Atomic-layer-deposition application for antibacterial coating of biomedical materials: surgical sutures.

Suture-associated surgical site infection (SSI) causes bacterial pathogens to colonize on the suture surface that are highly resistant to antibiotic treatment. Conventional suture materials used in surgical practice are causing complications such as infection and chronic inflammation. Surgical suture materials with antibacterial coatings are widely used in surgical practice. However, all the widely used antibacterial agents are not permanent (limited lasting) due to their instability and release depending on environmental conditions (pH or temperature, for example). Therefore, more long-lasting (low-dose) and effective antibacterial function materials are required. In the present work, we proposed a new material and method of antibacterial coating the surgical sutures based on the atomic layer deposition (ALD) technique to enhance its antibacterial activity for treatment of the SSI. We have proposed applying a vanadium-doped TiOnanofilm (hybrid nanomaterial, TiVO) with 27.5 nm thickness to enhance the antibacterial property of surgical sutures using the ALD technique. We have illustrated that a base coating of AlO(seed layer) applied to the suture surface, which directly contacts the polypropylene (PP) suture, improves the adhesion of the deposited antibacterial material TiVO. This provides a long-lasting antibacterial effect on the suture (a prolonged antibacterial effect of the coating material), i.e. increases the stability of the deposition (stable in water, air, in the human body, in different pH mediums, and at temperatures up to 70 °C). The sutures did not deteriorate after several wash cycles with sterilizing solvents. Also, the antibacterial agent (TiVO) is nontoxic. The concentration of vanadium in the film is below the toxicity limits due to the low diffusivity of vanadium and high adhesion with the base coating material (AlO). Sutures coated with V-doped TiOwere characterized using scanning electron microscopy images, and elemental analysis was performed using energy dispersive spectroscopy Spectroscopy. The antibacterial activity of TiVOcoated sutures against two types of microorganisms,and Proteus vulgaris () was compared to that of noncoated sutures. The quantitative assessment of antibacterial activity of suture materials with and without ALD nanocoating TiVOagainstandhas been performed. No growth of bacteria around the suture material with antibacterial TiVOALD nanocoating throughout the entire observation period of 48 and 72 h was observed. However, after 48 h, the concentration of bacteria of thearound the suture material without ALD TiVOnanocoating on nutrient agar was 5.5 ± 0.3 Log CFU cm, and after 72 h it was 8.0 ± 0.5 Log CFU cm. For Pr. Vilgaris, after 48 h, the concentration of bacteria around the suture material without ALD TiVOnanocoating on nutrient agar was 2.1 ± 0.1 Log CFU cm, while after 72 h it was 4.5 ± 0.2 Log CFU cm. ALD-coated TiVOon the PP sutures inhibited approximately 100% of biofilm formation. Also, the inhibition zones in the disc diffusion assay revealed that all the ALD TiVOcoating inhibited (100%) the growth ofand, notably compared to the uncoated suture samples.