Search citation statements
Paper Sections
Citation Types
Year Published
Publication Types
Relationship
Authors
Journals
Osteo-replacement materials are considered to be the most promising direction in solving the problem of restoring the regenerative potential of bone tissue, especially fragmentary fractures. However, the mechanism of their influence on the histomorphology of bone regenerates and the pathochemical phase of reparative osteogenesis require further and comprehensive justification. The aim of the study was to establish the dynamics of hematological parameters and acute phase response to osteosubstitution by hydroxyapatite ceramics with β-tricalcium phosphate and platelet-enriched autofibrin in fragmentary bone fractures in dogs. Control and research groups of animals were formed, each of which included dogs with fractures of both shoulder and forearm bones, which came in 2019- 2021 to the clinic of small pets of the Faculty of Veterinary Medicine of Bila Tserkva NAU. After general and local anesthesia, extracortical osteosynthesis and replacement of bone defects were performed: in the first experimental group (n = 10) autofibrin enriched with platelets (PRF), and in the second (n = 10) - its combination with hydroxyapatite ceramics (PRF + HA/β -TCP-700); in the control group (n = 10) the defects were left to heal under the blood clot. Blood samples for hematological and biochemical studies were taken after injury no later than 24 hours and on the 3rd, 7th, 14th, 21st and 42nd day after osteosynthesis. In peripheral blood, the number of erythrocytes, platelets and leukocytes was determined by conventional methods, and hemoglobin - hemoglobin cyanide. The content of nitric oxide (NO) in the blood serum was determined by the method of Green in the modification of Golikov, haptoglobin - by reaction with rivanol kits PJSC "Reagent" (Ukraine) and α2-macroglobulin - by KM Veremeenko. Statistical processing of the results was performed using the program Statistica 10 (StatSoft Inc, USA, 2011). It was found that bone trauma in dogs is accompanied by a decrease in peripheral blood of erythrocytes by 1.3 times (p <0.001) and an increase of 1.1 times (p <0.05) the number of leukocytes with a tendency to increase hemoglobin and platelets, compared with indicators of clinically healthy animals. After osteosynthesis in all groups leukocytosis developed. During osteosubstitution, the intensity and duration of the leukocyte reaction decreased significantly. In the first experimental group, the peak of NO concentration occurred on the 21st day, and in the case of combined osteosubstitution, the phase of its changes was noted, which had two peaks: on the 7th in 1.5 and on the 21st in 1.8 (p <0.001) is several times higher than in the control group. The concentration of haptoglobin after bone injury in dogs increased 1.1 times (p <0.001) compared with clinically healthy animals and reached its peak in all groups on the 3rd day (p <0.001). No changes in α2-macroglobulin concentration were observed in the groups during the entire study period. Combined osteosubstitution by calcium-phosphate ceramics with platelet-enriched fibrin induces early osteogenic processes at a lower intensity of the acute phase reaction at the phase peaks of nitric oxide - an inducer of angiogenesis, which indicates the viability of animals. Key words: nitric oxide, acute phase proteins, reparative potential, platelets.
