Gutta Rajesh, Baker Robert A, Bartolucci Alfred A, Louis Patrick J
Department of Oral and Maxillofacial Surgery, University of Texas Health Science Center at San Antonio, San Antonio, TX 78229, USA.
J Oral Maxillofac Surg. 2009 Jun;67(6):1218-25. doi: 10.1016/j.joms.2008.11.022.
To identify the optimal pore size of barrier membranes for successful alveolar ridge reconstruction procedures, to determine if cortical perforations have any effect on bone regeneration, and to reiterate that bone graft containment is an important parameter for successful regeneration.
This was a prospective, randomized, controlled study performed on hound dogs. Corticocancellous tibial bone grafting was performed to the lateral border of the mandible and protected with barrier membranes (meshes). The experiment analyzed three different pore sized meshes, compared with controls without the mesh. Two meshes (macroporous and microporous) were made of titanium, and one was a resorbable mesh. Meshes were preformed into the shape of a cube with one face open. Each side of the cube measured approximately 10 mm. Cubes were open-faced on one side, to facilitate packing of the graft material. The dogs received bilateral ramus grafts. Cortical perforations were created on the left ramus of all the dogs and compared with the right side, which did not have perforations. The dogs were randomly divided into 3 groups and sacrificed at intervals of 1, 2, and 4 months. Before sacrifice, all dogs received 2 doses of tetracycline as a marker for new bone formation. Histomorphometry was performed by using Bioquant image-analysis software. Areas of new bone and soft tissue were measured. The rate of mineral apposition was also calculated. All values obtained via histomorphometry were statistically analyzed with a t test.
Thirty-one experimental sites were evaluated. The amount of new bone growth into the macroporous mesh was significantly higher than in the other groups. The mean area of new bone formation in large and small meshes was 66.26 +/- 13.78 mm(2) and 52.82 +/- 24.75 mm(2), respectively. In the resorbable mesh group, the mean area of new bone formed was 46.76 +/- 21.22 mm(2). The amount of new bone formed in the control group was 29.80 +/- 9.35 mm(2). There was no significant difference in amount of bone formation between left and right sides (P = .3172). Resorbable meshes had significant soft tissue ingrowth (23.47 mm(2)) compared with macroporous mesh (16.96 mm(2)) and microporous mesh (22.29 mm(2)). Controls had the least amount of soft tissue ingrowth (9.41 mm(2)). Mineral apposition rate was found to be higher in the resorbable group (2.41 microm/day), and the rate was lowest (1.09 microm/day) in the large pore mesh group.
Macroporous membranes facilitated greater bone regeneration compared with microporous and resorbable membranes. Macroporous mesh also prevented significant soft tissue ingrowth compared with other meshes. Containment of a bone graft is the most critical parameter in successful bone regeneration. Cortical perforations did not have any effect on the quantity of regenerated bone. Further research should be directed toward identifying a critical pore size and manufacturing a reliable mesh that would prevent excessive soft tissue ingrowth in ridge augmentation procedures.
确定用于成功进行牙槽嵴重建手术的屏障膜的最佳孔径,确定皮质穿孔对骨再生是否有任何影响,并再次强调骨移植的封闭是成功再生的一个重要参数。
这是一项对猎犬进行的前瞻性、随机、对照研究。将皮质松质骨胫骨移植到下颌骨外侧边缘,并用屏障膜(网片)进行保护。该实验分析了三种不同孔径的网片,并与无网片的对照组进行比较。两种网片(大孔和微孔)由钛制成,一种是可吸收网片。网片预先制成一面开口的立方体形状。立方体的每边约为10毫米。立方体一侧开口,以便于移植材料的填充。这些犬接受双侧升支移植。在所有犬的左升支上制作皮质穿孔,并与没有穿孔的右侧进行比较。犬被随机分为3组,并在1、2和4个月的间隔时间处死。在处死前,所有犬接受2剂四环素作为新骨形成的标记物。使用Bioquant图像分析软件进行组织形态计量学分析。测量新骨和软组织的面积。还计算矿物质沉积率。通过组织形态计量学获得的所有值用t检验进行统计学分析。
评估了31个实验部位。大孔网片中新骨生长量显著高于其他组。大、小网片中新骨形成面积的平均值分别为66.26±13.78平方毫米和52.82±24.75平方毫米。在可吸收网片组中,新形成的骨平均面积为46.76±21.22平方毫米。对照组中形成的新骨量为29.80±9.35平方毫米。左右两侧的骨形成量没有显著差异(P = 0.3172)。与大孔网片(16.96平方毫米)和微孔网片(22.29平方毫米)相比,可吸收网片有显著的软组织向内生长(23.47平方毫米)。对照组的软组织向内生长量最少(9.41平方毫米)。发现可吸收组的矿物质沉积率较高(2.41微米/天),大孔网片组的沉积率最低(1.09微米/天)。
与微孔和可吸收膜相比,大孔膜促进了更大程度的骨再生。与其他网片相比,大孔网片也能防止显著的软组织向内生长。骨移植的封闭是成功骨再生的最关键参数。皮质穿孔对再生骨的量没有任何影响。进一步的研究应致力于确定临界孔径,并制造一种可靠的网片,以防止在牙槽嵴增高手术中过度的软组织向内生长。
