Gelatin–Curcumin Nanocomposites as a Coating for Implant Healing Abutment: In Vitro Stability Investigation

Dizaj, Solmaz Maleki; Torab, Ali; Kouhkani, Shadi; Sharifi, Simin; Negahdari, Ramin; Bohlouli, Sepideh; Fattahi, Shirin; Salatin, Sara

doi:10.3390/clinpract13010009

Cited by 4 publications

(2 citation statements)

References 35 publications

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“…The Plasma group showcased the nest performance. The soft tissue's thickness is directly correlated with this behavior [15].…”

Section: Discussionmentioning

confidence: 99%

Evaluation of antimicrobial action of healing abutment before and after coating with nanoparticles impregnated with essential oil in type 2 diabetic mellitus- A randomized control trial

Chitlange,

Sathe

2024

Preprint

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Background Dental implants have been validated as a reliable and valid method of replacing lost teeth in recent years, with a principal success rate of roughly 94.6%. Dental implant therapy failures are frequently caused by inadequate stability or misfitting at the implant-abutment interface. In actuality, bacterial infiltration and inflammatory cells are brought on by a micro-gap at the interface between two-tier implants with variable fluid flow at this contact, which results in bone loss nearby. Chitosan is a naturally occurring, non-toxic, biodegradable polysaccharide that is generated from chitin. It is extensively utilized in medicine, particularly for implant coatings, drug transporters, and wound care. Cinnamon is known to include proanthocyanidins, which can disrupt biological processes, and cinnamaldehyde, which is extremely electronegative. The antibacterial qualities are mostly due to the contributions of both components. The increasing number of failed implants is driving up demand for novel biomaterials that can reduce the risk of surgical site infections. Antibacterial techniques were considered in addition to nanotechnology in order to reduce the risk of infections around the implants, irrespective of surface science focused on enhancing the osseointegration process. Based on local drug delivery models, these methods necessitated specific surface modifications to effectively incorporate antibacterial agents on the surface and subsequently deliver them to the targeted anatomical areas upon implant placement. Methods A total of 36 patients will be chosen from the Prosthodontics outpatient departments at Sharad Pawar Dental College, DMIHER, Sawangi Meghe, Wardha. Methodology 1. Patients will be screened and allocated to two groups: A healing abutment coated with and without nanoparticles in a randomized manner. 2. Saliva Bio Oral Swabs will be used to collect 1 mL of saliva from each patient in an unstimulated manner. 3. To assess the antibacterial activity of the healing abutment with or without coated with nanoparticles, the saliva sample will be sent to the Jawaharlal Nehru Medical College, DMIHER microbiology department. Discussion In order to prevent S. epidermidis biofilms from forming, R Magetsari et al. conducted a study in 2014 to examine the impact of covering chitosan and cinnamon oil as a bio-adhesive on the surfaces of stainless-steel orthopedic implants. This study showed that, at a minimum concentration of 1%, a combination of chitosan and cinnamon oil coating on the surface of stainless-steel orthopedic implants affects S. epidermidis biofilm formation. Trial registration: CTRI/2024/05/067110 registered on May 9, 2024.

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“…The Plasma group showcased the nest performance. The soft tissue's thickness is directly correlated with this behavior [15].…”

Section: Discussionmentioning

confidence: 99%

Evaluation of antimicrobial action of healing abutment before and after coating with nanoparticles impregnated with essential oil in type 2 diabetic mellitus- A randomized control trial

Chitlange,

Sathe

2024

Preprint

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“…The brush was applied to coat specimens in one direction for 20 seconds (Sayed et al, 2023). The second subgroup specimens were coated using a dipping technique, the specimens were dipped for 20 seconds in a container containing nano SiO2 liquid horizontally and they were arranged separate from each other (Maleki et al, 2023). The third subgroup specimens were coated using a spray technique.…”

Section: Nano Sio2 Coatingmentioning

confidence: 99%

The Effect of Different Methods of Nano SiO2 coating on Thermoplastic Partial Denture Clasp Materials and Their Effect on Hydrophobicity

Zabida,

Abdul Ghani,

Mustafa

et al. 2024

Compend. Oral Sci.

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Objectives: This in-vitro study aimed to determine the best coating technique of nano SiO2 liquid material and its effect on hydrophobicity of thermoplastic partial denture clasp resins. Materials and methods: 80 thermoplastic disc specimens (Acetal, n=40 and Polyamide, n=40) were fabricated. The specimens were randomly divided into 4 subgroups (n=10/group); brush coating, spray coating, dip coating and uncoated as control group. SEM was used to evaluate the surface topography and the spread of coating material. The subjective method, image quality assessment was used to quantify the images’ quality. The mean contact angle was identified by using Image J software. Results: Mean of opinion score of SEM showed that dip-coated specimens of the two tested materials showed the best coating spread quality among the other coating techniques. Image J software measurements revealed that the contact angle of dip-coated acetal and polyamide specimens exhibited the highest contact angle sequentially in comparison to all tested specimens. Conclusion: These results suggest that the dip coating technique has the best results in comparison with the two other coating techniques. Nano SiO2 coating of thermoplastic clasp materials has improved their contact angle which in turn has improved the hydrophobicity of these clasp materials because their external properties are better than those of control specimens. This study will provide a novel external approach for ameliorating thermoplastic partial denture clasp materials using nano SiO2 to enhance their surface properties and solve their limitations and therefore promote the use of these aesthetic clasps.

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Eco-friendly bio-nanocomposites: pioneering sustainable biomedical advancements in engineering

Nandhini,

Karthikeyan,

Rajeshkumar

2024

Discover Nano

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Biomedical nanocomposites, which are an upcoming breed of mischievous materials, have ushered in a new dimension in the healthcare sector. Incorporating these materials tends to boost features this component already possesses and give might to things these components could not withstand alone. The biopolymer, which carries the nanoparticles, can simultaneously improve the composite's stiffness and biological characteristics, and vice versa. This increases the options of the composite and the number of times it can be used. The bio-nanocomposites and nanoparticles enable the ecocompatibility of the medicine in their biodegradability, and they, in this way, have ecological sustainability. The outcome is the improved properties of medicine and its associated positive impact on the environment. They have broad applications in antimicrobial agents, drug carriers, tissue regeneration, wound care, dentistry, bioimaging, and bone filler, among others. The dissertation on the elements of bio-nanocomposites emphasizes production techniques, their diverse applications in medicine, match-up issues, and future-boasting prospects in the bio-nanocomposites field. Through the utilization of such materials, scientists can develop more suitable for the environment and healthy biomedical solutions, and world healthcare in this way improves as well.

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Gelatin–Curcumin Nanocomposites as a Coating for Implant Healing Abutment: In Vitro Stability Investigation

Cited by 4 publications

References 35 publications

Evaluation of antimicrobial action of healing abutment before and after coating with nanoparticles impregnated with essential oil in type 2 diabetic mellitus- A randomized control trial

Evaluation of antimicrobial action of healing abutment before and after coating with nanoparticles impregnated with essential oil in type 2 diabetic mellitus- A randomized control trial

The Effect of Different Methods of Nano SiO2 coating on Thermoplastic Partial Denture Clasp Materials and Their Effect on Hydrophobicity

Eco-friendly bio-nanocomposites: pioneering sustainable biomedical advancements in engineering

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