Pratap Mane scite author profile

Pratap Mane

5Publications

21Citation Statements Received

34Citation Statements Given

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Affiliations

Krishna Institute of Medical Sciences Deemed University, Krishna Institute of Medical Sciences

Publications

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Effect of Fluoride Prophylactic Agents on the Surface Topography of NiTi and CuNiTi Wires

Mane

Pawar²,

Ganiger³

et al. 2012

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Aim The aim of this study was to see the effect of topical fluoride on surface texture on nickel-titanium and copper-nickel-titanium orthodontic archwires. Materials and methods Preformed rectangular NiTi and CuNiTi wires were immersed in in fluoride solution and artificial saliva (control) for 90 minutes at 37°C. after immersion optical microscope was used to see the fluoride effect on the wire topography. Results The acidulated fluoride agents appeared to cause greater corrosive effects as compared to the neutral fluoride agents. Conclusion The result suggest that using topical fluoride agents leads to corrosion of surface topography indirectly affecting the mechanical properties of the wire that will lead to prolonged orthodontic treatment. Clinical significance The use of topical fluoride agents has to be limited in patients with prolonged orthodontic treatment as it causes the corrosion of the NiTi and CuNiTi wires. How to cite this article Mane PN, Pawar R, Ganiger C, Phaphe S. Effect of Fluoride Prophylactic Agents on the Surface Topography of NiTi and CuNiTi wires. J Contemp Dent Pract 2012;13(3):285-288.

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Evaluation of the awareness and knowledge of orthodontics and orthodontic treatment in patients visiting School of Dental Sciences, Karad

et al. 2018

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Effect of fluoride on mechanical properties of NiTi and CuNiTi orthodontic archwires: an in vitro study

Mane

Ganiger

Pawar

et al. 2021

Dental Press J. Orthod.

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Introduction: After debonding, white spot may appear on the area below the bracket, which is the early clinical sign of carious lesion. There is increased caries risk underneath and adjacent to orthodontic bands and brackets, which call for maximum use of caries preventive procedures using various fluoride application methods. Objective: The aim of the study was to evaluate alterations in the mechanical properties (modulus of elasticity and yield strength) in loading and unloading phases for different orthodontic archwires (nickel-titanium [NiTi] and copper-nickel-titanium [CuNiTi]) when exposed routinely to fluoride prophylactic agents for a predetermined period of time. Methods: Preformed rectangular NiTi and CuNiTi wires were immersed in fluoride solution and artificial saliva (control) for 90 minutes at 37ºC. After immersion, specimens were tested using a 3-point bend test on a universal testing machine. Results: There is a significant reduction in the unloading yield strength when the NiTi and CuNiTi wires were exposed to APF gel. Conclusion: The result suggests that use of topical fluoride agents affect the mechanical properties of the wires, leading to increase in treatment duration. Fluoride prophylactic agents must be used with caution in patients undergoing orthodontic treatment. Injudicious use of these agents may cause corrosive effects on the orthodontic wire surfaces, with alteration in their mechanical properties.

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Awareness of orthodontic treatment among school teachers in Karad Taluka

et al. 2019

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Invitro Study of the Effect of Different Samples of Water Used for Washing the Etchant on Bracket Bond Strength

Phaphe

Ganiger

Ahammed

et al. 2015

JCDR

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IntrOductIOnBonding is the most sensitive procedure during orthodontic treatment. The presence of moisture in the oral cavity is the most common cause for bond failure. Contamination causes plugging of the porosities which are produced by acid etching and this reduces the surface energy. As the resin penetration is impaired it leads to poor mechanical interlocking [1]. The detrimental effect of moisture on orthodontic bonding could be due to induction of the plasticizing effect in the polymer network caused by water absorption. The latter creates hydrated zones at the polar monomer sites and the oxidation of pendant C=C bonds attached to the network, which liberate by-products such as formaldehyde so producing a plasticizing effect [2]. Bonding of brackets requires a completely dry field of operation and involves a series of technique sensitive steps, as contamination during this period leads to bond failure. The aim of this study was, therefore, to evaluate the role of mineral content (hardness) of the water used for washing the etchant on the bond strength of the brackets. The null hypothesis tested was that there are no significant differences in bond strength when different levels of hardness of water are used for washing the etched surface. MAterIAls And MethOdsThe present study was conducted in 2014 in the Department of Orthodontics, School of Dental Sciences, Krishna institute of medical sciences deemed university, karad. Seventy five human extracted premolars were collected which were extracted for orthodontic reasons. As per the selection criteria, the teeth had to be intact and free from restorations, caries, or previous surface treatment by acid. The teeth were divided in three groups of 25 each and mounted in an acrylic mould [Table/ Fig-1] with cold cure acrylic. Non fluoridated prophylactic paste and rubber cups were used to clean the surfaces of all the teeth for 20 seconds to simulate recent cleaning [3]. The surface of each tooth was etched using 37% phosphoric acid (Transbond XT, 3M UNITEK). The etchant in group I was cleaned using distilled water (soft, 14.7ppm), group II with corporation water (moderately hard, 93.2ppm) and Group III with very hard water (216ppm) respectively. The hardness of water was measured with TDS machine (HM Digital, Inc). The samples of water were divided based on the hardness as classified by the U.S. Department of Interior and the Water Quality Association [Table/ Fig-2]. Later, orthodontic brackets (RothP/1 st and 2 nd premolar S/DSlot 0.18"; monalisa, JJ orthodontics, kerala, India) were bonded to the flattest surface of each tooth. The bond strength was measured in an Instron universal testing machine [Table /Fig-3]. The machine cross head speed was set at 1.0 mm/min, the recording speed was maintained at 20 mm/min, and the scale was set at 50 kg [4]. The force needed to disrupt the orthodontic bracket bond was verified for each sample [ ABstrActBackground: Bonding is a very important step in the ortho dontic treatment planning. Effective bonding enhances the tr...

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Pratap Mane

Effect of Fluoride Prophylactic Agents on the Surface Topography of NiTi and CuNiTi Wires

Evaluation of the awareness and knowledge of orthodontics and orthodontic treatment in patients visiting School of Dental Sciences, Karad

Effect of fluoride on mechanical properties of NiTi and CuNiTi orthodontic archwires: an in vitro study

Awareness of orthodontic treatment among school teachers in Karad Taluka

Invitro Study of the Effect of Different Samples of Water Used for Washing the Etchant on Bracket Bond Strength

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