ライフサイエンスコーパス: bioabsorbable membrane

1 Each patient was treated by GTR using a bioabsorbable membrane.

2 GTR) procedures using both nonresorbable and bioabsorbable membranes.

3 Ten sites received a collagen bioabsorbable membrane, 10 sites received acellular derm

4 Contrary to this, bioabsorbable membranes allowed earlier anastomosis of t

5 ek (test or GPN group) or with a polylactide bioabsorbable membrane alone (control or GA group).

6 the same flap surgery followed by use of the bioabsorbable membrane alone (GTR, or control group).

7 ylene [ePTFE] titanium reinforced membranes, bioabsorbable membranes alone, bioabsorbable membranes w

8 y superior to that obtained with polylactide bioabsorbable membranes alone.

9 Infrabony defects treated with GTR using a bioabsorbable membrane and a bone graft substitute with

10 ffected by using an osteoinductive DFDBA and bioabsorbable membrane and membrane stabilization.

11 t with a bioabsorbable synthetic bone graft, bioabsorbable membrane, and minocycline root conditionin

12 es (10 patients) were treated with DFDBA and bioabsorbable membrane before placing endosseous implant

13 ients were treated with either a polylactide bioabsorbable membrane, demineralized freeze-dried bone

14 P), bovine porous bone mineral (BPBM), and a bioabsorbable membrane for guided tissue regeneration (G

15 This bioabsorbable membrane has been shown to be effective in

16 No reports exist on the use of a bioabsorbable membrane in combination with a demineraliz

17 e are little data evaluating the efficacy of bioabsorbable membranes in the treatment of intrabony de

18 ed freeze-dried bone allograft (DFDBA) and a bioabsorbable membrane is significantly less than the in

19 t, second and fourth premolars, received the bioabsorbable membranes, made of glycolide and lactide p

20 A bioabsorbable membrane of glycolide and lactide copolyme

21 GTR therapy utilizing bioabsorbable membranes offers the advantages of prevent

22 ts in 24 patients were treated with either a bioabsorbable membrane plus twice daily postsurgical nap

23 t of DFDBA in the furcation defect under the bioabsorbable membrane resulted in a greater mean reduct

24 In the test defects, a bioabsorbable membrane was positioned.

25 A surgical technique involving a bioabsorbable membrane was used to treat localized bucca

26 Allograft (DMFDB) and a bioabsorbable membrane were employed.

27 en defect received a poly(lactic acid)-based bioabsorbable membrane, while the paired defect received

28 This study shows that the use of a bioabsorbable membrane will predictably and significantl

29 polytetrafluoroethylene (ePTFE), GTR using a bioabsorbable membrane with or without demineralized fre

30 eatment of Class II furcation lesions with a bioabsorbable membrane with or without the adjunctive us

31 treatment of human gingival recession with a bioabsorbable membrane with or without the use of DFDBA

32 ed membranes, bioabsorbable membranes alone, bioabsorbable membranes with a bone replacement graft [c