The effect of aging on the bone healing properties of blood plasma
View/ Open
Publisher version (Check access options)
Check access options
Date
2021Author
Al-Hamed F.S.Rodan R.
Ramirez-Garcialuna J.L.
Elkashty O.
Al-Shahrani N.
Tran S.D.
Lordkipanidz� M.
Kaartinen M.
Badran Z.
Tamimi F.
...show more authors ...show less authors
Metadata
Show full item recordAbstract
Objectives: Age-related changes in blood composition have been found to affect overall health. Thus, this study aimed to understand the effect of these changes on bone healing by assessing how plasma derived from young and old rats affect bone healing using a rat model. Methods:. Blood plasma was collected from 6-month and 24-month old rats. Differences in elemental composition and metabolome were assessed using optical emission spectrometry and liquid mass spectrometry, respectively. Bilateral tibial bone defects were created in eight rats. Young plasma was randomly applied to one defect, while aged plasma was applied to the contralateral one. Rats were euthanized after two weeks, and their tibiae were analyzed using micro-CT and histology. The proteome of bone marrow was analyzed in an additional group of three rats. Results: Bone-defects treated with aged-plasma were significantly bigger in size and presented lower bone volume/tissue volume compared to defects treated with young-plasma. Histomorphometric analysis showed fewer mast cells, macrophages, and lymphocytes in defects treated with old versus young plasma. The proteome analysis showed that young plasma upregulated pathways required for bone healing (e.g. RUNX2, platelet signaling, and crosslinking of collagen fibrils) whereas old plasma upregulated pathways, involved in disease and inflammation (e.g. IL-7, IL-15, IL-20, and GM-CSF signaling). Plasma derived from old rats presented higher concentrations of iron, phosphorous, and nucleotide metabolites as well as lower concentrations of platelets, citric acid cycle, and pentose phosphate pathway metabolites compared to plasma derived from young rats. Conclusion: bone defects treated with plasma-derived from young rats showed better healing compared to defects treated with plasma-derived from old rats. The application of young and old plasmas has different effects on the proteome of bone defects.
Collections
- Dental Medicine Research [342 items ]
Related items
Showing items related by title, author, creator and subject.
-
Dose of Bicarbonate to Maintain Plasma pH During Maximal Ergometer Rowing and Consequence for Plasma Volume
Nielsen, Henning Bay; Volianitis, Stefanos; Secher, Niels H. ( Frontiers Media S.A. , 2022 , Article)Rowing performance may be enhanced by attenuated metabolic acidosis following bicarbonate (BIC) supplementation. This study evaluated the dose of BIC needed to eliminate the decrease in plasma pH during maximal ergometer ... -
Profiling the Oral Microbiome and Plasma Biochemistry of Obese Hyperglycemic Subjects in Qatar
Sohail, Muhammad U; Elrayess, Mohamed A; Al Thani, A A; Al-Asmakh, M; Yassine, Hadi M ( MDPI , 2019 , Article)The present study is designed to compare demographic characteristics, plasma biochemistry, and the oral microbiome in obese (N = 37) and lean control (N = 36) subjects enrolled at Qatar Biobank, Qatar. Plasma hormones, ... -
Adhesion Improvement between Polyethylene and Aluminium Using Eco-Friendly Plasma Treatment
Al-Gunaid, Taghreed Abdulhameed; Popelka, Anton ( Qatar University Press , 2020 , Poster)Lamina made of Low density polyethylene (LDPE) and Aluminium(Al) is used widely in many applications, especially in food packaging (TetraPak containers).However; it's found that the adhesive bond between LDPE-Al is low due ...