INFLUENCE OF DISTURBED CONDITIONS OF REPARATIVE REGENERATION OF BONE TISSUE ON THE DYNAMICS OF THYROID HORMONES
Abstract and keywords
Abstract (English):
Managing bone tissue regeneration is a key problem in traumatology and orthopedics. The researches proved that thyroid hormones affect hemostasis and reparative regeneration of bone tissue favorably and promote osteogenesis and bone consolidation.The aim of this research is to study the influence of disturbed reparative regeneration on the concentration of thyroid hormones in blood in the dynamics. Experimental research on rabbits (n=12) with modelling of disturbed reparative regeneration revealed disorder in thyroid hormones synthesis and different directions of T3 and unbound T3 production on the 35th day when the maxi-mum decrease of T3 (2times) and unbound T3 (1.5times) compared to normal values was registered. The analysis of production of T4 and unbound T4 revealed suppression of the values from the 1st to 50th day and gradual increase in unbound T4 from the 50th day. The most significant manifestation of thyroid gland reaction on the disturbed reparative regeneration of shin bones was the decrease in T3 and peripheral conversion of thyroid hormones up to 50th day with formation of false joint in these terms.

Keywords:
bone regeneration, neoarthrosis, thyroid hormones
References

1. AvruninAS, KornilovNV, IoffeID (2001). Adaptation mechanisms of bone tissue and regulative metabolic profile of the human body [Adaptatsionnye mekhanizmy kostnoy tkani i regulyatorno-metabolicheskiy profil› or-ganizma]. Morfologiya, (6), 7-12.

2. Avrunin AS, Parshin LK, MelnikovBE (2013). Critical analysis of mechanostat theory. PartII. Stability of mecha-no-metabolic skeleton environment and homeostatic parameters of calcium in organism [Stabil’nost’ mekha-no-metabolicheskoy sredy skeleta i gomeostaticheskikh parametrov kal’tsiya organizma]. Travmatologiya i orto-pediya Rossii, (1), 127-137.

3. BerdyuginaOV, BerdyuginKA (2009). Immunologic criteria of prediction of bone tissue delayed union [Im-munologicheskie kriterii prognozirovaniya zamedlennoy konsolidatsii kostnoy tkani]. Travmatologiya i ortopediya Rossii, 2 (52), 59-66.

4. Shambakh H, Knappe G, Karola V (eds.) (1998). Hor-monotherapy [Gormonoterapiya], 416.

5. Dedukh NV, Malyshkina SV (2006). Bone regenera-tion: achievements and prospective [Regeneratsiya kosti: dostizheniya i perspektivy]. Travma, 7 (2), 212-217

6. IvashenkoSV, UlashchikVS, SemakIV, IvashenkoES, GoranovV A, PopovaII (2010). Changes of bone tissue metabolites count in rabbits blood after it being affected by low frequency ultrasound [Izmenenie soderzhaniya v krovi krolikov metabolitov kostnoy tkani posle vozdeyst-viya na nee nizkochastotnym ul›trazvukom]. Meditsinskiy zhurnal, (4), 64-67

7. Lepekhova SA (2012). Program of standard surgical procedures: laboratory animals (admission, care and health control of animals in vivarium of medical institu-tion): a study guide [Programma standartnykh operatsion-nykh protsedur: laboratornye zhivotnye (priem, soderzha-nie, ukhod i kontrol’ zdorov’ya zhivotnykh v vivariyakh meditsinskogo uchrezhdeniya): ucheb. posobie], 96.

8. Osipenko AV, Yastrebov AP (2012). Regeneration and remodeling of bone tissue [Regeneratsiya i remod-elirovanie kostnoy tkani]. Vestnik Ural’skoy meditsinskoy akademicheskoy nauki, 2(39), 61-62.

9. Sannikova EV, Mistislavskaya IA, Ivantsova IV (2006). Evaluation of long-term results of bone fractures treat-ment as an efficient method of quality control of trauma-tologic management [Ekspertiza otdalennykh rezul’tatov lecheniya perelomov kostey kak effektivnyy metod kontrolya kachestva travmatologicheskoy pomoshchi]. Travmatologiya i ortopediya Rossii,(2), 265

10. QiaoG, TishkovNV, GoldbergOA, LepekhovaSA, GumanenkoVV, TikhonovEG (2013). Method of false joint modelling in shin-bone fractures and the device for its realization: Patent 2523622 of the Russian Federation [Sposob modelirovanija lozhnogo sustava pri perelome kostej goleni i ustrojstvo dlja ego osushhestvlenija: Patent 2523622 Ros. Federatsiya].

11. Spreys IV, Alferova MA, Mikhalevich IM, Rozhkova NY (2006). Basics of applied statistics (using Excel and Statistica in medical researches): a study guide [Osnovy prikladnoj statistiki (ispol’zovanie Excel i Statistica v medicinskih issledovanijah): ucheb. posobie], 71.

12. TsiaoG, Goldberg OA, Lepekhova SA, Tishkov NV, Seliverstov PV, Gumanenko VV (2014). Characterization of bone tissue changes in the zone of defect under disor-dered reparative regeneration [Kharakteristika izmeneniy kostnoy tkani v zone defekta v usloviyakh narushennoy reparativnoy regeneratsii]. Geniy ortopedii, (3), 77-81.

13. TsiaoG, LepekhovaSA, GoldbergOA, GumanenkoVV, AkhmedovAE (2014). Results of modeling of neoarthrosis [Rezul›taty modelirovaniya lozhnogo sustava]. Materi-aly IV nauchno-prakticheskoy konferentsii molodykh uchenykh Sibirskogo i Dal›nevostochnogo federal›nykh okrugov: sb. statey, 195-202.

14. Tsiao G, Tishkov NV, Lepekhova SA, Goldberg OV, Gumanenko VV (2013). The way to model the impared post-traumatic regeneration of tibia [Sposob modeliro-vaniya narushennoy posttravmaticheskoy regeneratsii kostey goleni]. Sibirskiy meditsinskiy zhurnal (Irkutsk), 122 (7), 131-134

15. Shteynle AV (2009). Posttraumatic regeneration of bone tissue (part 1) [Posttravmaticheskaya regeneratsiya kostnoy tkani (chast’ 1)]. Sibirskiy meditsinskiy zhurnal (Tomsk), 24 (4-1), 101-108.

16. Shteynle AV (2010). Posttraumatic regeneration of bone tissue (part2) [Posttravmaticheskaya regeneratsiya kostnoy tkani (chast’ 2)]. Sibirskiy meditsinskiy zhurnal (Tomsk), 25 (1-1), 114-118.

Login or Create
* Forgot password?