q74039958 |
P2093 | author name string | W Suvannapruk | |
F Thammarakcharoen | |||
P Rukskul | |||
J Kintarak | |||
S Kiertkrittikhoon | |||
P2860 | cites work | Micro-computed tomography assessment of fracture healing: relationships among callus structure, composition, and mechanical function. | Q33384778 |
Ostene, a new alkylene oxide copolymer bone hemostatic material, does not inhibit bone healing | Q33635919 | ||
The effect of three hemostatic agents on early bone healing in an animal model | Q33774658 | ||
From sealing wax to bone wax: predecessors to Horsley's development | Q34007821 | ||
Bone healing after median sternotomy: a comparison of two hemostatic devices. | Q34403406 | ||
The use of local agents: bone wax, gelatin, collagen, oxidized cellulose | Q35819636 | ||
In vivo assessment of osseous wound healing using a novel bone putty containing lidocaine in the surgical management of tooth extractions. | Q36055815 | ||
Principles of bone healing | Q36491737 | ||
Infection rates and healing using bone wax and a soluble polymer material | Q36825850 | ||
Polyethylene glycol/microfibrillar collagen composite as a new resorbable hemostatic bone wax. | Q38553642 | ||
Systemic and local reactions of a water-soluble copolymer bone on a bony defect of rabbit model | Q43295931 | ||
Effects of bone wax on rabbit cranial bone lesions | Q43592099 | ||
Synthetic biodegradable polymers as orthopedic devices | Q43720685 | ||
Tissue reaction to three subcutaneously implanted local hemostatic agents | Q43746061 | ||
A new, pluronic-based, bone hemostatic agent that does not impair osteogenesis | Q44360166 | ||
The effects of a soluble polymer and bone wax on sternal healing in an animal model | Q46069912 | ||
Assessment of bone union/nonunion in an experimental model using microcomputed technology | Q46281484 | ||
Bone wax as a risk factor for surgical-site infection following neurospinal surgery | Q46956696 | ||
Preparation and characterization of PEG-PPG-PEG copolymer/pregelatinized starch blends for use as resorbable bone hemostatic wax. | Q47753208 | ||
Is bonewax safe and does it help? | Q50658569 | ||
ABSORBABLE COTTON, PAPER AND GAUZE : (OXIDIZED CELLULOSE) | Q57656433 | ||
Haemostasis and Healing following Median Sternotomy | Q67357891 | ||
Osseous regeneration in the presence of four common hemostatic agents | Q68136165 | ||
In vivo degradation of oxidized, regenerated cellulose | Q68872653 | ||
Spongostan used for space obliteration in bone defects | Q68967322 | ||
The effect of bone wax on the healing of experimental rat tibial lesions | Q72379178 | ||
A foreign body reaction to Surgicel mimicking an abscess following cardiac surgery | Q74693963 | ||
New absorbable hemostatic bone wax; experimental and clinical studies | Q75580304 | ||
Biocompatibility of solid poly (ortho ester) | Q80529370 | ||
Histologically verified bone wax (beeswax) granuloma after median sternotomy in 17 of 18 autopsy cases | Q83041798 | ||
Micro-computed tomography assessment of the progression of fracture healing in mice | Q83753848 | ||
P433 | issue | 9 | |
P304 | page(s) | 2131-2139 | |
P577 | publication date | 2014-06-10 | |
P1433 | published in | Journal of Materials Science: Materials in Medicine | Q6295496 |
P1476 | title | In vivo assessment of new resorbable PEG-PPG-PEG copolymer/starch bone wax in bone healing and tissue reaction of bone defect in rabbit model | |
P478 | volume | 25 |
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