Osteo-replacement materials are considered to be the most promising direction in solving the problem of restoring the regenerative potential of bone tissue, especially fragmentary fractures. However, the mechanism of their influence on the histomorphology of bone regenerates and the pathochemical phase of reparative osteogenesis require further and comprehensive justification. The aim of the study was to establish the dynamics of hematological parameters and acute phase response to osteosubstitution by hydroxyapatite ceramics with β-tricalcium phosphate and platelet-enriched autofibrin in fragmentary bone fractures in dogs. Control and research groups of animals were formed, each of which included dogs with fractures of both shoulder and forearm bones, which came in 2019- 2021 to the clinic of small pets of the Faculty of Veterinary Medicine of Bila Tserkva NAU. After general and local anesthesia, extracortical osteosynthesis and replacement of bone defects were performed: in the first experimental group (n = 10) autofibrin enriched with platelets (PRF), and in the second (n = 10) - its combination with hydroxyapatite ceramics (PRF + HA/β -TCP-700); in the control group (n = 10) the defects were left to heal under the blood clot. Blood samples for hematological and biochemical studies were taken after injury no later than 24 hours and on the 3rd, 7th, 14th, 21st and 42nd day after osteosynthesis. In peripheral blood, the number of erythrocytes, platelets and leukocytes was determined by conventional methods, and hemoglobin - hemoglobin cyanide. The content of nitric oxide (NO) in the blood serum was determined by the method of Green in the modification of Golikov, haptoglobin - by reaction with rivanol kits PJSC "Reagent" (Ukraine) and α2-macroglobulin - by KM Veremeenko. Statistical processing of the results was performed using the program Statistica 10 (StatSoft Inc, USA, 2011). It was found that bone trauma in dogs is accompanied by a decrease in peripheral blood of erythrocytes by 1.3 times (p <0.001) and an increase of 1.1 times (p <0.05) the number of leukocytes with a tendency to increase hemoglobin and platelets, compared with indicators of clinically healthy animals. After osteosynthesis in all groups leukocytosis developed. During osteosubstitution, the intensity and duration of the leukocyte reaction decreased significantly. In the first experimental group, the peak of NO concentration occurred on the 21st day, and in the case of combined osteosubstitution, the phase of its changes was noted, which had two peaks: on the 7th in 1.5 and on the 21st in 1.8 (p <0.001) is several times higher than in the control group. The concentration of haptoglobin after bone injury in dogs increased 1.1 times (p <0.001) compared with clinically healthy animals and reached its peak in all groups on the 3rd day (p <0.001). No changes in α2-macroglobulin concentration were observed in the groups during the entire study period. Combined osteosubstitution by calcium-phosphate ceramics with platelet-enriched fibrin induces early osteogenic processes at a lower intensity of the acute phase reaction at the phase peaks of nitric oxide - an inducer of angiogenesis, which indicates the viability of animals. Key words: nitric oxide, acute phase proteins, reparative potential, platelets.
Abstract. Among surgical pathology in animals, asignificant share is occupied by various traumatic injuries of the skeleton, the consequence of which are bonefractures. The results of X-ray and biochemical indicators of blood for bone fragment fractures in dogs arepresented.The purpose of the work is to clinically, radiologically, and pathochemically justify bone replacementwith germanium-doped calcium-phosphate ceramicsfor bone fragment fractures in dogs.In the injured animals of the experimental group(n=10), bone defects were replaced with germanium-doped calcium-phosphate ceramics (ГТлГег-700),in the control group (n=10) with unalloyed ceramics(ГТг-700). The activity of total alkaline phosphatase (ALP)and its bone isoenzyme (KiLP), tartrate-resistant acidphosphatase (TrKF) was determined in blood serum.Measurements were made with a Stat Fax 4500 spectrophotometer.On the 60th day, in the animals of the experimentalgroup, the filling of the bone defect with regeneratedmaterial of high X-ray density was noted, with the absence of periosteal reaction, which indicated the complete consolidation of the fracture and was the reasonfor the removal of the means of fixation. In the control,the area of the bone tissue defect that was not filledwith regenerate was visualized.The activity of tartrate-resistant acid phosphatase(TRP) in both groups tended to increase. On the 14th day,the animals of the experimental group had a peak activity of TrKf (33.8±0.31), which was 1.3 times (p<0.001)higher than the level in the control group and 1.5 times(p<0.001) of clinically healthy animals, respectively. Onthe 30th day of research, a 1.2-fold (p<0.001) decreasein the level of TrCF was noted in the experimental groupcompared to the control group, in which the indicatorreached peak values at 34.9±0.25 units/l.The maximum activity of the bone isoenzyme alkaline phosphatase (KiLF) in the experimental groupwas observed on the 14th day of reparative osteogenesis and was 41.7±0.43 units/l, which is 1.2 times(p<0.001) higher than the indicator of the controlgroup. On the other hand, in the last group, the peakactivity of the bone isozyme was noted only on the30th day (40.9±0.48 units/l), while the indicator of theexperimental animals decreased dynamically duringthis period.The use of calcium-phosphate ceramics for fragment fractures of the bones of the tibia in dogs helpsto reduce the intensity of the inflammatory-resorptivestage of reparative osteogenesis and accelerates consolidation by 1.4 times. The dynamics of biochemicalmarkers of bone metabolism testifies to the optimizedcourse of reparative osteogenesis during osteoreplacement of bone defects with germanium-doped calcium-phosphate ceramics. Key words: bioceramics, germanium, total alkaline phosphatase, bone isoenzyme of alkaline phosphatase, tartrate-resistant acid phosphatase, bonetissue.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.