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- 2016
骨感知在口腔种植领域的研究进展
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Abstract:
摘要 骨感知是基于骨结合提出的又一全新的概念,其包括外周神经机制和中枢神经机制两方面,本文将从这两个方面对骨感知在口腔种植体领域的研究进展作一综述
| [1] | Mendonca DBS,da Silva Prado MM,Mendes FA,et al. Comparison of masticatory function between subjects with three types of dentition[J]. International Journal of Prosthodontics,2009,22(4)∶399-404 |
| [2] | Enkling N,Utz K H,Bayer S,et al. Osseoperception:active tactile sensibility of osseointegrated dental implants[J]. International Journal of Oral & Maxillofacial Implants, 2010, 25(6)∶1159-1167 |
| [3] | LIAO D, LI X, GONG P, et al. Erk1/2 Signaling Is Involved in the Differentiation of Periodontal Ligament Stem Cells to Schwann Cells in Dog[J]. Archives of oral biology,2014,59(5)∶487-491 |
| [4] | 乔士冲,吕晓飞,庄龙飞,等.牙种植体周围骨内神经感受功能的初步研究[J].上海口腔医学,2011,20(2)∶119-124 |
| [5] | Wada S, Kojo T, Wang YH, et al. Effect of loading on the development of nerve fibers around oral implants in the dog mandible[J]. Clinical oral implants research, 2001, 12(3)∶219-224 |
| [6] | 朱一博,林野.牙种植体骨感知现象外周神经机制的电生理实验研究[J].中国口腔种植学杂志,2009(2)∶141 |
| [7] | Yamaza T, Kido M A, Wang B, et al. Distribution of substance P and neurokinin-1 receptors in the peri-implant epithelium around titanium dental implants in rats[J]. Cell and tissue research, 2009, 335(2)∶407-415 |
| [8] | Luraschi J, Schimmel M, Bernard J P, et al. Mechanosensation and maximum bite force in edentulous patients rehabilitated with bimaxillary implant-supported fixed dental prostheses[J]. Clinical oral implants research, 2012, 23(5)∶577-583 |
| [9] | Hsieh W W, Luke A, Alster J, et al. Sensory discrimination of teeth and implant-supported restorations[J]. The International journal of oral & maxillofacial implants, 2010, 25(1)∶146 |
| [10] | Enkling N, Heussner S, Nicolay C, et al. Tactile Sensibility of Single-Tooth Implants and Natural Teeth Under Local Anesthesia of the Natural Antagonistic Teeth[J]. Clinical implant dentistry and related research, 2012, 14(2)∶273-280 |
| [11] | Enkling N, Nicolay C, Utz K H, et al. Tactile sensibility of single-tooth implants and natural teeth[J]. Clinical oral implants research, 2007, 18(2)∶231-236 |
| [12] | Habre-Hallage P, Abboud-Naman N B, Reychler H, et al. Assessment of changes in the oral tactile function of the soft tissues by implant placement in the anterior maxilla: a prospective study[J]. Clinical oral investigations, 2010, 14(2)∶161-168 |
| [13] | Gossard J P, Dubuc R, Kolta A. Face sensorimotor cortex: its role and neuroplasticity in the control of orofacial movements[J]. Breathe, Walk and Chew; The Neural Challenge: Part II, 2011,188∶71-82 |
| [14] | Trulsson M, Francis S T, Bowtell R, et al. Brain activations in response to vibrotactile tooth stimulation: a psychophysical and fMRI study[J]. Journal of neurophysiology, 2010, 104(4)∶2257-2265 |
| [15] | Habre-Hallage P, Dricot L, Jacobs R, et al. Brain plasticity and cortical correlates of osseoperception revealed by punctate mechanical stimulation of osseointegrated oral implants during fMRI[J]. European journal of oral implantology, 2012, 5(2)∶175-190 |
| [16] | Andreatta RD, Barlow SM. Somatosensory gating is dependent on the rate of force recruitment in the human orofacial system[J]. Journal of Speech, Language, and Hearing Research, 2009, 52(6)∶1566-1578 |
| [17] | Henry EC, Marasco PD, Catania KC. Plasticity of the cortical dentition representation after tooth extraction in naked mole-rats[J]. Journal of Comparative Neurology, 2005, 485(1)∶64-74 |
| [18] | Trulsson M, Bilt A, Carlsson GE, et al. From brain to bridge: masticatory function and dental implants[J]. Journal of oral rehabilitation, 2012, 39(11)∶858-877 |
| [19] | Svensson KG, Trulsson M. Regulation of bite force increase during splitting of food[J]. European journal of oral sciences, 2009, 117(6)∶704-710 |
| [20] | Okamoto N. Effect of occlusal support by implant prostheses on brain function[J]. Journal of prosthodontic research, 2011, 55(4)∶206-213 |
| [21] | Berretin-Felix G, Machado WM, Genaro KF. Effects of mandibular fixed implant-supported prostheses on masticatory and swallowing functions in completely edentulous elderly individuals[J]. International Journal of Oral & Maxillofacial Implants, 2009, 24(1)∶110-117 |
| [22] | Fujii N, Ohnishi H, Shirakura M, et al. Regeneration of nerve fibres in the peri‐implant epithelium incident to implantation in the rat maxilla as demonstrated by immunocytochemistry for protein gene product 9.5 (PGP9. 5) and calcitonin gene-related peptide (CGRP)[J]. Clinical oral implants research, 2003, 14(2)∶240-247 |
| [23] | De Vries GH, Boullerne AI. Glial cell lines: an overview[J]. Neurochemical research, 2010, 35(12)∶1978-2000 |
| [24] | Klineberg I, Calford MB, Dreher B, et al. A consensus statement on osseoperception[J]. Clinical and Experimental Pharmacology and Physiology, 2005, 32(1-2)∶145-146 |
| [25] | Trulsson M, Johansson RS. Orofacial mechanoreceptors in humans: encoding characteristics and responses during natural orofacial behaviors[J]. Behavioural brain research, 2002, 135(1)∶27-33 |
| [26] | Li XJ, Liao DP, Gong P, et al. Neural differentiation of periodontal ligament stem cells induced by neurotrophic Schwann cells factors[J]. Arch Med Sci, 2009, 5(3)∶313-320 |
