The research of the composition of mineral component of compact bone tissue after flow delipidation using the optic method

The results of the research of bone mineral component (BMC) composition using the Raman spectroscopy method are presented in the work. The subjects of the research were the groups of BMC samples made of compact bone tissue of cows using “Lyoplast”® technology where vacuum delipidation of initial material was replaced by the flow one by washing it out in hydrogen peroxide and ether. The solution filtration after bone tissue demineralization was used as additional treatment. The results of the experiment show that the flow delipidation can be used for preparing this biomaterial (BMC), which is cost-effective compared to standard vacuum cleaning and additional filtration stage can be rejected.

Dynamics of hematological parameters, macromorphological and radiological results of reparative osteogenesis in rabbits for the use of platelet concentrates and hydroxyapatite ceramics

The results of the dynamics of the morphological parameters of the blood of a rabbit with model defects of the opening of the spongy and compact bone tissue at diff erent periods of reparative osteogenesis are presented. Formed 4 groups of rabbits. Bone lesions in the fi rst experimental group were fi lled with injectable platelet-rich fi brin, in the second - platelet-rich fi brin, in the third - a combination of platelet-rich fi brin, and hydroxyapatite with β-tricalcium phosphate.In the control group, the defects remained healed under a blood clot. All animals were in the same conditions of feeding and keeping, had unlimited access to water. During the study, rabbits were clinically observed. Blood was taken for morphological examination before surgery and on the 3rd, 7th, 14th, 21st, 42nd day. Animals were taken from the experiment on the 14th, 21st and 42nd days, an X-ray examination was carried out, bone tissue samples were taken. It was established that trauma of bone tissue leads to a number of reactions of the body aimed at restoring the damaged area. Against the background of the general picture of the obtained morphological results, the level of platelets signifi cantly changes compared to the physiological norm, while the number of red blood cells and white blood cells does not go beyond it. There is a slight increase in hemoglobin levels, especially in the experimental groups on the twenty-fi rst and forty-second day. Signifi cant changes in the number of red blood cells, white blood cells, platelets and hemoglobin concentration in the experimental groups were noted compared with the control group at diff erent periods of reparative osteogenesis.The use of various types of platelet concentrates aff ects the overall reaction of the body. On radiographs of the radial bones (compact bone tissue) on the twenty-fi rst day in the second and third experimental groups, where fi brin enriched with platelets and its combination with hydroxyapatite materials with β-tricalcium phosphate were used to replace bone defects, the infl ammatory reaction was manifested to a lesser extent. There was no signifi cant formation of bone callus compared with the fi rst, in which model defects were fi lled with injectable platelet-rich fi brin and the control group. Each of the types of platelet concentrates and their combination with hydroxyapatite ceramics have a diff erent eff ect on the restoration of bone defects and is accompanied by the appearance of a number of reactions, both local and general. According to the degree of intensity of this process, they can be placed in the following sequence: i-PRF ˂ PRF ˂ PRF+GT. Macromorphologically and radiologically signifi cant diff erences were not detected for diff erent types of bone tissue due to the use of each of the substances that concentrates platelets. The combination of hydroxyapatite granules with β-tricalcium phosphate and platelet-rich fi brin proved to be the best option for repairing the damaged area. Its use provides a signifi cantly smaller manifestation of the local infl ammatory reaction and causes the formation of optimal bone marrow. Key words: PRF, i-PRF, granules, centrifuges, growth factors, bone marrow.

Comparative Effect of Calcium Phosphate Biocomposite Materials on the Healing of Experimental Defect of Compact Bone Tissue

Introduction For the treatment of bone defects, a considerably large number of biocomposite calcium-phosphate materials has been developed and used. However, in the scientific literature, there is no information about the comparative effect of biocomposite materials based on β-tricalcium phosphate, hydroxyapatite, and collagen on the dynamics of healing of the defect of compact bone tissue. Materials and Methods The experiment was performed on 48 white Wistar rats. In the middle third of the femoral shaft, a perforated defect 2.5 mm in diameter was reproduced in the bone marrow canal, which was filled with the calcium phosphate material Collapan (Intermedapatit, Moscow, Russia) (hydroxyapatite/collagen/antibiotics) in the animals of the first group, and with Guidor easy-graft Crystal (Sunstar S.A., Etoy, Switzerland) (hydroxyapatite/β-tricalcium phosphate) in the animals of the second group. Fragments of the injured bones were examined on the 15th and 30th days by light microscopy with morphometry and scanning electron microscopy. Results It was found that, in the area of implantation of Collapan and of Guidor easy-graft Crystal, signs of inflammation were not detected, and osteogenic cells exhibited high topism to biocomposite materials. The biomaterials during the entire period of the experiment are subjected to resorption and replacement by the bone tissue of the regenerate. On the 15th and 30th days of the experiment, the predominance in the rate of biomaterial resorption (of 35.04% and 53.47%, respectively) and the formation of regenerate bone tissue (of 58.67% and 50.47%, respectively) was in the area of implantation of Collapan. Conclusion The biocomposite materials tested exhibit a high biocompatibility, osteoconductive properties, and good integration with the tissues of the regenerate. However, the biocomposite material Collapan undergoes resorption and replacement by the bone tissue of the regenerate much faster, and Guidor easy-graft Crystal provides stability of the defect volume of compact bone tissue due to full resorption and good integration with the tissues of the regenerate.

Study of Bone Tissue Stress and Strain State Aimed at Development of Intelligent Biomaterials for Osteoimplantation

This article studies the stress and strain state of simulated microvolumes of compact bone tissue under uniaxial compression, having different orientation of collagen-mineral fibers, different porosity and mineral content. The purpose of the study is to work out recommendations on development of artificial mechanically compatible biomaterials for osteoimplants. It has been found out that it is necessary to take into account the effective mechanical parameters defining the distribution of the bone tissue stress and strain when making individual implants.

Epibulbar Osseous Choristoma

The topic of this case report is a rare subconjuctival osseous choristoma that corresponded to the left lateral sunconjunctiva and canthus. A 20-year-old man was asymptomatic when he arrived for the examination. His full ophthalmic examination was normal. Orbital computerized tomography was concordant with osseous lesion. Osseous choristomas are the rarest forms of ocular choristomas, they are usually being defined as sporadic, and they are found at the superior temporal region of the episclera. In our case, choristoma was in the lateral canthus of the left eye. We had administered surgical excision by reason of the patient’s cosmetic requirement. We had noted that the lesion was adherent to conjunctiva but not to the sclera and the muscles. After surgical treatment, we saw mature heterotrophic osseous tissue in subconjunctival area and Haversian canals in compact bone tissue.