S Skwarcz 1 , I Bryzek 1 , A Gregosiewicz 2 , E Warda 3 , K Gawęda 3 , M Tarczyńska 3 , R Węgłowski 3 , J Skwarcz 3 , R Nadulski 4 , A Starek 5 , J Sanford 6 Show Affiliations »
Abstract
INTRODUCTION: Platelet-rich plasma (PRP) preparations can be used in bone tissue healing but there are numerous doubts among clinical orthopedists about effectiveness of this method. MATERIALS AND METHODS: The studies were carried out in 12 rabbits of white termond breed. In operating room we operationally generated cylindrical, unicortical defects of the diameter of 4 mm in the middle of the shafts of both femurs. The defects in the left bones were left without filling and served as controls, and 0.7 ml of the ready-to-use PRP was administered to the defects in the right bones (experimental group). We evaluated the usefulness of the diagnostic methods applied: biomechanical tests, micro-CT tests, densitometry, typical radiology, macroscopic measurements, histopathological examinations. RESULTS: The macroscopic measurements showed a statistically significant increase in the dimension in the area of the right defect filled with PRP in relation to the control group. In experimented group, the assessment of the X-ray images showed the formation of a callus cuff around the defects. Densitometric examinations showed no statistically significant differences between defects in the experimental and control group. The analysis of the micro-CT examina- tions showed an increase in the total volume of the tissue examined (Vb) and the low density tissue fraction (Vb2) in the experimental group. The biomechanical examinations revealed signi- ficant decrease in the maximum breaking force (F max) necessary to break the bone in the experi- mental group in relation to the control group. CONCLUSIONS: Platelet-rich plasma (PRP) stimulates bone formation in the area of bone defects and may accelerate bone regeneration. Copyright© by the Polish Academy of Sciences.
INTRODUCTION: Platelet-rich plasma (PRP) preparations can be used in bone tissue healing but there are numerous doubts among clinical orthopedists about effectiveness of this method. MATERIALS AND METHODS: The studies were carried out in 12 rabbits of white termond breed. In operating room we operationally generated cylindrical, unicortical defects of the diameter of 4 mm in the middle of the shafts of both femurs. The defects in the left bones were left without filling and served as controls, and 0.7 ml of the ready-to-use PRP was administered to the defects in the right bones (experimental group). We evaluated the usefulness of the diagnostic methods applied: biomechanical tests, micro-CT tests, densitometry, typical radiology, macroscopic measurements, histopathological examinations. RESULTS: The macroscopic measurements showed a statistically significant increase in the dimension in the area of the right defect filled with PRP in relation to the control group. In experimented group, the assessment of the X-ray images showed the formation of a callus cuff around the defects. Densitometric examinations showed no statistically significant differences between defects in the experimental and control group. The analysis of the micro-CT examina- tions showed an increase in the total volume of the tissue examined (Vb) and the low density tissue fraction (Vb2) in the experimental group. The biomechanical examinations revealed signi- ficant decrease in the maximum breaking force (F max) necessary to break the bone in the experi- mental group in relation to the control group. CONCLUSIONS: Platelet-rich plasma (PRP) stimulates bone formation in the area of bone defects and may accelerate bone regeneration. Copyright© by the Polish Academy of Sciences.
Entities: Disease
Species
Keywords:
bone defects; bone regeneration; platelet-rich plasma; rabbit model
Mesh: See more »
Year: 2019
PMID: 30997778 DOI: 10.24425/pjvs.2019.127077
Source DB: PubMed Journal: Pol J Vet Sci ISSN: 1505-1773 Impact factor: 0.821