Herford Alan S
Division of Oral and Maxillofacial Surgery, Loma Linda University Medical Center, Loma Linda, CA, USA.
J Oral Maxillofac Surg. 2004 Apr;62(4):412-20. doi: 10.1016/j.joms.2003.06.010.
Transport distraction osteogenesis has been used to reconstruct continuity defects by regenerating bone and soft tissues. A challenge has been to maintain the correct vector during the distraction process. A new type of distraction device was recently developed that uses a standard reconstruction plate to "guide" the transported segment of the bone. This plate-guided distractor device (PGD) intimately follows the shape of the plate, thus allowing for 3-dimensional vector control during the distraction process.
Four patients underwent transport distraction osteogenesis for reconstruction of segmental mandibular defects ranging in size from 4 to 7 cm. The age of the patients ranged from 27 to 62 years. Two patients had been treated with radiotherapy as part of treatment for oral malignancy. A standard locking reconstruction plate was placed to bridge the continuity gap. An osteotomy was performed to create a bone transport segment. The PGD was secured to both the reconstruction plate and the transport bone. After a latency period of 7 days, the device was activated at a rate of 1 mm/d. The distraction process continued until the transport segment reached the opposing bone or sufficient bone and soft tissue were reconstructed for oral rehabilitation.
All patients achieved hard and soft tissue formation. Two patients had premature consolidation of the distraction regenerate but had sufficient tissue for rehabilitation.
A PGD can be used to regenerate missing hard and soft tissues. An advantage of this technique is that it uses a reconstruction plate that is routinely placed to bridge mandibular continuity defects. This device allows for ultimate vector control by intimately following a carefully adapted plate.
运输性牵张成骨术已被用于通过再生骨和软组织来重建连续性缺损。一个挑战是在牵张过程中保持正确的向量。最近开发了一种新型牵张装置,它使用标准的重建钢板来“引导”骨的运输段。这种钢板引导牵张器装置(PGD)紧密跟随钢板的形状,从而在牵张过程中实现三维向量控制。
4例患者接受运输性牵张成骨术以重建大小为4至7厘米的节段性下颌骨缺损。患者年龄在27至62岁之间。2例患者曾接受放射治疗作为口腔恶性肿瘤治疗的一部分。放置标准锁定重建钢板以桥接连续性间隙。进行截骨术以创建一个骨运输段。将PGD固定在重建钢板和运输骨上。在7天的延迟期后,以每天1毫米的速度激活该装置。牵张过程持续进行,直到运输段到达对侧骨或重建了足够的骨和软组织以进行口腔修复。
所有患者均实现了硬组织和软组织的形成。2例患者牵张再生过早愈合,但有足够的组织进行修复。
PGD可用于再生缺失的硬组织和软组织。该技术的一个优点是它使用常规放置以桥接下颌骨连续性缺损的重建钢板。该装置通过紧密跟随精心适配的钢板实现最终的向量控制。
