Prince Philip Dental Hospital, The University of Hong Kong, Hong Kong SAR, China.
University of Zurich, Zurich, Switzerland.
J Clin Periodontol. 2016 Apr;43(4):366-73. doi: 10.1111/jcpe.12526. Epub 2016 Mar 29.
The aim of this study was to evaluate the role of a connective tissue graft (CTG) or a collagen matrix (CM) interpositioned between flaps and non-shedding hard surfaces on wound stability.
Sixty bone dehiscence defects were prepared in five Beagle dogs. Three treatments were performed in 12 sites per dog: (1) repositioned flaps were sutured onto instrumented dentin surfaces (control), (2) repositioning of flaps with an interpositioned CTG and (3) repositioning of flaps with the application of a CM. To allow postoperative healing with n = 5 for 1, 3, 7 and 14 days before evaluation, the sutures were removed, incision lines retraced and tensile forces applied to the flaps. The minimum magnitude of forces required to detach the flaps from the wound bed was recorded.
After 1 week of healing, 6 N had to be applied to disrupt flaps from their wound bed in the CTG group. In the control group, a similar magnitude of resistance was achieved after 2 weeks (6.1 N). Flap resistance to tearing was highest in the CTG group (maximum 9.1 N) 2 weeks postoperatively. On the third postoperative day, the mean tearing forces of all groups differed significantly, displaying a 50% lower resistance to tearing in the CM compared to the CTG group. In comparison, flap resistance to tearing forces established earlier and in higher magnitude in sites with an interpositioned CTG than in flaps repositioned on dentin or CM.
Application of a CTG, sutured to a non-shedding hard surface, significantly increased flap resistance to tearing when applying disrupting forces compared to controls. A less pronounced effect was achieved by interpositioning of a CM.
本研究旨在评估在皮瓣和非脱落硬表面之间放置结缔组织移植物(CTG)或胶原基质(CM)对伤口稳定性的作用。
在 5 只比格犬中制备了 60 个骨崩解缺损。在每只狗的 12 个部位进行了 3 种治疗:(1)将重新定位的皮瓣缝合到仪器化牙本质表面(对照);(2)在 CTG 之间重新定位皮瓣;(3)应用 CM 重新定位皮瓣。为了允许术后愈合,在评估前 n = 5 的 1、3、7 和 14 天,去除缝线,重新追踪切口线,并向皮瓣施加张力。记录将皮瓣从伤口床分离所需的最小力值。
在愈合后 1 周,CTG 组需要施加 6N 的力才能将皮瓣从伤口床分离。在对照组中,在第 2 周达到类似的阻力(6.1N)。在 CTG 组中,皮瓣抵抗撕裂的能力在术后 2 周最高(最大 9.1N)。在术后第 3 天,所有组的撕裂力均值差异显著,与 CTG 组相比,CM 中的撕裂阻力降低了 50%。相比之下,在 CTG 之间放置的部位,皮瓣抵抗撕裂力的建立更早且强度更高,而在牙本质或 CM 上重新定位的皮瓣则更早且强度更高。
与对照组相比,将 CTG 缝合到非脱落硬表面上可显著增加皮瓣抵抗撕裂的能力。CM 之间的介入效果不太明显。
