Analysis of the Ability of Different Allografts to Act as Carrier Grafts for Local Drug Delivery

Analysis of the Ability of Different Allografts to Act as Carrier Grafts for Local Drug Delivery

Bone defects and infections pose significant challenges for treatment, requiring a comprehensive approach for prevention and treatment. Thus, this study sought to evaluate the efficacy of various bone allografts in the absorption and release of antibiotics. A specially designed high-absorbency, high...

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Bibliographic Details
Published in:Journal of functional biomaterials Vol. 14; no. 6; p. 305
Main Authors: Bormann, Nicole, Schmock, Aysha, Hanke, Anja, Eras, Volker, Ahmed, Norus, Kissner, Maya S, Wildemann, Britt, Brune, Jan C
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 01-06-2023
MDPI
Subjects:
Absorption
allograft
Allografts
Aminoglycosides
Antibiotics
Antimicrobial activity
Antimicrobial agents
bone
Bone demineralization
Bone grafts
Bone matrix
Bone surgery
Bones
Cancellous bone
Cell culture
Comparative analysis
Cortical bone
Drug delivery
Drug delivery systems
Drugs
Elution
Gentamicin
Grafting
grafting material
Grafts
Granulation
Health aspects
Homografts
Hospitals
Infection
Infections
Kinetics
Length of stay
Mineralization
Orthopedics
Rehydration
Skin & tissue grafts
Substitute bone
Vehicles
Germany
United States > US
Berlin Germany
infection
bone
grafting material
antibiotics
allograft
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Summary:Bone defects and infections pose significant challenges for treatment, requiring a comprehensive approach for prevention and treatment. Thus, this study sought to evaluate the efficacy of various bone allografts in the absorption and release of antibiotics. A specially designed high-absorbency, high-surface-area carrier graft composed of human demineralized cortical fibers and granulated cancellous bone (fibrous graft) was compared to different human bone allograft types. The groups tested here were three fibrous grafts with rehydration rates of 2.7, 4, and 8 mL/g (F(2.7), F(4), and F(8)); demineralized bone matrix (DBM); cortical granules; mineralized cancellous bone; and demineralized cancellous bone. The absorption capacity of the bone grafts was assessed after rehydration, the duration of absorption varied from 5 to 30 min, and the elution kinetics of gentamicin were determined over 21 days. Furthermore, antimicrobial activity was assessed using a zone of inhibition (ZOI) test with . The fibrous grafts exhibited the greatest tissue matrix absorption capacity, while the mineralized cancellous bone revealed the lowest matrix-bound absorption capacity. For F(2.7) and F(4), a greater elution of gentamicin was observed from 4 h and continuously over the first 3 days when compared to the other grafts. Release kinetics were only marginally affected by the varied incubation times. The enhanced absorption capacity of the fibrous grafts resulted in a prolonged antibiotic release and activity. Therefore, fibrous grafts can serve as suitable carrier grafts, as they are able to retain fluids such as antibiotics at their intended destinations, are easy to handle, and allow for a prolonged antibiotic release. Application of these fibrous grafts can enable surgeons to provide longer courses of antibiotic administration for septic orthopedic indications, thus minimizing infections.
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ISSN:2079-4983
2079-4983
DOI:10.3390/jfb14060305